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neuronal like cell line pc  (ATCC)


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    ATCC neuronal like cell line pc
    Effects of donepezil control solution, donepezil-loaded polymeric NPs, and donepezil-loaded DPPC-based liposomes treatment on ECV-304 <t>and</t> <t>PC-12</t> cells. Cells were treated with increasing concentrations (3.125–50 µg mL −1 ) of each formulation in a time-dependent manner. All formulations maintained cell viability above 80% at concentrations up to 50 µg mL −1 in both cell lines, indicating acceptable biocompatibility. A Two-way ANOVA followed by Tukey's test was applied at each time point independently to compare the effect of different formulations across different concentrations within each cell line. **Significant with respect to the control ( p < 0.01), as shown by two-way ANOVA. The data is reported as mean ± SEM ( n = 3).
    Neuronal Like Cell Line Pc, supplied by ATCC, used in various techniques. Bioz Stars score: 98/100, based on 4324 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/neuronal like cell line pc/product/ATCC
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    1) Product Images from "Comparative evaluation of donepezil-loaded polymeric and liposomal nanoparticles for Alzheimer's disease: biocompatibility, drug release kinetics, and cellular uptake study"

    Article Title: Comparative evaluation of donepezil-loaded polymeric and liposomal nanoparticles for Alzheimer's disease: biocompatibility, drug release kinetics, and cellular uptake study

    Journal: RSC Advances

    doi: 10.1039/d6ra00929h

    Effects of donepezil control solution, donepezil-loaded polymeric NPs, and donepezil-loaded DPPC-based liposomes treatment on ECV-304 and PC-12 cells. Cells were treated with increasing concentrations (3.125–50 µg mL −1 ) of each formulation in a time-dependent manner. All formulations maintained cell viability above 80% at concentrations up to 50 µg mL −1 in both cell lines, indicating acceptable biocompatibility. A Two-way ANOVA followed by Tukey's test was applied at each time point independently to compare the effect of different formulations across different concentrations within each cell line. **Significant with respect to the control ( p < 0.01), as shown by two-way ANOVA. The data is reported as mean ± SEM ( n = 3).
    Figure Legend Snippet: Effects of donepezil control solution, donepezil-loaded polymeric NPs, and donepezil-loaded DPPC-based liposomes treatment on ECV-304 and PC-12 cells. Cells were treated with increasing concentrations (3.125–50 µg mL −1 ) of each formulation in a time-dependent manner. All formulations maintained cell viability above 80% at concentrations up to 50 µg mL −1 in both cell lines, indicating acceptable biocompatibility. A Two-way ANOVA followed by Tukey's test was applied at each time point independently to compare the effect of different formulations across different concentrations within each cell line. **Significant with respect to the control ( p < 0.01), as shown by two-way ANOVA. The data is reported as mean ± SEM ( n = 3).

    Techniques Used: Control, Liposomes, Formulation

    In vitro cellular uptake of Rhodamine labelled DPPC-based liposomes (red) and FITC-labelled PCL/PVA nanoparticles (green) by ECV-304 and PC-12 cells after 24 hours of incubation period. Co-localization of the red fluorescence (liposomes) or green fluorescence (PCL/PVA NPs) in proximity to the blue DAPI-stained nuclei confirms the association of nanoparticles with ECV-304 and PC-12 cells, demonstrating either internalization or surface binding. Fluorescence microscopy was performed at 50× magnification; scale bar = 25 µm (consistent across all images).
    Figure Legend Snippet: In vitro cellular uptake of Rhodamine labelled DPPC-based liposomes (red) and FITC-labelled PCL/PVA nanoparticles (green) by ECV-304 and PC-12 cells after 24 hours of incubation period. Co-localization of the red fluorescence (liposomes) or green fluorescence (PCL/PVA NPs) in proximity to the blue DAPI-stained nuclei confirms the association of nanoparticles with ECV-304 and PC-12 cells, demonstrating either internalization or surface binding. Fluorescence microscopy was performed at 50× magnification; scale bar = 25 µm (consistent across all images).

