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antibodies cd68  (Boster Bio)


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    Boster Bio antibodies cd68
    Immunohistochemical staining for immune cell markers in the epithelial + superficial connective tissue region. Representative immunohistochemical images of the superficial peri-implant soft tissue zone stained for MPO, CD68, CD3, <t>CD20,</t> and CD138. Scale bars: 100 μm. Red dashed boxes and red arrows indicate the magnified regions (insets).
    Antibodies Cd68, supplied by Boster Bio, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/antibodies cd68/product/Boster Bio
    Average 94 stars, based on 1 article reviews
    antibodies cd68 - by Bioz Stars, 2026-05
    94/100 stars

    Images

    1) Product Images from "Immunological Features of Peri-Implant Soft Tissue After Healing Abutment Dislodgement: A Comparative Human Study"

    Article Title: Immunological Features of Peri-Implant Soft Tissue After Healing Abutment Dislodgement: A Comparative Human Study

    Journal: International Dental Journal

    doi: 10.1016/j.identj.2026.109521

    Immunohistochemical staining for immune cell markers in the epithelial + superficial connective tissue region. Representative immunohistochemical images of the superficial peri-implant soft tissue zone stained for MPO, CD68, CD3, CD20, and CD138. Scale bars: 100 μm. Red dashed boxes and red arrows indicate the magnified regions (insets).
    Figure Legend Snippet: Immunohistochemical staining for immune cell markers in the epithelial + superficial connective tissue region. Representative immunohistochemical images of the superficial peri-implant soft tissue zone stained for MPO, CD68, CD3, CD20, and CD138. Scale bars: 100 μm. Red dashed boxes and red arrows indicate the magnified regions (insets).

    Techniques Used: Immunohistochemical staining, Staining



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    Image Search Results


    The cellular uptake and anti-inflammatory effect of HPSL in vitro . (A) Flow cytometry analysis and (B) semi-quantitative analysis of cellular uptake of PSL and blank NPs by M1 macrophages. n = 3. (C) Representative Giemsa staining images of LPS and high glucose-stimulated RAW 264.7 cells with different formulations, scale bar = 50 μm. (D) Immunofluorescence staining and semi-quantitative analysis of CD68 (red) and iNOS (green) in RAW 264.7 cells from different treatment groups, scale bar = 50 μm. n = 6. (E) Immunofluorescence staining and semi-quantitative analysis of CD68 (green) and Arg-1 (red) in RAW 264.7 cells from different treatment groups, scale bar = 50 μm. n = 6. Western blotting analysis and corresponding semi-quantitative analysis of (F) STING/ p -STING, (G) TBK1/ p -TBK1, (H) IRF3/ p -IRF3, (I) NF-κB, (J) TNF-α, and (K) IL-6, Lane 1: Normal group, Lane 2: Model group, Lane 3: PSL group, Lane 4: Free H151 group, Lane 5: HPSL group. n = 3. All data are shown as mean ± SEM.

    Journal: Bioactive Materials

    Article Title: Glucose/ROS-responsive and redox-gated adaptive hydrogel dressing for accelerating diabetic wound repair via synergistic cGAS/STING pathway inhibition and oxidative stress alleviation

    doi: 10.1016/j.bioactmat.2026.03.025

    Figure Lengend Snippet: The cellular uptake and anti-inflammatory effect of HPSL in vitro . (A) Flow cytometry analysis and (B) semi-quantitative analysis of cellular uptake of PSL and blank NPs by M1 macrophages. n = 3. (C) Representative Giemsa staining images of LPS and high glucose-stimulated RAW 264.7 cells with different formulations, scale bar = 50 μm. (D) Immunofluorescence staining and semi-quantitative analysis of CD68 (red) and iNOS (green) in RAW 264.7 cells from different treatment groups, scale bar = 50 μm. n = 6. (E) Immunofluorescence staining and semi-quantitative analysis of CD68 (green) and Arg-1 (red) in RAW 264.7 cells from different treatment groups, scale bar = 50 μm. n = 6. Western blotting analysis and corresponding semi-quantitative analysis of (F) STING/ p -STING, (G) TBK1/ p -TBK1, (H) IRF3/ p -IRF3, (I) NF-κB, (J) TNF-α, and (K) IL-6, Lane 1: Normal group, Lane 2: Model group, Lane 3: PSL group, Lane 4: Free H151 group, Lane 5: HPSL group. n = 3. All data are shown as mean ± SEM.

