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recombinant endoglin  (R&D Systems)


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    R&D Systems recombinant endoglin
    Recombinant Endoglin, supplied by R&D Systems, used in various techniques. Bioz Stars score: 94/100, based on 3 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/endoglin/10__3390_slash_biomedicines14030647-67-18-20?v=R%26D+Systems
    Average 94 stars, based on 3 article reviews
    recombinant endoglin - by Bioz Stars, 2026-06
    94/100 stars

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    anti endoglin  (OriGene)
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    OriGene anti endoglin
    (A) , Wild-type (WT) and KI mice HTRZ for either PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were infused with vehicle (0.2% BSA in PBS) or VEGF-A (a total of 3.5μg in 100μl of vehicle) through the carotid artery for 15 days using a mini osmotic pump as in Methods. Left: Brain coronal sections (40μm thick) were prepared and immunostained with anti-Col IV antibodies to visualize brain vessels. Enhanced visualization surfaces were generated using Imaris software from representative confocal images of ipsilateral hemispheres. Scale bar: 50μm. Right: Graph shows total vessel length density in WT and PS1 FAD brains quantified using Imaris 9.9 software as in Methods. (B) , WT and HTRZ for PS1 FAD mutants M146V or I213T mice were injected through the carotid artery for 20 minutes with either vehicle or 100ng of VEGF-A in vehicle prepared as in 1A using a catheter as described in Methods. Brain microvessels (MV) were isolated as in Methods, lysed in Triton X-100 buffer, and subjected to immunoprecipitation (IP) with anti-VEGFR2 antibody or control IgG. Left: IPs were analyzed on Western blots (WBs) <t>using</t> <t>anti-endoglin</t> or anti-VEGFR2 antibodies (upper panel). Input samples are shown in lower panel. β-actin: loading control. Right: Graph shows quantification of endoglin co-IPed with VEGFR2, normalized to IPed VEGFR2. (C) , WT mice were infused for 15 days through the carotid artery with vehicle or VEGF-A in vehicle as in 1A using a mini osmotic pump (as in 1A). For RO injection, mice were treated with vehicle (2% DMSO, 30% PEG 300, 5% Tween-80 in ddH2O) or RO in vehicle (5mg/kg body weight) via five injections in tail vein one injection every three days, with first injection administered 1 hour before osmotic pump implantation. Brain coronal sections (40μm) were prepared and immunostained with anti-Col IV antibodies as in 1A. Left: Representative confocal images of ipsilateral hemispheres are shown prepared as in 1A. Scale bar: 50μm. Right: Graph shows total vessel length density quantified using Imaris software as in 1A. (D) , WT adult mice were treated with either 50μl vehicle as in 1C or 1mg/kg RO in vehicle via carotid artery as in Methods. 15-16 hrs later, 50 μl vehicle prepared as in 1A or 100ng VEGF-A in vehicle was administered via carotid artery for 10-20 minutes using a catheter as in 1B. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. Vinculin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (E) , WT mice and mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were treated with vehicle or VEGF-A via carotid artery for 10-20 minutes using a catheter as in 1D. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. β-actin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (F) , WT pCECs were prepared and treated as in Methods with vehicle (DMSO) or RO (200nM in DMSO) and then stimulated with either vehicle (PBS) or VEGF-A (20ng in PBS) for 15min. Upper: Cells were co-immunostained with either anti-VEGFR2 antibodies (green) or early endosome marker Rab5 (red) and cell nuclei were stained with Hoechst (blue) as in Methods. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in RO-treated WT cells compared to vehicle-treated cells measured with Imaris software. (G) , pCECs from either WT or mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T), were stimulated with vehicle or VEGF-A in vehicle as in 1F. Upper: Cells were co-stained with anti-VEGFR2 antibodies and early endosome marker Rab5 as in 1F. Cell nuclei were stained with Hoechst (blue) as in 1F. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in PS1 FAD WT/M146V or WT/I213T HTRZ mice compared to WT measured with Imaris software. For Figs A-G, data are shown as Mean ± S.E. from at least three independent experiments or as indicated in the dot plots. Statistical analysis was performed using two-way ANOVA followed by Tukey post-hoc test. ns = not significant, *p<0.05, **p<0.01, ***p<0.001.