    Techniques Used: In Vitro, Liposomes, Incubation, Fluorescence, Staining, Binding Assay, Microscopy

    Quantitative analysis of cellular uptake of rhodamine-labelled DPPC-based liposomes and FITC-labelled PCL/PVA NPs along with their respective free dye controls by ECV-304 and PC-12 cell lines. Both formulations showed significantly higher uptake than their respective free dye controls. PCL/PVA nanoparticles exhibited significantly higher uptake than liposomes in ECV-304 cells. Results are expressed as mean ± SD. Statistical significance was determined using a one-way ANOVA followed by Tukey's test to compare liposomes and nanoparticles uptake against their respective controls and denoted as follows: P < 0.05 (*), p < 0.01 (**), p < 0.001 (***), p < 0.0001 (****).
    Figure Legend Snippet: Quantitative analysis of cellular uptake of rhodamine-labelled DPPC-based liposomes and FITC-labelled PCL/PVA NPs along with their respective free dye controls by ECV-304 and PC-12 cell lines. Both formulations showed significantly higher uptake than their respective free dye controls. PCL/PVA nanoparticles exhibited significantly higher uptake than liposomes in ECV-304 cells. Results are expressed as mean ± SD. Statistical significance was determined using a one-way ANOVA followed by Tukey's test to compare liposomes and nanoparticles uptake against their respective controls and denoted as follows: P < 0.05 (*), p < 0.01 (**), p < 0.001 (***), p < 0.0001 (****).

    Techniques Used: Liposomes



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    Effects of donepezil control solution, donepezil-loaded polymeric NPs, and donepezil-loaded DPPC-based liposomes treatment on ECV-304 and PC-12 cells. Cells were treated with increasing concentrations (3.125–50 µg mL −1 ) of each formulation in a time-dependent manner. All formulations maintained cell viability above 80% at concentrations up to 50 µg mL −1 in both cell lines, indicating acceptable biocompatibility. A Two-way ANOVA followed by Tukey's test was applied at each time point independently to compare the effect of different formulations across different concentrations within each cell line. **Significant with respect to the control ( p < 0.01), as shown by two-way ANOVA. The data is reported as mean ± SEM ( n = 3).

    Journal: RSC Advances

    Article Title: Comparative evaluation of donepezil-loaded polymeric and liposomal nanoparticles for Alzheimer's disease: biocompatibility, drug release kinetics, and cellular uptake study

    doi: 10.1039/d6ra00929h

    Figure Lengend Snippet: Effects of donepezil control solution, donepezil-loaded polymeric NPs, and donepezil-loaded DPPC-based liposomes treatment on ECV-304 and PC-12 cells. Cells were treated with increasing concentrations (3.125–50 µg mL −1 ) of each formulation in a time-dependent manner. All formulations maintained cell viability above 80% at concentrations up to 50 µg mL −1 in both cell lines, indicating acceptable biocompatibility. A Two-way ANOVA followed by Tukey's test was applied at each time point independently to compare the effect of different formulations across different concentrations within each cell line. **Significant with respect to the control ( p < 0.01), as shown by two-way ANOVA. The data is reported as mean ± SEM ( n = 3).

    Article Snippet: The human endothelial-like cell line ECV-304 and the immortalized rat-derived neuronal-like cell line PC-12 were purchased from ATCC.

    Techniques: Control, Liposomes, Formulation

    In vitro cellular uptake of Rhodamine labelled DPPC-based liposomes (red) and FITC-labelled PCL/PVA nanoparticles (green) by ECV-304 and PC-12 cells after 24 hours of incubation period. Co-localization of the red fluorescence (liposomes) or green fluorescence (PCL/PVA NPs) in proximity to the blue DAPI-stained nuclei confirms the association of nanoparticles with ECV-304 and PC-12 cells, demonstrating either internalization or surface binding. Fluorescence microscopy was performed at 50× magnification; scale bar = 25 µm (consistent across all images).

