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rabbit antibody to ano1  (Boster Bio)


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    Boster Bio rabbit antibody to ano1
    Figure 1. Pharmacological block or genetic knockdown of <t>ANO1</t> produces a similar inhi- bition of the contraction of mouse pulmonary artery to 5-HT as blocking VGCC or emptying Ca2+ stores from the SR. (A) Typical isometric force recordings in response to high K+ Krebs (85.4 mM) and increasing cumulative concen- trations of 5-HT ranging from 0.01 to 30 μM as indicated by the bars above the traces, in the absence (left) or presence (right) of the ANO1 inhibitor CaCCInh-A01, also indicated by a hori- zontal bar above the trace. (B) Mean cumulative dose–response curves to 5-HT in mouse pul- monary arteries from wild-type C57/BL6 mice in the absence (black circles, Control; n = 14), or presence (blue squares; n = 5) of 1 μM nifedipine to block VGCC, 10 μM CPA to deplete SR Ca2+
    Rabbit Antibody To Ano1, supplied by Boster Bio, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/rabbit antibody to ano1/product/Boster Bio
    Average 92 stars, based on 1 article reviews
    rabbit antibody to ano1 - by Bioz Stars, 2026-03
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    Images

    1) Product Images from "ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle."

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    Journal: The Journal of general physiology

    doi: 10.1085/jgp.202213217

    Figure 1. Pharmacological block or genetic knockdown of ANO1 produces a similar inhi- bition of the contraction of mouse pulmonary artery to 5-HT as blocking VGCC or emptying Ca2+ stores from the SR. (A) Typical isometric force recordings in response to high K+ Krebs (85.4 mM) and increasing cumulative concen- trations of 5-HT ranging from 0.01 to 30 μM as indicated by the bars above the traces, in the absence (left) or presence (right) of the ANO1 inhibitor CaCCInh-A01, also indicated by a hori- zontal bar above the trace. (B) Mean cumulative dose–response curves to 5-HT in mouse pul- monary arteries from wild-type C57/BL6 mice in the absence (black circles, Control; n = 14), or presence (blue squares; n = 5) of 1 μM nifedipine to block VGCC, 10 μM CPA to deplete SR Ca2+
    Figure Legend Snippet: Figure 1. Pharmacological block or genetic knockdown of ANO1 produces a similar inhi- bition of the contraction of mouse pulmonary artery to 5-HT as blocking VGCC or emptying Ca2+ stores from the SR. (A) Typical isometric force recordings in response to high K+ Krebs (85.4 mM) and increasing cumulative concen- trations of 5-HT ranging from 0.01 to 30 μM as indicated by the bars above the traces, in the absence (left) or presence (right) of the ANO1 inhibitor CaCCInh-A01, also indicated by a hori- zontal bar above the trace. (B) Mean cumulative dose–response curves to 5-HT in mouse pul- monary arteries from wild-type C57/BL6 mice in the absence (black circles, Control; n = 14), or presence (blue squares; n = 5) of 1 μM nifedipine to block VGCC, 10 μM CPA to deplete SR Ca2+

    Techniques Used: Blocking Assay, Knockdown, Control

    Figure 2. The ANO1 blocker CaCCInh-A01 produced no effect on the high K+-mediated contraction of the mouse pulmonary artery. (A) Typical contractile force experiment showing that increasing the concentration of CaCCInh-A01 from 1 to 30 μM (progressively thickening black bar shown over the trace) produced no notice- able effect on the contraction (blue trace) eli- cited by 85.4 mM K+–Krebs solution (K+
    Figure Legend Snippet: Figure 2. The ANO1 blocker CaCCInh-A01 produced no effect on the high K+-mediated contraction of the mouse pulmonary artery. (A) Typical contractile force experiment showing that increasing the concentration of CaCCInh-A01 from 1 to 30 μM (progressively thickening black bar shown over the trace) produced no notice- able effect on the contraction (blue trace) eli- cited by 85.4 mM K+–Krebs solution (K+

    Techniques Used: Produced, Concentration Assay

    Figure 3. Ca2+ oscillations triggered by 5-HT in individual smooth muscle cells from an intact mouse endothelium-denuded PA are potently inhibited by the inhibition of ANO1. All data were collected from the same PA from a conditional smooth muscle–specific and inducible GCaMP3 mouse injected with tamoxifen to induce Cre expression. (A) Ca2+ imaging was performed in the absence of an agonist (Control). The left panel shows one image from a video from which a ST map (middle colored image) was created in the area spanned by the diagonal white line. Fluorescence intensity was measured under the three white lines on the ST map (corresponding to two different cells) and plotted as a function of time as shown on the right. There was no detectable activity in these two cells as well as across the entire field of view of the movie. (B) Same nomenclature as in A except that the preparation was exposed to 1 μM 5-HT for 5 min. A ST map created in the same manner as that in A shows clear evidence of asynchronous Ca2+ transients. This is more evident from examining the fluorescence intensity profile of the same two cells analyzed in A, which displayed repetitive Ca2+ transient of distinct magnitude and frequency. (C) The nomenclature of this panel is identical to that of B and C, with the exception that the PA was exposed to 10 μM CaCCInh-A01 for 10 min while still being incubated with 5-HT. Examination of the ST map reveals little, if any, Ca2+ oscillations in the presence of the ANO1 inhibitor; Ca2+ transients were no longer apparent in the same two cells analyzed in A and B.
    Figure Legend Snippet: Figure 3. Ca2+ oscillations triggered by 5-HT in individual smooth muscle cells from an intact mouse endothelium-denuded PA are potently inhibited by the inhibition of ANO1. All data were collected from the same PA from a conditional smooth muscle–specific and inducible GCaMP3 mouse injected with tamoxifen to induce Cre expression. (A) Ca2+ imaging was performed in the absence of an agonist (Control). The left panel shows one image from a video from which a ST map (middle colored image) was created in the area spanned by the diagonal white line. Fluorescence intensity was measured under the three white lines on the ST map (corresponding to two different cells) and plotted as a function of time as shown on the right. There was no detectable activity in these two cells as well as across the entire field of view of the movie. (B) Same nomenclature as in A except that the preparation was exposed to 1 μM 5-HT for 5 min. A ST map created in the same manner as that in A shows clear evidence of asynchronous Ca2+ transients. This is more evident from examining the fluorescence intensity profile of the same two cells analyzed in A, which displayed repetitive Ca2+ transient of distinct magnitude and frequency. (C) The nomenclature of this panel is identical to that of B and C, with the exception that the PA was exposed to 10 μM CaCCInh-A01 for 10 min while still being incubated with 5-HT. Examination of the ST map reveals little, if any, Ca2+ oscillations in the presence of the ANO1 inhibitor; Ca2+ transients were no longer apparent in the same two cells analyzed in A and B.

    Techniques Used: Inhibition, Injection, Expressing, Imaging, Control, Fluorescence, Activity Assay, Incubation

    Figure 5. Sample experiment illustrating how ANO1 knockdown exerted a strong inhibition of 5-HT-induced Ca2+ oscillations in a PA from a tamoxifen-injected SMC-ANO1-KO-ΔEx12-GCaMP3 mouse. The top left panel is an image from a video stack recorded in a pulmonary artery from a con- ditional smooth muscle cell-specific and inducible ANO1 knockout mouse expressing GCaMP3 specifically in smooth muscle cells, which was exposed to 1 μM 5- HT for 5 min. One ST map constructed from the white line crossing the image is shown in the lower left corner and reveals very little activity. The fluorescence intensity profile as a function of time of two cells from the ST map labeled with the letters a and b are shown on the right. Cell 1 displayed no significant Ca2+
    Figure Legend Snippet: Figure 5. Sample experiment illustrating how ANO1 knockdown exerted a strong inhibition of 5-HT-induced Ca2+ oscillations in a PA from a tamoxifen-injected SMC-ANO1-KO-ΔEx12-GCaMP3 mouse. The top left panel is an image from a video stack recorded in a pulmonary artery from a con- ditional smooth muscle cell-specific and inducible ANO1 knockout mouse expressing GCaMP3 specifically in smooth muscle cells, which was exposed to 1 μM 5- HT for 5 min. One ST map constructed from the white line crossing the image is shown in the lower left corner and reveals very little activity. The fluorescence intensity profile as a function of time of two cells from the ST map labeled with the letters a and b are shown on the right. Cell 1 displayed no significant Ca2+