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    cd105  (Boster Bio)
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    Boster Bio cd105
    (A) , Wild-type (WT) and KI mice HTRZ for either PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were infused with vehicle (0.2% BSA in PBS) or VEGF-A (a total of 3.5μg in 100μl of vehicle) through the carotid artery for 15 days using a mini osmotic pump as in Methods. Left: Brain coronal sections (40μm thick) were prepared and immunostained with anti-Col IV antibodies to visualize brain vessels. Enhanced visualization surfaces were generated using Imaris software from representative confocal images of ipsilateral hemispheres. Scale bar: 50μm. Right: Graph shows total vessel length density in WT and PS1 FAD brains quantified using Imaris 9.9 software as in Methods. (B) , WT and HTRZ for PS1 FAD mutants M146V or I213T mice were injected through the carotid artery for 20 minutes with either vehicle or 100ng of VEGF-A in vehicle prepared as in 1A using a catheter as described in Methods. Brain microvessels (MV) were isolated as in Methods, lysed in Triton X-100 buffer, and subjected to immunoprecipitation (IP) with anti-VEGFR2 antibody or control IgG. Left: IPs were analyzed on Western blots (WBs) <t>using</t> <t>anti-endoglin</t> or anti-VEGFR2 antibodies (upper panel). Input samples are shown in lower panel. β-actin: loading control. Right: Graph shows quantification of endoglin co-IPed with VEGFR2, normalized to IPed VEGFR2. (C) , WT mice were infused for 15 days through the carotid artery with vehicle or VEGF-A in vehicle as in 1A using a mini osmotic pump (as in 1A). For RO injection, mice were treated with vehicle (2% DMSO, 30% PEG 300, 5% Tween-80 in ddH2O) or RO in vehicle (5mg/kg body weight) via five injections in tail vein one injection every three days, with first injection administered 1 hour before osmotic pump implantation. Brain coronal sections (40μm) were prepared and immunostained with anti-Col IV antibodies as in 1A. Left: Representative confocal images of ipsilateral hemispheres are shown prepared as in 1A. Scale bar: 50μm. Right: Graph shows total vessel length density quantified using Imaris software as in 1A. (D) , WT adult mice were treated with either 50μl vehicle as in 1C or 1mg/kg RO in vehicle via carotid artery as in Methods. 15-16 hrs later, 50 μl vehicle prepared as in 1A or 100ng VEGF-A in vehicle was administered via carotid artery for 10-20 minutes using a catheter as in 1B. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. Vinculin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (E) , WT mice and mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were treated with vehicle or VEGF-A via carotid artery for 10-20 minutes using a catheter as in 1D. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. β-actin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (F) , WT pCECs were prepared and treated as in Methods with vehicle (DMSO) or RO (200nM in DMSO) and then stimulated with either vehicle (PBS) or VEGF-A (20ng in PBS) for 15min. Upper: Cells were co-immunostained with either anti-VEGFR2 antibodies (green) or early endosome marker Rab5 (red) and cell nuclei were stained with Hoechst (blue) as in Methods. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in RO-treated WT cells compared to vehicle-treated cells measured with Imaris software. (G) , pCECs from either WT or mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T), were stimulated with vehicle or VEGF-A in vehicle as in 1F. Upper: Cells were co-stained with anti-VEGFR2 antibodies and early endosome marker Rab5 as in 1F. Cell nuclei were stained with Hoechst (blue) as in 1F. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in PS1 FAD WT/M146V or WT/I213T HTRZ mice compared to WT measured with Imaris software. For Figs A-G, data are shown as Mean ± S.E. from at least three independent experiments or as indicated in the dot plots. Statistical analysis was performed using two-way ANOVA followed by Tukey post-hoc test. ns = not significant, *p<0.05, **p<0.01, ***p<0.001.