    Journal: RSC Advances

    Article Title: Comparative evaluation of donepezil-loaded polymeric and liposomal nanoparticles for Alzheimer's disease: biocompatibility, drug release kinetics, and cellular uptake study

    doi: 10.1039/d6ra00929h

    Figure Lengend Snippet: In vitro cellular uptake of Rhodamine labelled DPPC-based liposomes (red) and FITC-labelled PCL/PVA nanoparticles (green) by ECV-304 and PC-12 cells after 24 hours of incubation period. Co-localization of the red fluorescence (liposomes) or green fluorescence (PCL/PVA NPs) in proximity to the blue DAPI-stained nuclei confirms the association of nanoparticles with ECV-304 and PC-12 cells, demonstrating either internalization or surface binding. Fluorescence microscopy was performed at 50× magnification; scale bar = 25 µm (consistent across all images).

    Article Snippet: The human endothelial-like cell line ECV-304 and the immortalized rat-derived neuronal-like cell line PC-12 were purchased from ATCC.

    Techniques: In Vitro, Liposomes, Incubation, Fluorescence, Staining, Binding Assay, Microscopy

    Quantitative analysis of cellular uptake of rhodamine-labelled DPPC-based liposomes and FITC-labelled PCL/PVA NPs along with their respective free dye controls by ECV-304 and PC-12 cell lines. Both formulations showed significantly higher uptake than their respective free dye controls. PCL/PVA nanoparticles exhibited significantly higher uptake than liposomes in ECV-304 cells. Results are expressed as mean ± SD. Statistical significance was determined using a one-way ANOVA followed by Tukey's test to compare liposomes and nanoparticles uptake against their respective controls and denoted as follows: P < 0.05 (*), p < 0.01 (**), p < 0.001 (***), p < 0.0001 (****).

    Journal: RSC Advances

    Article Title: Comparative evaluation of donepezil-loaded polymeric and liposomal nanoparticles for Alzheimer's disease: biocompatibility, drug release kinetics, and cellular uptake study

    doi: 10.1039/d6ra00929h

    Figure Lengend Snippet: Quantitative analysis of cellular uptake of rhodamine-labelled DPPC-based liposomes and FITC-labelled PCL/PVA NPs along with their respective free dye controls by ECV-304 and PC-12 cell lines. Both formulations showed significantly higher uptake than their respective free dye controls. PCL/PVA nanoparticles exhibited significantly higher uptake than liposomes in ECV-304 cells. Results are expressed as mean ± SD. Statistical significance was determined using a one-way ANOVA followed by Tukey's test to compare liposomes and nanoparticles uptake against their respective controls and denoted as follows: P < 0.05 (*), p < 0.01 (**), p < 0.001 (***), p < 0.0001 (****).

    Article Snippet: The human endothelial-like cell line ECV-304 and the immortalized rat-derived neuronal-like cell line PC-12 were purchased from ATCC.

    Techniques: Liposomes

    Metformin protects neuronal cells against Cd-induced apoptosis. Experimental timelines were tailored to specific assays: PC12 cells and primary neurons were pre-incubated with metformin (0–1.5 mM) for 24 h, followed by exposure to Cd (10 μM) for 4 h (for immunoblotting) or 24 h (for cell viability and apoptosis assays). ( A ) Cell viability was measured by MTS assay and expressed as a percentage relative to untreated controls. ( B ) Representative fluorescence micrographs illustrated apoptosis via DAPI staining (nuclear condensation/fragmentation, indicated by arrows, upper panels) and TUNEL (DNA strand breaks, green, lower panels). Scale bar: 20 μm. ( C , D ) Quantification of DAPI-positive apoptotic nuclei and TUNEL-positive cells from experiments shown in ( B ). ( E ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( F ) Densitometric analysis of cleaved caspase-3 and cleaved PARP bands normalized to β-tubulin was performed using NIH Image J software. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group.