    Techniques Used: Knockdown, Inhibition, Injection, Knock-Out, Expressing, Construct, Activity Assay, Fluorescence, Labeling

    Figure 6. Asynchronous Ca2+ oscillations evoked by 5-HT require both functional ANO1 and VGCC. Mean data for each of four parameters measured from Ca2+ transients elicited by 1 μM 5-HT (5 min) in PA from control SMC-GCaMP3 (light blue bars) or SMC-ANO1-KO-ΔEx12-GCaMP3 (light gray bars) mice. (A–D) The frequency of Ca2+ oscillations (A), peak Ca2+ transient amplitude (F/F0; B), integrated area under the curve (C), and FWHM (D) were measured as shown in the upper right corner. For each dataset, the mean is indicated by a filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells. SMC-GCaMP3 + 5-HT: N = 7, n = 114 for peak, area under the curve, and FWHM, and n = 116 for frequency; SMC-GCaMP3 + 5-HT + CaCCInh-A01 (CaCCInh): N = 7, n = 15 for peak, area under the curve, and FWHM, and n = 76 for frequency; SMC-GCaMP3 + 5-HT + nifedipine (Nif): N = 2, n = 32 for peak, area under the curve, and FWHM, and n = 47 for frequency; GCaMP3 + 5-HT + CPA: N = 2, n = 29; SMC-ANO1-KO-ΔEx12-GCaMP3; 5-HT: N = 7, n = 39 for peak, area under the curve, and FWHM, and n = 137 for frequency. For all panels, ***, **, and * indicate a significant difference between means with P < 0.001, P < 0.01, and P < 0.05, respectively.
    Figure Legend Snippet: Figure 6. Asynchronous Ca2+ oscillations evoked by 5-HT require both functional ANO1 and VGCC. Mean data for each of four parameters measured from Ca2+ transients elicited by 1 μM 5-HT (5 min) in PA from control SMC-GCaMP3 (light blue bars) or SMC-ANO1-KO-ΔEx12-GCaMP3 (light gray bars) mice. (A–D) The frequency of Ca2+ oscillations (A), peak Ca2+ transient amplitude (F/F0; B), integrated area under the curve (C), and FWHM (D) were measured as shown in the upper right corner. For each dataset, the mean is indicated by a filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells. SMC-GCaMP3 + 5-HT: N = 7, n = 114 for peak, area under the curve, and FWHM, and n = 116 for frequency; SMC-GCaMP3 + 5-HT + CaCCInh-A01 (CaCCInh): N = 7, n = 15 for peak, area under the curve, and FWHM, and n = 76 for frequency; SMC-GCaMP3 + 5-HT + nifedipine (Nif): N = 2, n = 32 for peak, area under the curve, and FWHM, and n = 47 for frequency; GCaMP3 + 5-HT + CPA: N = 2, n = 29; SMC-ANO1-KO-ΔEx12-GCaMP3; 5-HT: N = 7, n = 39 for peak, area under the curve, and FWHM, and n = 137 for frequency. For all panels, ***, **, and * indicate a significant difference between means with P < 0.001, P < 0.01, and P < 0.05, respectively.

    Techniques Used: Functional Assay, Control

    Figure 7. Blocking ANO1 or CaV1.2 depletes SR Ca2+ stores. (A) Typical isometric force re- cording obtained under control conditions showing the effect of depleting the SR Ca2+
    Figure Legend Snippet: Figure 7. Blocking ANO1 or CaV1.2 depletes SR Ca2+ stores. (A) Typical isometric force re- cording obtained under control conditions showing the effect of depleting the SR Ca2+

    Techniques Used: Blocking Assay, Control

    Figure 8. ANO1, CaV1.2, and IP3R colocalize in peripheral coupling sites to form signaling complexes. (A and B) Co-IP of CaV1.2 or IP3R with ANO1 from lysates of the pulmonary artery from wild-type mice. Pulldown was carried out with anti-ANO1 antibody and then probed by Western blot with anti-CaV1.2, anti-IP3R, or anti- ANO1 antibodies. Five to six mouse tissues per experiment, each ran in triplicates. (C and D) Freshly isolated PASMCs from wild-type mice were immunolabeled for ANO1 and CaV1.2 (C) or ANO1 and IP3R (D). All three proteins were preferentially localized to the periphery of the cells. (D and F) Line profiles of the areas indi- cated by the white dashed lines in C and E. The fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the loca- tion of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM (D). (E) IP3R shows some intracellular immunolabeling, with moder- ate peaks present at the periphery showing an enhancement of protein localization to periphe- ral coupling sites. Source data are available for this figure: SourceData F8.
    Figure Legend Snippet: Figure 8. ANO1, CaV1.2, and IP3R colocalize in peripheral coupling sites to form signaling complexes. (A and B) Co-IP of CaV1.2 or IP3R with ANO1 from lysates of the pulmonary artery from wild-type mice. Pulldown was carried out with anti-ANO1 antibody and then probed by Western blot with anti-CaV1.2, anti-IP3R, or anti- ANO1 antibodies. Five to six mouse tissues per experiment, each ran in triplicates. (C and D) Freshly isolated PASMCs from wild-type mice were immunolabeled for ANO1 and CaV1.2 (C) or ANO1 and IP3R (D). All three proteins were preferentially localized to the periphery of the cells. (D and F) Line profiles of the areas indi- cated by the white dashed lines in C and E. The fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the loca- tion of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM (D). (E) IP3R shows some intracellular immunolabeling, with moder- ate peaks present at the periphery showing an enhancement of protein localization to periphe- ral coupling sites. Source data are available for this figure: SourceData F8.

    Techniques Used: Co-Immunoprecipitation Assay, Western Blot, Isolation, Immunolabeling, Fluorescence

    Figure 9. Superresolution imaging of ANO1, CaV1.2, and IP3R at the PM of PASMCs from wild-type mice. (A and B) Superresolution images of PASMCs labeled for ANO1 and CaV1.2 (A) or ANO1 and IP3R (B) were imaged using GSDIM in epifluorescence mode. Epifluorescence images are shown in the inset for
    Figure Legend Snippet: Figure 9. Superresolution imaging of ANO1, CaV1.2, and IP3R at the PM of PASMCs from wild-type mice. (A and B) Superresolution images of PASMCs labeled for ANO1 and CaV1.2 (A) or ANO1 and IP3R (B) were imaged using GSDIM in epifluorescence mode. Epifluorescence images are shown in the inset for

    Techniques Used: Imaging, Labeling

    Figure 10. Membrane cholesterol depletion with MβCD causes the internalization of ANO1 and CaV1.2 proteins. (A and C) Freshly isolated PASMCs from wild-type mice were im- munolabeled for ANO1 and CaV1.2 before (A) or after (C) a 30-min exposure to MβCD (3 mg/ml; MβCD) to deplete membrane cholesterol and disrupt lipid rafts. The two ion channel proteins were preferentially localized to the periphery of the cells in control conditions as similarly shown in Fig. 8. (B–D) Line profiles of the areas indi- cated by the white dashed lines in A and C are respectively displayed in B and D. For these plots, the fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the location of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM in control condition (C) and translocation toward the cen- ter core of the cell after exposure to MβCD (D). The cells from A and C were isolated from the same mouse. (E and F) Graphs summarizing the effects of exposing PASMCs to MβCD on the distribution of ANO1 (magenta bars) and CaV1.2 (green bars), respectively. Measurements were performed as described in the text and consisted in normalizing membrane fluorescence to total cell fluorescence. For each dataset, the mean is indicated by a large, filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells; for the control group (E): ANO1 and CaV1.2: N = 3, n = 43; for the MβCD group (F): ANO1 and CaV1.2: N = 3, n = 35. *** indicates a significant difference between means with P < 0.001.
    Figure Legend Snippet: Figure 10. Membrane cholesterol depletion with MβCD causes the internalization of ANO1 and CaV1.2 proteins. (A and C) Freshly isolated PASMCs from wild-type mice were im- munolabeled for ANO1 and CaV1.2 before (A) or after (C) a 30-min exposure to MβCD (3 mg/ml; MβCD) to deplete membrane cholesterol and disrupt lipid rafts. The two ion channel proteins were preferentially localized to the periphery of the cells in control conditions as similarly shown in Fig. 8. (B–D) Line profiles of the areas indi- cated by the white dashed lines in A and C are respectively displayed in B and D. For these plots, the fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the location of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM in control condition (C) and translocation toward the cen- ter core of the cell after exposure to MβCD (D). The cells from A and C were isolated from the same mouse. (E and F) Graphs summarizing the effects of exposing PASMCs to MβCD on the distribution of ANO1 (magenta bars) and CaV1.2 (green bars), respectively. Measurements were performed as described in the text and consisted in normalizing membrane fluorescence to total cell fluorescence. For each dataset, the mean is indicated by a large, filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells; for the control group (E): ANO1 and CaV1.2: N = 3, n = 43; for the MβCD group (F): ANO1 and CaV1.2: N = 3, n = 35. *** indicates a significant difference between means with P < 0.001.