    Article Snippet: CD68-specific antibodies were purchased from Proteintech Group, Inc. (Wuhan, China).

    Techniques: In Vitro, Flow Cytometry, Staining, Immunofluorescence, Western Blot

    MMP12 silencing inhibited M2 macrophage polarization. THP-1 cells were differentiated into M0 macrophages (THP-1 M0) by treatment with 100 ng/mL PMA for 24 h. (A) Flow cytometry was used to quantify the number of CD68-positive cells. Subsequently, KYSE150 cells were co-cultured with the THP-1-derived macrophages using a Transwell system. (B) The mRNA levels of IL-10, Arg-1, and TGF-β were detected by qRT-PCR. (C) Flow cytometry was used to quantify the number of CD206-positive macrophages. (D) Cell migration analysis by transwell migration assay. ∗ P < 0.05, ∗∗ P < 0.01 and ∗∗∗ P < 0.001.

    Journal: Regenerative Therapy

    Article Title: WTAP stabilizes MMP12 expression to promote the malignant phenotypes of esophageal cancer cells

    doi: 10.1016/j.reth.2026.101101

    Figure Lengend Snippet: MMP12 silencing inhibited M2 macrophage polarization. THP-1 cells were differentiated into M0 macrophages (THP-1 M0) by treatment with 100 ng/mL PMA for 24 h. (A) Flow cytometry was used to quantify the number of CD68-positive cells. Subsequently, KYSE150 cells were co-cultured with the THP-1-derived macrophages using a Transwell system. (B) The mRNA levels of IL-10, Arg-1, and TGF-β were detected by qRT-PCR. (C) Flow cytometry was used to quantify the number of CD206-positive macrophages. (D) Cell migration analysis by transwell migration assay. ∗ P < 0.05, ∗∗ P < 0.01 and ∗∗∗ P < 0.001.

    Article Snippet: For immunophenotyping, single-cell suspensions of both THP-1 and THP-1-M0 cells were labeled with an anti-CD68 antibody (E-AB-F1299L, Elabscience, Wuhan, China).

    Techniques: Flow Cytometry, Cell Culture, Derivative Assay, Quantitative RT-PCR, Migration, Transwell Migration Assay

    Involvement of profibrotic macrophages in vascular regeneration after graft implantation in vivo . (a) UMAP of macrophages in native aortas and regenerated aortas across different time points after graft implantation in vivo . (b) Dot plots of profibrotic macrophage marker genes (Ctsd, Spp1, Gpnmb, Lgals3, and Fabp5) expressed in different subgroups of macrophages. (c) Percentage of cluster 2 (C2) macrophages in native aortas and regenerated aortas across different time points after graft implantation in vivo . (d) UMAP of expression of Ctsd, Spp1, Gpnmb, Lgals3, and Fabp5 in macrophages in native aortas and regenerated aortas across different time points after graft implantation in vivo . (e) Immunofluorescence staining of CD68 and CTSD in regenerated aortas across different time points after graft implantation in vivo . L indicates lumens. Arrow heads indicate double positively stained cells. (f) WB results of levels of CTSD and SPP1 in native and regenerated aortas across different time points after graft implantation in vivo and quantification of the levels of CTSD and SPP1. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each time point and each group, five different samples from five different animals were analyzed (n = 5).

    Journal: Bioactive Materials

    Article Title: Apolipoprotein E knockout attenuates vascular graft fibrosis by reducing profibrotic macrophage formation through low-density lipoprotein receptor related protein 1

    doi: 10.1016/j.bioactmat.2026.01.029

    Figure Lengend Snippet: Involvement of profibrotic macrophages in vascular regeneration after graft implantation in vivo . (a) UMAP of macrophages in native aortas and regenerated aortas across different time points after graft implantation in vivo . (b) Dot plots of profibrotic macrophage marker genes (Ctsd, Spp1, Gpnmb, Lgals3, and Fabp5) expressed in different subgroups of macrophages. (c) Percentage of cluster 2 (C2) macrophages in native aortas and regenerated aortas across different time points after graft implantation in vivo . (d) UMAP of expression of Ctsd, Spp1, Gpnmb, Lgals3, and Fabp5 in macrophages in native aortas and regenerated aortas across different time points after graft implantation in vivo . (e) Immunofluorescence staining of CD68 and CTSD in regenerated aortas across different time points after graft implantation in vivo . L indicates lumens. Arrow heads indicate double positively stained cells. (f) WB results of levels of CTSD and SPP1 in native and regenerated aortas across different time points after graft implantation in vivo and quantification of the levels of CTSD and SPP1. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each time point and each group, five different samples from five different animals were analyzed (n = 5).