    Journal: Cells

    Article Title: Metformin Alleviates Cadmium-Induced Autophagic Flux Impairment-Dependent Apoptosis by Activating AMPK in Neuronal Cells

    doi: 10.3390/cells15080739

    Figure Lengend Snippet: Metformin protects neuronal cells against Cd-induced apoptosis. Experimental timelines were tailored to specific assays: PC12 cells and primary neurons were pre-incubated with metformin (0–1.5 mM) for 24 h, followed by exposure to Cd (10 μM) for 4 h (for immunoblotting) or 24 h (for cell viability and apoptosis assays). ( A ) Cell viability was measured by MTS assay and expressed as a percentage relative to untreated controls. ( B ) Representative fluorescence micrographs illustrated apoptosis via DAPI staining (nuclear condensation/fragmentation, indicated by arrows, upper panels) and TUNEL (DNA strand breaks, green, lower panels). Scale bar: 20 μm. ( C , D ) Quantification of DAPI-positive apoptotic nuclei and TUNEL-positive cells from experiments shown in ( B ). ( E ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( F ) Densitometric analysis of cleaved caspase-3 and cleaved PARP bands normalized to β-tubulin was performed using NIH Image J software. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group.

    Article Snippet: The rat pheochromocytoma (PC12) cell line, a widely utilized neuronal model, was obtained from the American Type Culture Collection (ATCC, Manassas, VA, USA).

    Techniques: Incubation, Western Blot, MTS Assay, Fluorescence, Staining, TUNEL Assay, Control, Software

    Metformin mitigates Cd-induced autophagy dysregulation in neuronal cells. PC12 cells and primary neurons, either non-infected or infected with Ad-GFP-LC3, were pre-incubated with metformin (0–1.5 mM) for 24 h, followed by exposure to Cd (10 μM) for 4 h (for Immunoblotting) or 12 h (for MDC staining and GFP-LC3 puncta analysis). ( A , B ) Following MDC labeling to visualize autophagic vacuoles, representative fluorescence micrographs ( A ) and quantitative analysis of MDC-positive vacuole fluorescence intensity ( B ) were presented. Scale bar: 20 μm. ( C , D ) Autophagosome formation was monitored via GFP-LC3 redistribution; representative images ( C ) and quantification of GFP-LC3 puncta per cell ( D ) demonstrated autophagic flux alterations. Scale bar: 2 μm. ( E ) Immunoblot analysis of autophagy-related markers was performed on whole-cell lysates using antibodies against ATG5, LC3, and p62, with β-tubulin serving as the loading control. Blots were representative of five independent experiments. ( F ) Densitometric quantification of ATG5, LC3-II, and p62 levels normalized to β-tubulin was performed using NIH Image J software. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group.

    Journal: Cells

    Article Title: Metformin Alleviates Cadmium-Induced Autophagic Flux Impairment-Dependent Apoptosis by Activating AMPK in Neuronal Cells

    doi: 10.3390/cells15080739

    Figure Lengend Snippet: Metformin mitigates Cd-induced autophagy dysregulation in neuronal cells. PC12 cells and primary neurons, either non-infected or infected with Ad-GFP-LC3, were pre-incubated with metformin (0–1.5 mM) for 24 h, followed by exposure to Cd (10 μM) for 4 h (for Immunoblotting) or 12 h (for MDC staining and GFP-LC3 puncta analysis). ( A , B ) Following MDC labeling to visualize autophagic vacuoles, representative fluorescence micrographs ( A ) and quantitative analysis of MDC-positive vacuole fluorescence intensity ( B ) were presented. Scale bar: 20 μm. ( C , D ) Autophagosome formation was monitored via GFP-LC3 redistribution; representative images ( C ) and quantification of GFP-LC3 puncta per cell ( D ) demonstrated autophagic flux alterations. Scale bar: 2 μm. ( E ) Immunoblot analysis of autophagy-related markers was performed on whole-cell lysates using antibodies against ATG5, LC3, and p62, with β-tubulin serving as the loading control. Blots were representative of five independent experiments. ( F ) Densitometric quantification of ATG5, LC3-II, and p62 levels normalized to β-tubulin was performed using NIH Image J software. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group.