    Techniques Used: Membrane, Isolation, Control, Fluorescence, Immunolabeling, Translocation Assay

    Figure 12. Hypothetical models of EC coupling involving ANO1, CaV1.2, and IP3R during agonist-mediated contraction of mouse pulmonary ar- terial smooth muscle cells. (A) General uniform model depicting the acti- vation of ANO1 by both Ca2+ release from IP3-sensitive SR Ca2+ stores and Ca2+ entry through CaV1.2. In this model, the three ion transporters are evenly distributed in the membrane and are not physically coupled. The depolari- zation is maintained by the positive feedback loop established by CaV1.2- mediated activation of Cl−efflux through ANO1 and its impact on the state of activation of CaV1.2 through regulation of membrane potential. (B) Schematic diagram illustrating the local interaction of ANO1, CaV1.2 with IP3R and their impact on membrane potential, Ca2+ entry, and contraction. In this model, the three ion channels are physically coupled in a restricted number of sites (Super Cluster) distributed across the long axis of the cell (shown as red boxes in the bottom diagram) and are organized for compartmentalized Ca2+
    Figure Legend Snippet: Figure 12. Hypothetical models of EC coupling involving ANO1, CaV1.2, and IP3R during agonist-mediated contraction of mouse pulmonary ar- terial smooth muscle cells. (A) General uniform model depicting the acti- vation of ANO1 by both Ca2+ release from IP3-sensitive SR Ca2+ stores and Ca2+ entry through CaV1.2. In this model, the three ion transporters are evenly distributed in the membrane and are not physically coupled. The depolari- zation is maintained by the positive feedback loop established by CaV1.2- mediated activation of Cl−efflux through ANO1 and its impact on the state of activation of CaV1.2 through regulation of membrane potential. (B) Schematic diagram illustrating the local interaction of ANO1, CaV1.2 with IP3R and their impact on membrane potential, Ca2+ entry, and contraction. In this model, the three ion channels are physically coupled in a restricted number of sites (Super Cluster) distributed across the long axis of the cell (shown as red boxes in the bottom diagram) and are organized for compartmentalized Ca2+

    Techniques Used: Membrane, Activation Assay



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    Figure 1. Pharmacological block or genetic knockdown of <t>ANO1</t> produces a similar inhi- bition of the contraction of mouse pulmonary artery to 5-HT as blocking VGCC or emptying Ca2+ stores from the SR. (A) Typical isometric force recordings in response to high K+ Krebs (85.4 mM) and increasing cumulative concen- trations of 5-HT ranging from 0.01 to 30 μM as indicated by the bars above the traces, in the absence (left) or presence (right) of the ANO1 inhibitor CaCCInh-A01, also indicated by a hori- zontal bar above the trace. (B) Mean cumulative dose–response curves to 5-HT in mouse pul- monary arteries from wild-type C57/BL6 mice in the absence (black circles, Control; n = 14), or presence (blue squares; n = 5) of 1 μM nifedipine to block VGCC, 10 μM CPA to deplete SR Ca2+
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    Image Search Results


    ANO1 expression in COPD. ( a ) Patient demographics with age range and smoking status. ( b ) Non-smoker healthy control (non-COPD) and smokers with COPD (COPD) lung tissue sections stained for ANO1. ( c ) Bronchoalveolar lavage fluid (BALF) derived cells stained for ANO1. Insets show ANO1 staining in airway epithelial cells. × 20 magnification.

    Journal: Scientific Reports

    Article Title: Low dose cadmium exposure regulates miR-381–ANO1 interaction in airway epithelial cells

    doi: 10.1038/s41598-023-50471-z

    Figure Lengend Snippet: ANO1 expression in COPD. ( a ) Patient demographics with age range and smoking status. ( b ) Non-smoker healthy control (non-COPD) and smokers with COPD (COPD) lung tissue sections stained for ANO1. ( c ) Bronchoalveolar lavage fluid (BALF) derived cells stained for ANO1. Insets show ANO1 staining in airway epithelial cells. × 20 magnification.

    Article Snippet: Membranes were blocked using Everyblot (BioRad, USA) for 20 min at room temperature, incubated with primary rabbit raised polyclonal antibody against ANO1 (1:1000; Invitrogen, Thermo Fisher Scientific, USA), mouse monoclonal antibody against β-actin (1:500; Sigma-Aldrich, USA) overnight at 4 °C.

    Techniques: Expressing, Staining, Derivative Assay

    Effect of low dose of CdCl 2 (Cd) on ANO1 expression in NHBECs. ( a ) ANO1 expression in low-dose CdCl 2 (0.1–1 µM) exposed epithelial cells. ( b ) ANO1 intensity in western blots quantitated. Statistical significance drawn using one-way ANOVA—control vs 0.5 µM, p < 0.0001 and control vs 1 µM, p < 0.0001. ANO1 expression in Cd exposed cells represented with fluorescence microscopy at × 20 magnification ( c,d ).

    Journal: Scientific Reports

    Article Title: Low dose cadmium exposure regulates miR-381–ANO1 interaction in airway epithelial cells

    doi: 10.1038/s41598-023-50471-z

    Figure Lengend Snippet: Effect of low dose of CdCl 2 (Cd) on ANO1 expression in NHBECs. ( a ) ANO1 expression in low-dose CdCl 2 (0.1–1 µM) exposed epithelial cells. ( b ) ANO1 intensity in western blots quantitated. Statistical significance drawn using one-way ANOVA—control vs 0.5 µM, p < 0.0001 and control vs 1 µM, p < 0.0001. ANO1 expression in Cd exposed cells represented with fluorescence microscopy at × 20 magnification ( c,d ).

    Article Snippet: Membranes were blocked using Everyblot (BioRad, USA) for 20 min at room temperature, incubated with primary rabbit raised polyclonal antibody against ANO1 (1:1000; Invitrogen, Thermo Fisher Scientific, USA), mouse monoclonal antibody against β-actin (1:500; Sigma-Aldrich, USA) overnight at 4 °C.

    Techniques: Expressing, Western Blot, Fluorescence, Microscopy

    miR-381 negatively regulates ANO1 expression in Cd exposed CBECs. ( a ) miRNAs regulating ANO1 mRNA sequence were analyzed from different miRNA databases—TargetScan, miRDB and PicTAR.Venn diagram using BioVenn platform. ( b ) Putative binding sequence of miR-381 in wild type 3ʹ-UTR of ANO1. ( c ) Relative expression of miR-381 and ANO1 in presence of miR-381 inhibitor (miR-381 IN) or mimic (miR-381 MM). Expression analysis was performed by drawing comparisons against miR-381 negative control (miR-NC). ( d ) Expression of ANO1 upon miR-381 overexpression and inhibition in CBECs represented with fluorescence microscopy at × 20 magnification.