    Article Snippet: The following primary antibodies were used in this study: APOE (Invitrogen, PA5-78803, 1:200 dilution), COL I (abcam, ab270993, 1:200 dilution), COL III (abcam, ab6310, 1:200 dilution), LUM (abcam, ab252925, 1:200 dilution), elastin (abcam, ab307150, ab307150, 1:200 dilution), eNOS (abcam, ab5589, 1:200 dilution), αSMA (abcam, ab7817, 1:200 dilution), Fibronectin (FN, abcam, ab268020, 1:200 dilution), CTSD (CST, 74089S, 1:200 dilution), CD68 (BioRad, MCA341GA, 1:100 dilution), LRP1 (Invitrogen, PA5-101013, 1:200 dilution), Ki67 (Servicebio, GB111141 , 1:200 dilution), and IGF1 (Invitrogen, MA5-18035, 1:200 dilution).

    Techniques: In Vivo, Marker, Expressing, Immunofluorescence, Staining

    APOE KO reducing profibrotic macrophage formation during vascular regeneration. (a) UMAP of macrophages in native aortas from WT and Apoe −/− rats, heatmap of C2 scores in the UMAP of macrophages in the native aortas, and percentage of C2 cells in macrophages in the native aortas. UMAP of macrophages in regenerated aortas after graft implantation in WT and Apoe −/− rats, heatmap of C2 scores in the UMAP of macrophages in the regenerated aortas, and percentage of C2 cells in macrophages in the regenerated aortas on Day 30 (b) and Day 90 (c). (d) Immunofluorescence staining of CD68 and CTSD in regenerated aortas 30 and 90 days after graft implantation in WT and Apoe−/− rats. (e) Quantification of CD68 and CTSD double positive cells in regenerated aortas on Day 30 and Day 90. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each time point and each group, five different images from five different samples were analyzed (n = 5). (f) WB results of APOE, CTSD and SPP1 levels in regenerated aortas after graft implantation in WT and Apoe −/− rats for 30 and 90 days. (g) Quantification of levels of APOE, CTSD and SPP1 in regenerated aortas on Day 30 and Day 90. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each time point and each group, five different samples from five different animals were analyzed (n = 5). (h) WB results of APOE, CTSD and SPP1 levels in WT and APOE KO macrophages after their culture on PCL scaffolds for 48 h. (i) Quantification of levels of APOE, CTSD and SPP1 in WT and APOE KO macrophages after their culture on PCL scaffolds for 48 h ∗ indicates p < 0.05, ∗∗ indicates p < 0.01, unpaired t -test. For each time point and each group, three different samples were analyzed (n = 3). (j) Immunofluorescence staining of APOE and CD68, CTSD and CD68, SPP1 and CD68, respectively, in WT and APOE KO macrophages after their culture on PCL scaffolds for 48 h.

    Journal: Bioactive Materials

    Article Title: Apolipoprotein E knockout attenuates vascular graft fibrosis by reducing profibrotic macrophage formation through low-density lipoprotein receptor related protein 1