    Article Snippet: The rat pheochromocytoma (PC12) cell line, a widely utilized neuronal model, was obtained from the American Type Culture Collection (ATCC, Manassas, VA, USA).

    Techniques: Infection, Incubation, Western Blot, Staining, Labeling, Fluorescence, Control, Software

    Downregulation of ATG5 augments metformin’s suppression of Cd-induced autophagosome formation and apoptosis in neuronal cells. PC12 cells were transduced with lentiviral particles encoding shRNA targeting ATG5 or a non-targeting control (GFP shRNA). Following transduction, cells were optionally infected with Ad-GFP-LC3 for subsequent autophagosome visualization, then subjected to metformin pretreatment (1 mM) for 24 h and Cd (10 μM) challenge for 4 h (for immunoblotting), 12 h (for GFP-LC3 puncta analysis), or 24 h (for TUNEL staining). ( A ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( B ) Densitometric quantification of ATG5, LC3-II, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( C ) Representative fluorescence micrographs depicted the distribution of GFP-LC3 puncta (green) in the cells. Scale bar: 20 μm. ( D ) Quantitative analysis of autophagosome abundance, expressed as the number of GFP-LC3 puncta per cell, reflected the net effect of ATG5 knockdown on autophagic vacuole accumulation. ( E ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 ATG5 shRNA group versus GFP shRNA group.

    Journal: Cells

    Article Title: Metformin Alleviates Cadmium-Induced Autophagic Flux Impairment-Dependent Apoptosis by Activating AMPK in Neuronal Cells

    doi: 10.3390/cells15080739

    Figure Lengend Snippet: Downregulation of ATG5 augments metformin’s suppression of Cd-induced autophagosome formation and apoptosis in neuronal cells. PC12 cells were transduced with lentiviral particles encoding shRNA targeting ATG5 or a non-targeting control (GFP shRNA). Following transduction, cells were optionally infected with Ad-GFP-LC3 for subsequent autophagosome visualization, then subjected to metformin pretreatment (1 mM) for 24 h and Cd (10 μM) challenge for 4 h (for immunoblotting), 12 h (for GFP-LC3 puncta analysis), or 24 h (for TUNEL staining). ( A ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( B ) Densitometric quantification of ATG5, LC3-II, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( C ) Representative fluorescence micrographs depicted the distribution of GFP-LC3 puncta (green) in the cells. Scale bar: 20 μm. ( D ) Quantitative analysis of autophagosome abundance, expressed as the number of GFP-LC3 puncta per cell, reflected the net effect of ATG5 knockdown on autophagic vacuole accumulation. ( E ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 ATG5 shRNA group versus GFP shRNA group.

    Article Snippet: The rat pheochromocytoma (PC12) cell line, a widely utilized neuronal model, was obtained from the American Type Culture Collection (ATCC, Manassas, VA, USA).

    Techniques: Transduction, shRNA, Control, Infection, Western Blot, TUNEL Assay, Staining, Software, Fluorescence, Knockdown

    Metformin alleviates Cd-triggered autophagic flux impairment and attenuates apoptosis resulting from autophagosome accumulation in neuronal cells. PC12 cells and primary neurons, either infected with Ad-GFP-LC3 or left uninfected, were pre-incubated with/without CQ (25 μM) for 1 h, followed by metformin (1 mM) pretreatment for 24 h, and subsequently exposed in the presence or absence of Cd (10 μM) for specified durations—4 h for immunoblot analysis, 12 h for evaluation of GFP-LC3 puncta, or 24 h for detection of DNA fragmentation via TUNEL staining. ( A ) Immunoblotting of whole-cell extracts using antibodies against ATG5, LC3, p62, cleaved caspase-3, and β-tubulin (loading control). Blots were representative of five independent experiments. ( B ) Densitometric quantification of ATG5, LC3-II, p62, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( C ) Quantitative analysis of autophagosome abundance was expressed as the number of GFP-LC3 puncta per cell. ( D ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 compared to Cd/Metformin or Cd/CQ co-treatment group.