    Journal: Scientific Reports

    Article Title: Low dose cadmium exposure regulates miR-381–ANO1 interaction in airway epithelial cells

    doi: 10.1038/s41598-023-50471-z

    Figure Lengend Snippet: miR-381 negatively regulates ANO1 expression in Cd exposed CBECs. ( a ) miRNAs regulating ANO1 mRNA sequence were analyzed from different miRNA databases—TargetScan, miRDB and PicTAR.Venn diagram using BioVenn platform. ( b ) Putative binding sequence of miR-381 in wild type 3ʹ-UTR of ANO1. ( c ) Relative expression of miR-381 and ANO1 in presence of miR-381 inhibitor (miR-381 IN) or mimic (miR-381 MM). Expression analysis was performed by drawing comparisons against miR-381 negative control (miR-NC). ( d ) Expression of ANO1 upon miR-381 overexpression and inhibition in CBECs represented with fluorescence microscopy at × 20 magnification.

    Article Snippet: Membranes were blocked using Everyblot (BioRad, USA) for 20 min at room temperature, incubated with primary rabbit raised polyclonal antibody against ANO1 (1:1000; Invitrogen, Thermo Fisher Scientific, USA), mouse monoclonal antibody against β-actin (1:500; Sigma-Aldrich, USA) overnight at 4 °C.

    Techniques: Expressing, Sequencing, Binding Assay, Negative Control, Over Expression, Inhibition, Fluorescence, Microscopy

    CBECs treated with CdCl 2 (1 µM), ( a ) expression analysis for miR-381 and ANO1 using qRT-PCR. ( b ) CBECs transfected with miR-381 mimic (miR-381-MM) and control and treated with miR-inhibitor (miR-381-IN) analyzed for ANO1 expression. ( c ) Graphical abstract: Cadmium exposure to airway epithelial cells inhibits miR-381 expression which induces ANO1 expression.

    Journal: Scientific Reports

    Article Title: Low dose cadmium exposure regulates miR-381–ANO1 interaction in airway epithelial cells

    doi: 10.1038/s41598-023-50471-z

    Figure Lengend Snippet: CBECs treated with CdCl 2 (1 µM), ( a ) expression analysis for miR-381 and ANO1 using qRT-PCR. ( b ) CBECs transfected with miR-381 mimic (miR-381-MM) and control and treated with miR-inhibitor (miR-381-IN) analyzed for ANO1 expression. ( c ) Graphical abstract: Cadmium exposure to airway epithelial cells inhibits miR-381 expression which induces ANO1 expression.

    Article Snippet: Membranes were blocked using Everyblot (BioRad, USA) for 20 min at room temperature, incubated with primary rabbit raised polyclonal antibody against ANO1 (1:1000; Invitrogen, Thermo Fisher Scientific, USA), mouse monoclonal antibody against β-actin (1:500; Sigma-Aldrich, USA) overnight at 4 °C.

    Techniques: Expressing, Quantitative RT-PCR, Transfection

    A, Representative images of western blot analyses of the effect of the pharmacological inhibitor of ANO1, T16A inh -A01 (T16Ai) on myofibroblast differentiation. Serum-starved (48 hr) HLF were pretreated with 30 μM T16Ai or vehicle control for 1hr, followed by treatment with TGF-β (1 ng/ml) for 48 hr. Cell lysates were then probed for immunoreactivity of anactomin-1 (ANO1), collagen 1A1 (Col1A1), fibronectin (FN), and smooth muscle α-actin (SMA). B, Quantification of ANO1, Col1A1, FN, and SMA immunoreactivities. Data are mean values ± SD. *p<0.05, **p<0.01, ***p<0.001, vs. TGFβ group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, ### p<0.001; #### , p<0.0001, are the results of preplanned comparisons of TGF-β effect with and without ANO1 inhibitor, one-population t-test.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: A, Representative images of western blot analyses of the effect of the pharmacological inhibitor of ANO1, T16A inh -A01 (T16Ai) on myofibroblast differentiation. Serum-starved (48 hr) HLF were pretreated with 30 μM T16Ai or vehicle control for 1hr, followed by treatment with TGF-β (1 ng/ml) for 48 hr. Cell lysates were then probed for immunoreactivity of anactomin-1 (ANO1), collagen 1A1 (Col1A1), fibronectin (FN), and smooth muscle α-actin (SMA). B, Quantification of ANO1, Col1A1, FN, and SMA immunoreactivities. Data are mean values ± SD. *p<0.05, **p<0.01, ***p<0.001, vs. TGFβ group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, ### p<0.001; #### , p<0.0001, are the results of preplanned comparisons of TGF-β effect with and without ANO1 inhibitor, one-population t-test.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Western Blot, Control

    A, Representative images of western blot analyses of the effect of siRNA targeting ANO1 (siANO1) on myofibroblast differentiation. HLF were transfected with siRNA targeting ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hr, and treated with TGF-β or vehicle control for 48 hrs. Cell lysates were then probed for immunoreactivity of anactomin-1 (ANO1), collagen 1A1 (Col1A1), fibronectin (FN), and smooth muscle α-actin (SMA). B, Quantification of ANO1, Col1A1, FN, and SMA immunoreactivity. Data are mean values ±SD. *p<0.05, **p<0.01, ***p<0.001, vs. TGFβ group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, ## p<0.01 ### p<0.001; #### , p<0.0001, are the results of preplanned comparisons of TGF-β effect in cells treated with either control siRNA (siC) or siANO1, one-population t-test.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: A, Representative images of western blot analyses of the effect of siRNA targeting ANO1 (siANO1) on myofibroblast differentiation. HLF were transfected with siRNA targeting ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hr, and treated with TGF-β or vehicle control for 48 hrs. Cell lysates were then probed for immunoreactivity of anactomin-1 (ANO1), collagen 1A1 (Col1A1), fibronectin (FN), and smooth muscle α-actin (SMA). B, Quantification of ANO1, Col1A1, FN, and SMA immunoreactivity. Data are mean values ±SD. *p<0.05, **p<0.01, ***p<0.001, vs. TGFβ group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, ## p<0.01 ### p<0.001; #### , p<0.0001, are the results of preplanned comparisons of TGF-β effect in cells treated with either control siRNA (siC) or siANO1, one-population t-test.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Western Blot, Transfection, Control

    A, Representative images of western blot analyses of the pharmacological effect of the ANO1 inhibitor, T16Ainh-A01 (T16Ai), on intracellular signaling pathways in HLF. Serum-starved (48 hr) cells were pretreated for 1 hr with T16Ai, followed by treatment with TGF-β (1 ng/ml) for either 30 min (p-Smad2, Smad2), or 48 hr (p-MLC, MLC, p-AKT, AKT). B, Quantification of p-MLC and p-AKT immunoreactivities in T16Ai-treated cells. Data represent the mean immunoreactivity values ±SD normalized to TGF-β group within the same experiment. *p<0.05, **p<0.01, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, #p<0.05; ##, p<0.01, are the results of preplanned comparisons of the TGFβ effect in cells treated with or without T16Ai, one population t-test. C, Representative images of western blot analyses of the effects of the siRNA targeting ANO1 (siANO1) on intracellular signaling pathways in HLF. HLF cells were transfected with the siRNA targeting ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hrs, and treated with TGFβ (1 ng/ml) for either 30 min (p-Smad2, Smad2), or for 48 hr (p-MLC, MLC, p-AKT, AKT). D, Quantification of p-MLC and p-AKT immunoreactivities in siCont and siANO1-treated cells. Data represent mean immunoreactivity values ±SD normalized to β-actin loading control and TGF-β group within the same experiment. * *p<0.05, **p<0.01, ***p<0.001, ****p<0.0001, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, ###p<0.001; ####, p<0.0001, are the results of preplanned comparisons of the TGF-β effect in cells treated with control siRNA (siC) or siANO1, one population t-test.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: A, Representative images of western blot analyses of the pharmacological effect of the ANO1 inhibitor, T16Ainh-A01 (T16Ai), on intracellular signaling pathways in HLF. Serum-starved (48 hr) cells were pretreated for 1 hr with T16Ai, followed by treatment with TGF-β (1 ng/ml) for either 30 min (p-Smad2, Smad2), or 48 hr (p-MLC, MLC, p-AKT, AKT). B, Quantification of p-MLC and p-AKT immunoreactivities in T16Ai-treated cells. Data represent the mean immunoreactivity values ±SD normalized to TGF-β group within the same experiment. *p<0.05, **p<0.01, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, #p<0.05; ##, p<0.01, are the results of preplanned comparisons of the TGFβ effect in cells treated with or without T16Ai, one population t-test. C, Representative images of western blot analyses of the effects of the siRNA targeting ANO1 (siANO1) on intracellular signaling pathways in HLF. HLF cells were transfected with the siRNA targeting ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hrs, and treated with TGFβ (1 ng/ml) for either 30 min (p-Smad2, Smad2), or for 48 hr (p-MLC, MLC, p-AKT, AKT). D, Quantification of p-MLC and p-AKT immunoreactivities in siCont and siANO1-treated cells. Data represent mean immunoreactivity values ±SD normalized to β-actin loading control and TGF-β group within the same experiment. * *p<0.05, **p<0.01, ***p<0.001, ****p<0.0001, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, ###p<0.001; ####, p<0.0001, are the results of preplanned comparisons of the TGF-β effect in cells treated with control siRNA (siC) or siANO1, one population t-test.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Western Blot, Protein-Protein interactions, Transfection, Control