    doi: 10.1016/j.bioactmat.2026.01.029

    Figure Lengend Snippet: APOE KO reducing profibrotic macrophage formation during vascular regeneration. (a) UMAP of macrophages in native aortas from WT and Apoe −/− rats, heatmap of C2 scores in the UMAP of macrophages in the native aortas, and percentage of C2 cells in macrophages in the native aortas. UMAP of macrophages in regenerated aortas after graft implantation in WT and Apoe −/− rats, heatmap of C2 scores in the UMAP of macrophages in the regenerated aortas, and percentage of C2 cells in macrophages in the regenerated aortas on Day 30 (b) and Day 90 (c). (d) Immunofluorescence staining of CD68 and CTSD in regenerated aortas 30 and 90 days after graft implantation in WT and Apoe−/− rats. (e) Quantification of CD68 and CTSD double positive cells in regenerated aortas on Day 30 and Day 90. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each time point and each group, five different images from five different samples were analyzed (n = 5). (f) WB results of APOE, CTSD and SPP1 levels in regenerated aortas after graft implantation in WT and Apoe −/− rats for 30 and 90 days. (g) Quantification of levels of APOE, CTSD and SPP1 in regenerated aortas on Day 30 and Day 90. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each time point and each group, five different samples from five different animals were analyzed (n = 5). (h) WB results of APOE, CTSD and SPP1 levels in WT and APOE KO macrophages after their culture on PCL scaffolds for 48 h. (i) Quantification of levels of APOE, CTSD and SPP1 in WT and APOE KO macrophages after their culture on PCL scaffolds for 48 h ∗ indicates p < 0.05, ∗∗ indicates p < 0.01, unpaired t -test. For each time point and each group, three different samples were analyzed (n = 3). (j) Immunofluorescence staining of APOE and CD68, CTSD and CD68, SPP1 and CD68, respectively, in WT and APOE KO macrophages after their culture on PCL scaffolds for 48 h.

    Article Snippet: The following primary antibodies were used in this study: APOE (Invitrogen, PA5-78803, 1:200 dilution), COL I (abcam, ab270993, 1:200 dilution), COL III (abcam, ab6310, 1:200 dilution), LUM (abcam, ab252925, 1:200 dilution), elastin (abcam, ab307150, ab307150, 1:200 dilution), eNOS (abcam, ab5589, 1:200 dilution), αSMA (abcam, ab7817, 1:200 dilution), Fibronectin (FN, abcam, ab268020, 1:200 dilution), CTSD (CST, 74089S, 1:200 dilution), CD68 (BioRad, MCA341GA, 1:100 dilution), LRP1 (Invitrogen, PA5-101013, 1:200 dilution), Ki67 (Servicebio, GB111141 , 1:200 dilution), and IGF1 (Invitrogen, MA5-18035, 1:200 dilution).

    Techniques: Immunofluorescence, Staining

    APOE/LRP1 interaction promoting profibrotic macrophage formation during vascular regeneration after graft implantation in vivo . (a) Immunoprecipitation (IP) following mass spectrometry (MS) to screen potential receptors of APOE on surfaces of macrophages. (b) Co-immunoprecipitation (Co-IP) to confirm interaction between APOE and LRP1. (c) Immunofluorescence staining of CD68 and LRP1 in regenerated aortas across different time points. (d) Immunofluorescence staining of APOE and LRP1 in WT macrophages 48 h after their culture on PCL scaffolds. (e) WB results of LRP1, APOE, CTSD and SPP1 levels in WT macrophages cultured on tissue culture plates (negative control, NC) or PCL scaffolds (PCL) for 48 h prior to treatment with shRNA ADV-shRNA(NC) or ADV-shRNA(Lrp1) for 24 h. Quantification of levels of LRP1 (f), APOE (g), CTSD (h) and SPP1 (i) in WT macrophages cultured on tissue culture plates or PCL scaffolds treated with shRNA ADV-shRNA(NC) or ADV-shRNA(Lrp1). ∗ indicates p < 0.05, ∗∗ indicates p < 0.01, N.S. indicates non-significant. Tukey's post-hoc test. For each group, three different samples were analyzed (n = 3). (j) Flow cytometry analysis of CTSD positive cells in WT macrophages cultured on tissue culture plates (negative control, NC) or PCL scaffolds (PCL) for 48 h prior to treatment with ADV-shRNA(NC) or ADV-shRNA(Lrp1) for 24 h and quantification of percentage of CTSD positive cells in WT macrophages in each group. ∗ indicates p < 0.05, Tukey's post-hoc test. For each group, three independent experiments were repeated, and results were analyzed (n = 3).