    Journal: Cells

    Article Title: Metformin Alleviates Cadmium-Induced Autophagic Flux Impairment-Dependent Apoptosis by Activating AMPK in Neuronal Cells

    doi: 10.3390/cells15080739

    Figure Lengend Snippet: Metformin alleviates Cd-triggered autophagic flux impairment and attenuates apoptosis resulting from autophagosome accumulation in neuronal cells. PC12 cells and primary neurons, either infected with Ad-GFP-LC3 or left uninfected, were pre-incubated with/without CQ (25 μM) for 1 h, followed by metformin (1 mM) pretreatment for 24 h, and subsequently exposed in the presence or absence of Cd (10 μM) for specified durations—4 h for immunoblot analysis, 12 h for evaluation of GFP-LC3 puncta, or 24 h for detection of DNA fragmentation via TUNEL staining. ( A ) Immunoblotting of whole-cell extracts using antibodies against ATG5, LC3, p62, cleaved caspase-3, and β-tubulin (loading control). Blots were representative of five independent experiments. ( B ) Densitometric quantification of ATG5, LC3-II, p62, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( C ) Quantitative analysis of autophagosome abundance was expressed as the number of GFP-LC3 puncta per cell. ( D ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 compared to Cd/Metformin or Cd/CQ co-treatment group.

    Article Snippet: The rat pheochromocytoma (PC12) cell line, a widely utilized neuronal model, was obtained from the American Type Culture Collection (ATCC, Manassas, VA, USA).

    Techniques: Infection, Incubation, Western Blot, TUNEL Assay, Staining, Control, Software

    Metformin sustains autophagic flux and attenuates Cd-elicited apoptosis through reactivation of the AMPK signaling axis. PC12 cells and primary neurons, with/without Ad-GFP-LC3 infection, were pretreated with metformin (0–1.5 mM) for 24 h, or pretreated with AICAR (2 mM, 1 h) followed by metformin (1 mM), then exposed to Cd (10 μM) for 4 h (for Immunoblotting), 12 h (for GFP-LC3 puncta analysis) or 24 h (for TUNEL staining). ( A , C ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( B , D ) Densitometric quantification of p-AMPKα, p-ACC, ATG5, LC3-II, p62, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( E ) Quantitative analysis of autophagosome abundance was expressed as the number of GFP-LC3 puncta per cell. ( F ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 compared to Cd/Metformin or Cd/AICAR co-treatment group.

    Journal: Cells

    Article Title: Metformin Alleviates Cadmium-Induced Autophagic Flux Impairment-Dependent Apoptosis by Activating AMPK in Neuronal Cells

    doi: 10.3390/cells15080739

    Figure Lengend Snippet: Metformin sustains autophagic flux and attenuates Cd-elicited apoptosis through reactivation of the AMPK signaling axis. PC12 cells and primary neurons, with/without Ad-GFP-LC3 infection, were pretreated with metformin (0–1.5 mM) for 24 h, or pretreated with AICAR (2 mM, 1 h) followed by metformin (1 mM), then exposed to Cd (10 μM) for 4 h (for Immunoblotting), 12 h (for GFP-LC3 puncta analysis) or 24 h (for TUNEL staining). ( A , C ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( B , D ) Densitometric quantification of p-AMPKα, p-ACC, ATG5, LC3-II, p62, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( E ) Quantitative analysis of autophagosome abundance was expressed as the number of GFP-LC3 puncta per cell. ( F ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 compared to Cd/Metformin or Cd/AICAR co-treatment group.

    Article Snippet: The rat pheochromocytoma (PC12) cell line, a widely utilized neuronal model, was obtained from the American Type Culture Collection (ATCC, Manassas, VA, USA).