    A, Representative images of western blot analyses of the effects of siRNA targeting WNK1 (siWNK1) and the WNK kinase inhibitor WNK463 on myofibroblast markers and intracellular signaling pathways in HLF. HLF were transfected with siRNA targeting ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hrs, pretreated with or without WNK1 inhibitor WNK463 (10 μM) for 1 hr, followed by treatment with TGF-β (1 ng/ml) or vehicle control for 48 hrs. Cell lysates were then probed for the immunoreactivity of WNK1, collagen 1A1 (Col1A1), fibronectin (FN), smooth muscle α-actin (SMA), p-MLC, MLC, p-AKT, and AKT. B, Quantification of the immunoreactivity of WNK, Col1A1, FN, SMA, p-MLC, and p-AKT. Data are mean IR values ±SD normalized to β-actin loading control and TGFβ group within the same experiment. *p<0.05, **p<0.01, ***p<0.001, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, #p<0.05; ##, p<0.01, are the results of preplanned comparisons of the TGFβ effect in cells treated with siWNK1 or the WNK1 inhibitor WNK463, t-test.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: A, Representative images of western blot analyses of the effects of siRNA targeting WNK1 (siWNK1) and the WNK kinase inhibitor WNK463 on myofibroblast markers and intracellular signaling pathways in HLF. HLF were transfected with siRNA targeting ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hrs, pretreated with or without WNK1 inhibitor WNK463 (10 μM) for 1 hr, followed by treatment with TGF-β (1 ng/ml) or vehicle control for 48 hrs. Cell lysates were then probed for the immunoreactivity of WNK1, collagen 1A1 (Col1A1), fibronectin (FN), smooth muscle α-actin (SMA), p-MLC, MLC, p-AKT, and AKT. B, Quantification of the immunoreactivity of WNK, Col1A1, FN, SMA, p-MLC, and p-AKT. Data are mean IR values ±SD normalized to β-actin loading control and TGFβ group within the same experiment. *p<0.05, **p<0.01, ***p<0.001, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, #p<0.05; ##, p<0.01, are the results of preplanned comparisons of the TGFβ effect in cells treated with siWNK1 or the WNK1 inhibitor WNK463, t-test.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Western Blot, Protein-Protein interactions, Transfection, Control

    A, Representative images of western blot analyses of the effects of siRNA targeting WNK1 (siWNK1) or ANO1 (siANO1) on myofibroblast differentiation and intracellular signaling in IPF-HLF. Cells were transfected with siRNA targeting WNK1 (siWNK1), ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hrs, followed by treatment with TGF-β (1 ng/ml) or vehicle control for 48 hrs. Cell lysates were then probed for the immunoreactivity of WNK1, collagen 1A1 (Col1A1), fibronectin (FN), smooth muscle α-actin (SMA), p-MLC, MLC, p-AKT, and AKT. B, Quantification of the immunoreactivity of WNK, Col1A1, FN, SMA, p-MLC, and p-AKT. Data are mean values ±SD normalized to TGF-β group within the same experiment. *p<0.05, **p<0.01, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, #p<0.05; ##, p<0.01, are the results of preplanned comparisons of the TGF-β effect in cells treated with or without T16Ai, one population t-test.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: A, Representative images of western blot analyses of the effects of siRNA targeting WNK1 (siWNK1) or ANO1 (siANO1) on myofibroblast differentiation and intracellular signaling in IPF-HLF. Cells were transfected with siRNA targeting WNK1 (siWNK1), ANO1 (siANO1) or control RNA (siCont) for 24 hrs, serum starved for 48 hrs, followed by treatment with TGF-β (1 ng/ml) or vehicle control for 48 hrs. Cell lysates were then probed for the immunoreactivity of WNK1, collagen 1A1 (Col1A1), fibronectin (FN), smooth muscle α-actin (SMA), p-MLC, MLC, p-AKT, and AKT. B, Quantification of the immunoreactivity of WNK, Col1A1, FN, SMA, p-MLC, and p-AKT. Data are mean values ±SD normalized to TGF-β group within the same experiment. *p<0.05, **p<0.01, vs. TGF-β group, Kruskal-Wallis test with Dunn’s post hoc correction. Brace brackets, #p<0.05; ##, p<0.01, are the results of preplanned comparisons of the TGF-β effect in cells treated with or without T16Ai, one population t-test.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Western Blot, Transfection, Control

    Human lung fibroblasts were serum starved in 0.1% FBS for 48 hr, followed by treatment with TGF-β (1 ng/ml) for 24 or 48 hrs, as indicated. A, ANO1 mRNA expression after 24-hr treatment with TGF-β as determined by RT-qPCR. Data are mean values ±SD. ***p<0.001, t-test. B, Western blot analysis and quantitation of ANO1 protein expression in response TGF-β. Data are mean values normalized to control cells ±SD. *, p<0.05, ***p<0.001, Kruskal-Wallis test with Dunn’s correction for multiple comparisons. C, Effect of the TGFBRII inhibitor, SB-431542 (5 μM, 30 minutes pre-incubation) on TGF-β-induced ANO1 protein expression (48 hrs). Shown are representative images of ANO1 immunoreactivity and quantification. Data are mean immunoreactivity values normalized to TGF-β-treated cells ±SD. ***p<0.001, one-population t-test with Bonferroni correction for multiple comparisons.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: Human lung fibroblasts were serum starved in 0.1% FBS for 48 hr, followed by treatment with TGF-β (1 ng/ml) for 24 or 48 hrs, as indicated. A, ANO1 mRNA expression after 24-hr treatment with TGF-β as determined by RT-qPCR. Data are mean values ±SD. ***p<0.001, t-test. B, Western blot analysis and quantitation of ANO1 protein expression in response TGF-β. Data are mean values normalized to control cells ±SD. *, p<0.05, ***p<0.001, Kruskal-Wallis test with Dunn’s correction for multiple comparisons. C, Effect of the TGFBRII inhibitor, SB-431542 (5 μM, 30 minutes pre-incubation) on TGF-β-induced ANO1 protein expression (48 hrs). Shown are representative images of ANO1 immunoreactivity and quantification. Data are mean immunoreactivity values normalized to TGF-β-treated cells ±SD. ***p<0.001, one-population t-test with Bonferroni correction for multiple comparisons.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Expressing, Quantitative RT-PCR, Western Blot, Quantitation Assay, Control, Incubation

    A, Representative immunohistochemical images of non-fibrotic (NF) lungs and fibrotic areas of the IPF lungs. Sequential sections of the same lung were probed with either ANO1 antibody or IgG control. Scale bars = 200 μm. B, High magnification immunofluorescence images of section from an IPF lung, stained for ANO1 (green) and smooth muscle a-actin (SMA, red), and counterstained with DAPI (blue). Scale bars = 20 μm. Shown are representative images of lung sections from two IPF individuals. Note that we did not expect stains precisely overlapping because of membrane localization of ANO1 and cytosolic localization of ANO1.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: A, Representative immunohistochemical images of non-fibrotic (NF) lungs and fibrotic areas of the IPF lungs. Sequential sections of the same lung were probed with either ANO1 antibody or IgG control. Scale bars = 200 μm. B, High magnification immunofluorescence images of section from an IPF lung, stained for ANO1 (green) and smooth muscle a-actin (SMA, red), and counterstained with DAPI (blue). Scale bars = 20 μm. Shown are representative images of lung sections from two IPF individuals. Note that we did not expect stains precisely overlapping because of membrane localization of ANO1 and cytosolic localization of ANO1.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Immunohistochemical staining, Control, Immunofluorescence, Staining, Membrane