    Journal: Bioactive Materials

    Article Title: Apolipoprotein E knockout attenuates vascular graft fibrosis by reducing profibrotic macrophage formation through low-density lipoprotein receptor related protein 1

    doi: 10.1016/j.bioactmat.2026.01.029

    Figure Lengend Snippet: APOE/LRP1 interaction promoting profibrotic macrophage formation during vascular regeneration after graft implantation in vivo . (a) Immunoprecipitation (IP) following mass spectrometry (MS) to screen potential receptors of APOE on surfaces of macrophages. (b) Co-immunoprecipitation (Co-IP) to confirm interaction between APOE and LRP1. (c) Immunofluorescence staining of CD68 and LRP1 in regenerated aortas across different time points. (d) Immunofluorescence staining of APOE and LRP1 in WT macrophages 48 h after their culture on PCL scaffolds. (e) WB results of LRP1, APOE, CTSD and SPP1 levels in WT macrophages cultured on tissue culture plates (negative control, NC) or PCL scaffolds (PCL) for 48 h prior to treatment with shRNA ADV-shRNA(NC) or ADV-shRNA(Lrp1) for 24 h. Quantification of levels of LRP1 (f), APOE (g), CTSD (h) and SPP1 (i) in WT macrophages cultured on tissue culture plates or PCL scaffolds treated with shRNA ADV-shRNA(NC) or ADV-shRNA(Lrp1). ∗ indicates p < 0.05, ∗∗ indicates p < 0.01, N.S. indicates non-significant. Tukey's post-hoc test. For each group, three different samples were analyzed (n = 3). (j) Flow cytometry analysis of CTSD positive cells in WT macrophages cultured on tissue culture plates (negative control, NC) or PCL scaffolds (PCL) for 48 h prior to treatment with ADV-shRNA(NC) or ADV-shRNA(Lrp1) for 24 h and quantification of percentage of CTSD positive cells in WT macrophages in each group. ∗ indicates p < 0.05, Tukey's post-hoc test. For each group, three independent experiments were repeated, and results were analyzed (n = 3).

    Article Snippet: The following primary antibodies were used in this study: APOE (Invitrogen, PA5-78803, 1:200 dilution), COL I (abcam, ab270993, 1:200 dilution), COL III (abcam, ab6310, 1:200 dilution), LUM (abcam, ab252925, 1:200 dilution), elastin (abcam, ab307150, ab307150, 1:200 dilution), eNOS (abcam, ab5589, 1:200 dilution), αSMA (abcam, ab7817, 1:200 dilution), Fibronectin (FN, abcam, ab268020, 1:200 dilution), CTSD (CST, 74089S, 1:200 dilution), CD68 (BioRad, MCA341GA, 1:100 dilution), LRP1 (Invitrogen, PA5-101013, 1:200 dilution), Ki67 (Servicebio, GB111141 , 1:200 dilution), and IGF1 (Invitrogen, MA5-18035, 1:200 dilution).

    Techniques: In Vivo, Immunoprecipitation, Mass Spectrometry, Co-Immunoprecipitation Assay, Immunofluorescence, Staining, Cell Culture, Negative Control, shRNA, Flow Cytometry

    Downregulation of APOE by AAV ameliorating fibrosis during vascular regeneration after graft implantation in vivo . (a) Illustration of a strategy of adventitial delivery of AAV-shRNA(Apoe) to inhibit APOE levels in regenerated aortas after graft implantation in vivo . Two weeks after graft implantation in vivo , AAV-shRNA(Apoe) were injected into the adventitia of the regenerated aortas, which were then harvested for analysis three weeks later. (b) M mode images of ultrasound detection of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. Arrow heads indicate movement of vascular walls. (c) Tensile tests of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. (d) Quantification of RI, PI, and compliance of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different images from six different animals were analyzed (n = 6). (e) Quantification of elastic modulus of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different images from six different animals were analyzed (n = 6). (f) H&E, MTC and EVG staining of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. (g) Immunofluorescence staining of COL I, COL III, elastin, αSMA, and eNOS in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. L indicates lumens. Arrow heads indicate capillaries. Quantification of adventitia thickness (h), collagen positive areas according to MTC staining (i), elastin positive areas according to EVG staining (j), COL I positive areas (k), COL III positive areas (l), and number of capillaries (m) in adventitial areas of regenerated aortas. (n) Immunofluorescence staining of CTSD and CD68 in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. (o) CD68 and CTSD double positive cells in regenerated aortas. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different samples from six different animals were analyzed (n = 6). (p) WB results of APOE, CTSD and SPP1 levels in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks and quantification of levels of APOE, CTSD and SPP1 in regenerated aortas. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different samples from six different animals were analyzed (n = 6). (q) Quantification of IGF-1 concentrations in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks by ELISA. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different samples from six different animals were analyzed (n = 3).