    Techniques: Infection, Western Blot, TUNEL Assay, Staining, Control, Software

    Constitutive AMPKα activation strengthens metformin’s alleviation of Cd-induced autophagic flux impairment-dependent apoptosis in neuronal cells. PC12 cells were engineered to express a constitutively active AMPKα mutant (Ad-AMPKα-ca) or GFP control (Ad-GFP), with/without subsequent Ad-GFP-LC3 or Ad-mCherry-GFP-LC3 infection for autophagic flux visualization. Cells were pretreated with/without metformin (1 mM) for 24 h, followed by exposure to Cd (10 μM) for 4 h (for immunoblotting), 12 h (for GFP-LC3 puncta and mCherry-GFP-LC3 tandem reporter assays), or 24 h (for TUNEL staining). ( A ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( B ) Densitometric quantification of p-AMPKα, p-ACC, ATG5, LC3-II, p62, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( C ) Representative fluorescence micrographs depicted the distribution of GFP-LC3 puncta (green) in the cells. Scale bar: 20 μm. ( D ) Quantitative analysis of autophagosome abundance was expressed as the number of GFP-LC3 puncta per cell. ( E ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. ( F ) Representative images of tandem fluorescent mCherry-GFP-LC3 reporters: GFP signal (green) quenched in acidic lysosomal compartments, while mCherry signal (red) remains stable. Co-localized GFP + /mCherry + -LC3 (yellow in merge) puncta indicate autophagosomes that have not undergone lysosomal fusion. Scale bar: 2 μm. ( G ) Quantitative analysis of autophagic flux status was presented as the mean number of yellow (GFP + /mCherry + -LC3) puncta per cell. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 Ad-AMPKα-ca group versus Ad-GFP group.

    Journal: Cells

    Article Title: Metformin Alleviates Cadmium-Induced Autophagic Flux Impairment-Dependent Apoptosis by Activating AMPK in Neuronal Cells

    doi: 10.3390/cells15080739

    Figure Lengend Snippet: Constitutive AMPKα activation strengthens metformin’s alleviation of Cd-induced autophagic flux impairment-dependent apoptosis in neuronal cells. PC12 cells were engineered to express a constitutively active AMPKα mutant (Ad-AMPKα-ca) or GFP control (Ad-GFP), with/without subsequent Ad-GFP-LC3 or Ad-mCherry-GFP-LC3 infection for autophagic flux visualization. Cells were pretreated with/without metformin (1 mM) for 24 h, followed by exposure to Cd (10 μM) for 4 h (for immunoblotting), 12 h (for GFP-LC3 puncta and mCherry-GFP-LC3 tandem reporter assays), or 24 h (for TUNEL staining). ( A ) Whole-cell extracts were analyzed by immunoblot analysis with the specified antibodies. β-tubulin served as a loading control. Blots were representative of five independent experiments. ( B ) Densitometric quantification of p-AMPKα, p-ACC, ATG5, LC3-II, p62, and cleaved caspase-3 levels normalized to β-tubulin was performed using NIH Image J software. ( C ) Representative fluorescence micrographs depicted the distribution of GFP-LC3 puncta (green) in the cells. Scale bar: 20 μm. ( D ) Quantitative analysis of autophagosome abundance was expressed as the number of GFP-LC3 puncta per cell. ( E ) Quantification of apoptotic cells was shown via TUNEL staining, visualizing nuclear DNA strand breaks. ( F ) Representative images of tandem fluorescent mCherry-GFP-LC3 reporters: GFP signal (green) quenched in acidic lysosomal compartments, while mCherry signal (red) remains stable. Co-localized GFP + /mCherry + -LC3 (yellow in merge) puncta indicate autophagosomes that have not undergone lysosomal fusion. Scale bar: 2 μm. ( G ) Quantitative analysis of autophagic flux status was presented as the mean number of yellow (GFP + /mCherry + -LC3) puncta per cell. Data are expressed as mean ± SEM ( n = 5). a p < 0.05 compared to control group; b p < 0.05 compared to 10 μM Cd alone group. c p < 0.05 Ad-AMPKα-ca group versus Ad-GFP group.