    A, Kinetics of 36 Cl accumulation in HLF. Cl uptake was measured as radiotracer accumulation after adding 36 Cl into cell culture medium. Serum-starved HLF cells were pretreated for 30 min with either vehicle or a combination of 1 mM DIDS plus 20 μM bumetanide. The same inhibitors were present in transport assay media. Data are mean values ±SD in three experiments. ****p<0.0001, repeated measures ANOVA; inhibitors vs. control. B, Effect of the ANO1 inhibitor, T16Ainh-A01 (T16Ai), on intracellular Cl levels in control and TGF-β-treated HLF. Intracellular Cl levels were measured as the steady state 36 Cl accumulation and normalized to the number of cells per well as described in methods. T16Ainh-A01 (30 μM) was applied 1 hr before and was present during 36 Cl transport assay. Data represent mean values ±SD from seven independent experiments in two HLF passages. *p<0.01, **p<0.01; ***p<0.001; One-way ANOVA with Tukey post hoc correction for multiple comparisons. C, The effect of siRNA-mediated ANO1 knockdown on intracellular Cl levels in control and TGFβ-treated primary human lung fibroblasts. HLF cells were transfected with the siRNA targeting ANO1 (siANO1) or the negative control RNA (siCont) for 24 hrs, serum starved for 48 hrs, and treated with TGF-β or vehicle control for 48 hrs. The steady-state 36 Cl accumulation was measured and normalized as in panel B. Data represent mean values ±SD of eight independent experiments performed in two HLF passages. **p<0.01, ***p<0.001, One-way ANOVA with Tukey post hoc correction for multiple comparisons.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: A, Kinetics of 36 Cl accumulation in HLF. Cl uptake was measured as radiotracer accumulation after adding 36 Cl into cell culture medium. Serum-starved HLF cells were pretreated for 30 min with either vehicle or a combination of 1 mM DIDS plus 20 μM bumetanide. The same inhibitors were present in transport assay media. Data are mean values ±SD in three experiments. ****p<0.0001, repeated measures ANOVA; inhibitors vs. control. B, Effect of the ANO1 inhibitor, T16Ainh-A01 (T16Ai), on intracellular Cl levels in control and TGF-β-treated HLF. Intracellular Cl levels were measured as the steady state 36 Cl accumulation and normalized to the number of cells per well as described in methods. T16Ainh-A01 (30 μM) was applied 1 hr before and was present during 36 Cl transport assay. Data represent mean values ±SD from seven independent experiments in two HLF passages. *p<0.01, **p<0.01; ***p<0.001; One-way ANOVA with Tukey post hoc correction for multiple comparisons. C, The effect of siRNA-mediated ANO1 knockdown on intracellular Cl levels in control and TGFβ-treated primary human lung fibroblasts. HLF cells were transfected with the siRNA targeting ANO1 (siANO1) or the negative control RNA (siCont) for 24 hrs, serum starved for 48 hrs, and treated with TGF-β or vehicle control for 48 hrs. The steady-state 36 Cl accumulation was measured and normalized as in panel B. Data represent mean values ±SD of eight independent experiments performed in two HLF passages. **p<0.01, ***p<0.001, One-way ANOVA with Tukey post hoc correction for multiple comparisons.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Cell Culture, Transport Assay, Control, Knockdown, Transfection, Negative Control

    The left part of the diagram illustrates the canonical model of the TGF-β-induced myofibroblast differentiation involving Smad signaling. The right part of the diagram depicts novel mechanism which this study suggests. (i) TGF-β upregulates the expression of ANO1 and elevates intracellular [Cl ]. (ii) Increased [Cl ]i stabilizes autoinhibitory conformation of WNK1 and prompts its association with and activation of mTORC2. (iii) mTORC2 activates AKT and RhoA pathways. (iv) AKT and RhoA promote myofibroblast differentiation via downstream signaling mechanisms, also including P-MLC. (v) WNK1 signaling forms a feedforward mechanism for ANO expression. Yellow color represents signaling molecules whose contribution was tested in this study. Prepared with BioRender.

    Journal: bioRxiv

    Article Title: Anoctamin-1 is induced by TGF-beta and contributes to lung myofibroblast differentiation

    doi: 10.1101/2023.06.07.544093

    Figure Lengend Snippet: The left part of the diagram illustrates the canonical model of the TGF-β-induced myofibroblast differentiation involving Smad signaling. The right part of the diagram depicts novel mechanism which this study suggests. (i) TGF-β upregulates the expression of ANO1 and elevates intracellular [Cl ]. (ii) Increased [Cl ]i stabilizes autoinhibitory conformation of WNK1 and prompts its association with and activation of mTORC2. (iii) mTORC2 activates AKT and RhoA pathways. (iv) AKT and RhoA promote myofibroblast differentiation via downstream signaling mechanisms, also including P-MLC. (v) WNK1 signaling forms a feedforward mechanism for ANO expression. Yellow color represents signaling molecules whose contribution was tested in this study. Prepared with BioRender.

    Article Snippet: Antibodies against ANO1 (14476, 1,000×), Smad2 (L1603, 1,000×), phospho-Smad2-Ser465/467 (138D4, 1,000×), phospho-MLC-Ser19 (3671, 1,000×) and phospho-AKT-Ser473 (9271, 1,000×) were from Cell Signaling Technology.

    Techniques: Expressing, Activation Assay

    Figure 1. Pharmacological block or genetic knockdown of ANO1 produces a similar inhi- bition of the contraction of mouse pulmonary artery to 5-HT as blocking VGCC or emptying Ca2+ stores from the SR. (A) Typical isometric force recordings in response to high K+ Krebs (85.4 mM) and increasing cumulative concen- trations of 5-HT ranging from 0.01 to 30 μM as indicated by the bars above the traces, in the absence (left) or presence (right) of the ANO1 inhibitor CaCCInh-A01, also indicated by a hori- zontal bar above the trace. (B) Mean cumulative dose–response curves to 5-HT in mouse pul- monary arteries from wild-type C57/BL6 mice in the absence (black circles, Control; n = 14), or presence (blue squares; n = 5) of 1 μM nifedipine to block VGCC, 10 μM CPA to deplete SR Ca2+

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 1. Pharmacological block or genetic knockdown of ANO1 produces a similar inhi- bition of the contraction of mouse pulmonary artery to 5-HT as blocking VGCC or emptying Ca2+ stores from the SR. (A) Typical isometric force recordings in response to high K+ Krebs (85.4 mM) and increasing cumulative concen- trations of 5-HT ranging from 0.01 to 30 μM as indicated by the bars above the traces, in the absence (left) or presence (right) of the ANO1 inhibitor CaCCInh-A01, also indicated by a hori- zontal bar above the trace. (B) Mean cumulative dose–response curves to 5-HT in mouse pul- monary arteries from wild-type C57/BL6 mice in the absence (black circles, Control; n = 14), or presence (blue squares; n = 5) of 1 μM nifedipine to block VGCC, 10 μM CPA to deplete SR Ca2+

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Blocking Assay, Knockdown, Control

    Figure 2. The ANO1 blocker CaCCInh-A01 produced no effect on the high K+-mediated contraction of the mouse pulmonary artery. (A) Typical contractile force experiment showing that increasing the concentration of CaCCInh-A01 from 1 to 30 μM (progressively thickening black bar shown over the trace) produced no notice- able effect on the contraction (blue trace) eli- cited by 85.4 mM K+–Krebs solution (K+

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 2. The ANO1 blocker CaCCInh-A01 produced no effect on the high K+-mediated contraction of the mouse pulmonary artery. (A) Typical contractile force experiment showing that increasing the concentration of CaCCInh-A01 from 1 to 30 μM (progressively thickening black bar shown over the trace) produced no notice- able effect on the contraction (blue trace) eli- cited by 85.4 mM K+–Krebs solution (K+