    Journal: Bioactive Materials

    Article Title: Apolipoprotein E knockout attenuates vascular graft fibrosis by reducing profibrotic macrophage formation through low-density lipoprotein receptor related protein 1

    doi: 10.1016/j.bioactmat.2026.01.029

    Figure Lengend Snippet: Downregulation of APOE by AAV ameliorating fibrosis during vascular regeneration after graft implantation in vivo . (a) Illustration of a strategy of adventitial delivery of AAV-shRNA(Apoe) to inhibit APOE levels in regenerated aortas after graft implantation in vivo . Two weeks after graft implantation in vivo , AAV-shRNA(Apoe) were injected into the adventitia of the regenerated aortas, which were then harvested for analysis three weeks later. (b) M mode images of ultrasound detection of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. Arrow heads indicate movement of vascular walls. (c) Tensile tests of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. (d) Quantification of RI, PI, and compliance of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different images from six different animals were analyzed (n = 6). (e) Quantification of elastic modulus of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different images from six different animals were analyzed (n = 6). (f) H&E, MTC and EVG staining of regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. (g) Immunofluorescence staining of COL I, COL III, elastin, αSMA, and eNOS in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. L indicates lumens. Arrow heads indicate capillaries. Quantification of adventitia thickness (h), collagen positive areas according to MTC staining (i), elastin positive areas according to EVG staining (j), COL I positive areas (k), COL III positive areas (l), and number of capillaries (m) in adventitial areas of regenerated aortas. (n) Immunofluorescence staining of CTSD and CD68 in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks. (o) CD68 and CTSD double positive cells in regenerated aortas. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different samples from six different animals were analyzed (n = 6). (p) WB results of APOE, CTSD and SPP1 levels in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks and quantification of levels of APOE, CTSD and SPP1 in regenerated aortas. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different samples from six different animals were analyzed (n = 6). (q) Quantification of IGF-1 concentrations in regenerated aortas treated with PBS, AAV-shRNA(NC), and AAV-shRNA(Apoe) for 3 weeks by ELISA. ∗∗ indicates p < 0.01, Tukey's post-hoc test. For each group, six different samples from six different animals were analyzed (n = 3).

    Article Snippet: The following primary antibodies were used in this study: APOE (Invitrogen, PA5-78803, 1:200 dilution), COL I (abcam, ab270993, 1:200 dilution), COL III (abcam, ab6310, 1:200 dilution), LUM (abcam, ab252925, 1:200 dilution), elastin (abcam, ab307150, ab307150, 1:200 dilution), eNOS (abcam, ab5589, 1:200 dilution), αSMA (abcam, ab7817, 1:200 dilution), Fibronectin (FN, abcam, ab268020, 1:200 dilution), CTSD (CST, 74089S, 1:200 dilution), CD68 (BioRad, MCA341GA, 1:100 dilution), LRP1 (Invitrogen, PA5-101013, 1:200 dilution), Ki67 (Servicebio, GB111141 , 1:200 dilution), and IGF1 (Invitrogen, MA5-18035, 1:200 dilution).

    Techniques: In Vivo, shRNA, Injection, Staining, Immunofluorescence, Enzyme-linked Immunosorbent Assay

    Immunohistochemical staining for immune cell markers in the epithelial + superficial connective tissue region. Representative immunohistochemical images of the superficial peri-implant soft tissue zone stained for MPO, CD68, CD3, CD20, and CD138. Scale bars: 100 μm. Red dashed boxes and red arrows indicate the magnified regions (insets).

    Journal: International Dental Journal

    Article Title: Immunological Features of Peri-Implant Soft Tissue After Healing Abutment Dislodgement: A Comparative Human Study

    doi: 10.1016/j.identj.2026.109521

    Figure Lengend Snippet: Immunohistochemical staining for immune cell markers in the epithelial + superficial connective tissue region. Representative immunohistochemical images of the superficial peri-implant soft tissue zone stained for MPO, CD68, CD3, CD20, and CD138. Scale bars: 100 μm. Red dashed boxes and red arrows indicate the magnified regions (insets).

    Article Snippet: Sections were then incubated overnight at 4 °C with primary antibodies (MPO, CD68, CD3, CD20 and CD138, all purchased from Boster, China; dilution 1:400).

    Techniques: Immunohistochemical staining, Staining