    Article Snippet: The rat pheochromocytoma (PC12) cell line, a widely utilized neuronal model, was obtained from the American Type Culture Collection (ATCC, Manassas, VA, USA).

    Techniques: Activation Assay, Mutagenesis, Control, Infection, Western Blot, TUNEL Assay, Staining, Software, Fluorescence

    ( A and B ) The cross-talk between L- and D-Aβ42 isomers potently suppresses neurotoxicity. While individual stereoisomers are toxic to neuronal PC12 cells (A), coincubation of all-L Aβ42 with its D-isomers in a 1:1 mixture substantially rescues cell viability, with the dD/L and dSdD/L mixtures restoring viability to near-control levels (B). The 95% confidence interval of median inhibitory concentration (IC 50 ): All-L: [17.97, 22.07]; dS: [8.591, 10.47]; dD: [21.00, 27.01]; dSdD: [38.71, 59.87]. Error bars showing the SD ( n = 5, biological replicates). (** P < 0.01 and **** P < 0.0001). ( C to E ) Quantitative proteomics reveals the molecular basis for this rescue. A four-quadrant volcano plot analysis was used to specifically isolate proteins whose expression is uniquely altered by the cross-talk effect, distinguishing them from proteins affected by the individual isomers alone. ( F and G ) Identified GO and KEGG pathways for the up-regulated (F) and down-regulated (G) proteins in STEP or cross-talk group compared with L. EGF, epidermal growth factor; EGFR, epidermal growth factor receptor; GTPases, guanosine triphosphatases. ( H ) A protein-protein interaction (PPI) network for the LD group highlights a core hub of ribosomal proteins, directly implicating the restoration of protein synthesis as a key mechanism underlying the neuroprotective effect of stereochemical cross-talk.

    Journal: Science Advances

    Article Title: Clinically relevant stereochemistry reprograms amyloid proteome for aggregation cross-talk–conferred neuroprotection

    doi: 10.1126/sciadv.aeb2729

    Figure Lengend Snippet: ( A and B ) The cross-talk between L- and D-Aβ42 isomers potently suppresses neurotoxicity. While individual stereoisomers are toxic to neuronal PC12 cells (A), coincubation of all-L Aβ42 with its D-isomers in a 1:1 mixture substantially rescues cell viability, with the dD/L and dSdD/L mixtures restoring viability to near-control levels (B). The 95% confidence interval of median inhibitory concentration (IC 50 ): All-L: [17.97, 22.07]; dS: [8.591, 10.47]; dD: [21.00, 27.01]; dSdD: [38.71, 59.87]. Error bars showing the SD ( n = 5, biological replicates). (** P < 0.01 and **** P < 0.0001). ( C to E ) Quantitative proteomics reveals the molecular basis for this rescue. A four-quadrant volcano plot analysis was used to specifically isolate proteins whose expression is uniquely altered by the cross-talk effect, distinguishing them from proteins affected by the individual isomers alone. ( F and G ) Identified GO and KEGG pathways for the up-regulated (F) and down-regulated (G) proteins in STEP or cross-talk group compared with L. EGF, epidermal growth factor; EGFR, epidermal growth factor receptor; GTPases, guanosine triphosphatases. ( H ) A protein-protein interaction (PPI) network for the LD group highlights a core hub of ribosomal proteins, directly implicating the restoration of protein synthesis as a key mechanism underlying the neuroprotective effect of stereochemical cross-talk.

    Article Snippet: The mouse neuroblastoma N2A cell line and rat adrenal medullary pheochromocytoma PC12 cell line were from the American Type Culture Collection (Manassas, VA).

    Techniques: Control, Concentration Assay, Quantitative Proteomics, Expressing