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Produced, Concentration Assay

    Figure 3. Ca2+ oscillations triggered by 5-HT in individual smooth muscle cells from an intact mouse endothelium-denuded PA are potently inhibited by the inhibition of ANO1. All data were collected from the same PA from a conditional smooth muscle–specific and inducible GCaMP3 mouse injected with tamoxifen to induce Cre expression. (A) Ca2+ imaging was performed in the absence of an agonist (Control). The left panel shows one image from a video from which a ST map (middle colored image) was created in the area spanned by the diagonal white line. Fluorescence intensity was measured under the three white lines on the ST map (corresponding to two different cells) and plotted as a function of time as shown on the right. There was no detectable activity in these two cells as well as across the entire field of view of the movie. (B) Same nomenclature as in A except that the preparation was exposed to 1 μM 5-HT for 5 min. A ST map created in the same manner as that in A shows clear evidence of asynchronous Ca2+ transients. This is more evident from examining the fluorescence intensity profile of the same two cells analyzed in A, which displayed repetitive Ca2+ transient of distinct magnitude and frequency. (C) The nomenclature of this panel is identical to that of B and C, with the exception that the PA was exposed to 10 μM CaCCInh-A01 for 10 min while still being incubated with 5-HT. Examination of the ST map reveals little, if any, Ca2+ oscillations in the presence of the ANO1 inhibitor; Ca2+ transients were no longer apparent in the same two cells analyzed in A and B.

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 3. Ca2+ oscillations triggered by 5-HT in individual smooth muscle cells from an intact mouse endothelium-denuded PA are potently inhibited by the inhibition of ANO1. All data were collected from the same PA from a conditional smooth muscle–specific and inducible GCaMP3 mouse injected with tamoxifen to induce Cre expression. (A) Ca2+ imaging was performed in the absence of an agonist (Control). The left panel shows one image from a video from which a ST map (middle colored image) was created in the area spanned by the diagonal white line. Fluorescence intensity was measured under the three white lines on the ST map (corresponding to two different cells) and plotted as a function of time as shown on the right. There was no detectable activity in these two cells as well as across the entire field of view of the movie. (B) Same nomenclature as in A except that the preparation was exposed to 1 μM 5-HT for 5 min. A ST map created in the same manner as that in A shows clear evidence of asynchronous Ca2+ transients. This is more evident from examining the fluorescence intensity profile of the same two cells analyzed in A, which displayed repetitive Ca2+ transient of distinct magnitude and frequency. (C) The nomenclature of this panel is identical to that of B and C, with the exception that the PA was exposed to 10 μM CaCCInh-A01 for 10 min while still being incubated with 5-HT. Examination of the ST map reveals little, if any, Ca2+ oscillations in the presence of the ANO1 inhibitor; Ca2+ transients were no longer apparent in the same two cells analyzed in A and B.

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Inhibition, Injection, Expressing, Imaging, Control, Fluorescence, Activity Assay, Incubation

    Figure 5. Sample experiment illustrating how ANO1 knockdown exerted a strong inhibition of 5-HT-induced Ca2+ oscillations in a PA from a tamoxifen-injected SMC-ANO1-KO-ΔEx12-GCaMP3 mouse. The top left panel is an image from a video stack recorded in a pulmonary artery from a con- ditional smooth muscle cell-specific and inducible ANO1 knockout mouse expressing GCaMP3 specifically in smooth muscle cells, which was exposed to 1 μM 5- HT for 5 min. One ST map constructed from the white line crossing the image is shown in the lower left corner and reveals very little activity. The fluorescence intensity profile as a function of time of two cells from the ST map labeled with the letters a and b are shown on the right. Cell 1 displayed no significant Ca2+

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 5. Sample experiment illustrating how ANO1 knockdown exerted a strong inhibition of 5-HT-induced Ca2+ oscillations in a PA from a tamoxifen-injected SMC-ANO1-KO-ΔEx12-GCaMP3 mouse. The top left panel is an image from a video stack recorded in a pulmonary artery from a con- ditional smooth muscle cell-specific and inducible ANO1 knockout mouse expressing GCaMP3 specifically in smooth muscle cells, which was exposed to 1 μM 5- HT for 5 min. One ST map constructed from the white line crossing the image is shown in the lower left corner and reveals very little activity. The fluorescence intensity profile as a function of time of two cells from the ST map labeled with the letters a and b are shown on the right. Cell 1 displayed no significant Ca2+

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Knockdown, Inhibition, Injection, Knock-Out, Expressing, Construct, Activity Assay, Fluorescence, Labeling

    Figure 6. Asynchronous Ca2+ oscillations evoked by 5-HT require both functional ANO1 and VGCC. Mean data for each of four parameters measured from Ca2+ transients elicited by 1 μM 5-HT (5 min) in PA from control SMC-GCaMP3 (light blue bars) or SMC-ANO1-KO-ΔEx12-GCaMP3 (light gray bars) mice. (A–D) The frequency of Ca2+ oscillations (A), peak Ca2+ transient amplitude (F/F0; B), integrated area under the curve (C), and FWHM (D) were measured as shown in the upper right corner. For each dataset, the mean is indicated by a filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells. SMC-GCaMP3 + 5-HT: N = 7, n = 114 for peak, area under the curve, and FWHM, and n = 116 for frequency; SMC-GCaMP3 + 5-HT + CaCCInh-A01 (CaCCInh): N = 7, n = 15 for peak, area under the curve, and FWHM, and n = 76 for frequency; SMC-GCaMP3 + 5-HT + nifedipine (Nif): N = 2, n = 32 for peak, area under the curve, and FWHM, and n = 47 for frequency; GCaMP3 + 5-HT + CPA: N = 2, n = 29; SMC-ANO1-KO-ΔEx12-GCaMP3; 5-HT: N = 7, n = 39 for peak, area under the curve, and FWHM, and n = 137 for frequency. For all panels, ***, **, and * indicate a significant difference between means with P < 0.001, P < 0.01, and P < 0.05, respectively.

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 6. Asynchronous Ca2+ oscillations evoked by 5-HT require both functional ANO1 and VGCC. Mean data for each of four parameters measured from Ca2+ transients elicited by 1 μM 5-HT (5 min) in PA from control SMC-GCaMP3 (light blue bars) or SMC-ANO1-KO-ΔEx12-GCaMP3 (light gray bars) mice. (A–D) The frequency of Ca2+ oscillations (A), peak Ca2+ transient amplitude (F/F0; B), integrated area under the curve (C), and FWHM (D) were measured as shown in the upper right corner. For each dataset, the mean is indicated by a filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells. SMC-GCaMP3 + 5-HT: N = 7, n = 114 for peak, area under the curve, and FWHM, and n = 116 for frequency; SMC-GCaMP3 + 5-HT + CaCCInh-A01 (CaCCInh): N = 7, n = 15 for peak, area under the curve, and FWHM, and n = 76 for frequency; SMC-GCaMP3 + 5-HT + nifedipine (Nif): N = 2, n = 32 for peak, area under the curve, and FWHM, and n = 47 for frequency; GCaMP3 + 5-HT + CPA: N = 2, n = 29; SMC-ANO1-KO-ΔEx12-GCaMP3; 5-HT: N = 7, n = 39 for peak, area under the curve, and FWHM, and n = 137 for frequency. For all panels, ***, **, and * indicate a significant difference between means with P < 0.001, P < 0.01, and P < 0.05, respectively.

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Functional Assay, Control

    Figure 7. Blocking ANO1 or CaV1.2 depletes SR Ca2+ stores. (A) Typical isometric force re- cording obtained under control conditions showing the effect of depleting the SR Ca2+

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 7. Blocking ANO1 or CaV1.2 depletes SR Ca2+ stores. (A) Typical isometric force re- cording obtained under control conditions showing the effect of depleting the SR Ca2+

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Blocking Assay, Control

    Figure 8. ANO1, CaV1.2, and IP3R colocalize in peripheral coupling sites to form signaling complexes. (A and B) Co-IP of CaV1.2 or IP3R with ANO1 from lysates of the pulmonary artery from wild-type mice. Pulldown was carried out with anti-ANO1 antibody and then probed by Western blot with anti-CaV1.2, anti-IP3R, or anti- ANO1 antibodies. Five to six mouse tissues per experiment, each ran in triplicates. (C and D) Freshly isolated PASMCs from wild-type mice were immunolabeled for ANO1 and CaV1.2 (C) or ANO1 and IP3R (D). All three proteins were preferentially localized to the periphery of the cells. (D and F) Line profiles of the areas indi- cated by the white dashed lines in C and E. The fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the loca- tion of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM (D). (E) IP3R shows some intracellular immunolabeling, with moder- ate peaks present at the periphery showing an enhancement of protein localization to periphe- ral coupling sites. Source data are available for this figure: SourceData F8.

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 8. ANO1, CaV1.2, and IP3R colocalize in peripheral coupling sites to form signaling complexes. (A and B) Co-IP of CaV1.2 or IP3R with ANO1 from lysates of the pulmonary artery from wild-type mice. Pulldown was carried out with anti-ANO1 antibody and then probed by Western blot with anti-CaV1.2, anti-IP3R, or anti- ANO1 antibodies. Five to six mouse tissues per experiment, each ran in triplicates. (C and D) Freshly isolated PASMCs from wild-type mice were immunolabeled for ANO1 and CaV1.2 (C) or ANO1 and IP3R (D). All three proteins were preferentially localized to the periphery of the cells. (D and F) Line profiles of the areas indi- cated by the white dashed lines in C and E. The fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the loca- tion of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM (D). (E) IP3R shows some intracellular immunolabeling, with moder- ate peaks present at the periphery showing an enhancement of protein localization to periphe- ral coupling sites. Source data are available for this figure: SourceData F8.

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Co-Immunoprecipitation Assay, Western Blot, Isolation, Immunolabeling, Fluorescence

    Figure 9. Superresolution imaging of ANO1, CaV1.2, and IP3R at the PM of PASMCs from wild-type mice. (A and B) Superresolution images of PASMCs labeled for ANO1 and CaV1.2 (A) or ANO1 and IP3R (B) were imaged using GSDIM in epifluorescence mode. Epifluorescence images are shown in the inset for

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 9. Superresolution imaging of ANO1, CaV1.2, and IP3R at the PM of PASMCs from wild-type mice. (A and B) Superresolution images of PASMCs labeled for ANO1 and CaV1.2 (A) or ANO1 and IP3R (B) were imaged using GSDIM in epifluorescence mode. Epifluorescence images are shown in the inset for

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Imaging, Labeling

    Figure 10. Membrane cholesterol depletion with MβCD causes the internalization of ANO1 and CaV1.2 proteins. (A and C) Freshly isolated PASMCs from wild-type mice were im- munolabeled for ANO1 and CaV1.2 before (A) or after (C) a 30-min exposure to MβCD (3 mg/ml; MβCD) to deplete membrane cholesterol and disrupt lipid rafts. The two ion channel proteins were preferentially localized to the periphery of the cells in control conditions as similarly shown in Fig. 8. (B–D) Line profiles of the areas indi- cated by the white dashed lines in A and C are respectively displayed in B and D. For these plots, the fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the location of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM in control condition (C) and translocation toward the cen- ter core of the cell after exposure to MβCD (D). The cells from A and C were isolated from the same mouse. (E and F) Graphs summarizing the effects of exposing PASMCs to MβCD on the distribution of ANO1 (magenta bars) and CaV1.2 (green bars), respectively. Measurements were performed as described in the text and consisted in normalizing membrane fluorescence to total cell fluorescence. For each dataset, the mean is indicated by a large, filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells; for the control group (E): ANO1 and CaV1.2: N = 3, n = 43; for the MβCD group (F): ANO1 and CaV1.2: N = 3, n = 35. *** indicates a significant difference between means with P < 0.001.

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 10. Membrane cholesterol depletion with MβCD causes the internalization of ANO1 and CaV1.2 proteins. (A and C) Freshly isolated PASMCs from wild-type mice were im- munolabeled for ANO1 and CaV1.2 before (A) or after (C) a 30-min exposure to MβCD (3 mg/ml; MβCD) to deplete membrane cholesterol and disrupt lipid rafts. The two ion channel proteins were preferentially localized to the periphery of the cells in control conditions as similarly shown in Fig. 8. (B–D) Line profiles of the areas indi- cated by the white dashed lines in A and C are respectively displayed in B and D. For these plots, the fluorescence intensity was normalized to the minimum and maximum fluorescence for each sample. The black arrowheads denote the location of the PM. ANO1 and CaV1.2 show strong immunolabeling at the PM in control condition (C) and translocation toward the cen- ter core of the cell after exposure to MβCD (D). The cells from A and C were isolated from the same mouse. (E and F) Graphs summarizing the effects of exposing PASMCs to MβCD on the distribution of ANO1 (magenta bars) and CaV1.2 (green bars), respectively. Measurements were performed as described in the text and consisted in normalizing membrane fluorescence to total cell fluorescence. For each dataset, the mean is indicated by a large, filled black square with the colored boxes and whiskers delimiting the 25th and 75th percentile, and the 10th and 90th percentile of the pooled data, respectively, and small dots individual data points. N: number of animals; n: number of cells; for the control group (E): ANO1 and CaV1.2: N = 3, n = 43; for the MβCD group (F): ANO1 and CaV1.2: N = 3, n = 35. *** indicates a significant difference between means with P < 0.001.

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Membrane, Isolation, Control, Fluorescence, Immunolabeling, Translocation Assay

    Figure 12. Hypothetical models of EC coupling involving ANO1, CaV1.2, and IP3R during agonist-mediated contraction of mouse pulmonary ar- terial smooth muscle cells. (A) General uniform model depicting the acti- vation of ANO1 by both Ca2+ release from IP3-sensitive SR Ca2+ stores and Ca2+ entry through CaV1.2. In this model, the three ion transporters are evenly distributed in the membrane and are not physically coupled. The depolari- zation is maintained by the positive feedback loop established by CaV1.2- mediated activation of Cl−efflux through ANO1 and its impact on the state of activation of CaV1.2 through regulation of membrane potential. (B) Schematic diagram illustrating the local interaction of ANO1, CaV1.2 with IP3R and their impact on membrane potential, Ca2+ entry, and contraction. In this model, the three ion channels are physically coupled in a restricted number of sites (Super Cluster) distributed across the long axis of the cell (shown as red boxes in the bottom diagram) and are organized for compartmentalized Ca2+

    Journal: The Journal of general physiology

    Article Title: ANO1, CaV1.2, and IP3R form a localized unit of EC-coupling in mouse pulmonary arterial smooth muscle.

    doi: 10.1085/jgp.202213217

    Figure Lengend Snippet: Figure 12. Hypothetical models of EC coupling involving ANO1, CaV1.2, and IP3R during agonist-mediated contraction of mouse pulmonary ar- terial smooth muscle cells. (A) General uniform model depicting the acti- vation of ANO1 by both Ca2+ release from IP3-sensitive SR Ca2+ stores and Ca2+ entry through CaV1.2. In this model, the three ion transporters are evenly distributed in the membrane and are not physically coupled. The depolari- zation is maintained by the positive feedback loop established by CaV1.2- mediated activation of Cl−efflux through ANO1 and its impact on the state of activation of CaV1.2 through regulation of membrane potential. (B) Schematic diagram illustrating the local interaction of ANO1, CaV1.2 with IP3R and their impact on membrane potential, Ca2+ entry, and contraction. In this model, the three ion channels are physically coupled in a restricted number of sites (Super Cluster) distributed across the long axis of the cell (shown as red boxes in the bottom diagram) and are organized for compartmentalized Ca2+

    Article Snippet: Cells were incubated overnight at 4°C with primary antibodies: rabbit antibody to ANO1 (PA2290, 1:50; Boster Biological), mouse antibody to CaV1.2 (N263/31, 1:100; NeuroMab), or mouse antibody to IP3R (sc-377518, 1:100; Santa Cruz).

    Techniques: Membrane, Activation Assay