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    (A) , Wild-type (WT) and KI mice HTRZ for either PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were infused with vehicle (0.2% BSA in PBS) or VEGF-A (a total of 3.5μg in 100μl of vehicle) through the carotid artery for 15 days using a mini osmotic pump as in Methods. Left: Brain coronal sections (40μm thick) were prepared and immunostained with anti-Col IV antibodies to visualize brain vessels. Enhanced visualization surfaces were generated using Imaris software from representative confocal images of ipsilateral hemispheres. Scale bar: 50μm. Right: Graph shows total vessel length density in WT and PS1 FAD brains quantified using Imaris 9.9 software as in Methods. (B) , WT and HTRZ for PS1 FAD mutants M146V or I213T mice were injected through the carotid artery for 20 minutes with either vehicle or 100ng of VEGF-A in vehicle prepared as in 1A using a catheter as described in Methods. Brain microvessels (MV) were isolated as in Methods, lysed in Triton X-100 buffer, and subjected to immunoprecipitation (IP) with anti-VEGFR2 antibody or control IgG. Left: IPs were analyzed on Western blots (WBs) <t>using</t> <t>anti-endoglin</t> or anti-VEGFR2 antibodies (upper panel). Input samples are shown in lower panel. β-actin: loading control. Right: Graph shows quantification of endoglin co-IPed with VEGFR2, normalized to IPed VEGFR2. (C) , WT mice were infused for 15 days through the carotid artery with vehicle or VEGF-A in vehicle as in 1A using a mini osmotic pump (as in 1A). For RO injection, mice were treated with vehicle (2% DMSO, 30% PEG 300, 5% Tween-80 in ddH2O) or RO in vehicle (5mg/kg body weight) via five injections in tail vein one injection every three days, with first injection administered 1 hour before osmotic pump implantation. Brain coronal sections (40μm) were prepared and immunostained with anti-Col IV antibodies as in 1A. Left: Representative confocal images of ipsilateral hemispheres are shown prepared as in 1A. Scale bar: 50μm. Right: Graph shows total vessel length density quantified using Imaris software as in 1A. (D) , WT adult mice were treated with either 50μl vehicle as in 1C or 1mg/kg RO in vehicle via carotid artery as in Methods. 15-16 hrs later, 50 μl vehicle prepared as in 1A or 100ng VEGF-A in vehicle was administered via carotid artery for 10-20 minutes using a catheter as in 1B. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. Vinculin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (E) , WT mice and mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were treated with vehicle or VEGF-A via carotid artery for 10-20 minutes using a catheter as in 1D. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. β-actin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (F) , WT pCECs were prepared and treated as in Methods with vehicle (DMSO) or RO (200nM in DMSO) and then stimulated with either vehicle (PBS) or VEGF-A (20ng in PBS) for 15min. Upper: Cells were co-immunostained with either anti-VEGFR2 antibodies (green) or early endosome marker Rab5 (red) and cell nuclei were stained with Hoechst (blue) as in Methods. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in RO-treated WT cells compared to vehicle-treated cells measured with Imaris software. (G) , pCECs from either WT or mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T), were stimulated with vehicle or VEGF-A in vehicle as in 1F. Upper: Cells were co-stained with anti-VEGFR2 antibodies and early endosome marker Rab5 as in 1F. Cell nuclei were stained with Hoechst (blue) as in 1F. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in PS1 FAD WT/M146V or WT/I213T HTRZ mice compared to WT measured with Imaris software. For Figs A-G, data are shown as Mean ± S.E. from at least three independent experiments or as indicated in the dot plots. Statistical analysis was performed using two-way ANOVA followed by Tukey post-hoc test. ns = not significant, *p<0.05, **p<0.01, ***p<0.001.
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    (A) , Wild-type (WT) and KI mice HTRZ for either PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were infused with vehicle (0.2% BSA in PBS) or VEGF-A (a total of 3.5μg in 100μl of vehicle) through the carotid artery for 15 days using a mini osmotic pump as in Methods. Left: Brain coronal sections (40μm thick) were prepared and immunostained with anti-Col IV antibodies to visualize brain vessels. Enhanced visualization surfaces were generated using Imaris software from representative confocal images of ipsilateral hemispheres. Scale bar: 50μm. Right: Graph shows total vessel length density in WT and PS1 FAD brains quantified using Imaris 9.9 software as in Methods. (B) , WT and HTRZ for PS1 FAD mutants M146V or I213T mice were injected through the carotid artery for 20 minutes with either vehicle or 100ng of VEGF-A in vehicle prepared as in 1A using a catheter as described in Methods. Brain microvessels (MV) were isolated as in Methods, lysed in Triton X-100 buffer, and subjected to immunoprecipitation (IP) with anti-VEGFR2 antibody or control IgG. Left: IPs were analyzed on Western blots (WBs) <t>using</t> <t>anti-endoglin</t> or anti-VEGFR2 antibodies (upper panel). Input samples are shown in lower panel. β-actin: loading control. Right: Graph shows quantification of endoglin co-IPed with VEGFR2, normalized to IPed VEGFR2. (C) , WT mice were infused for 15 days through the carotid artery with vehicle or VEGF-A in vehicle as in 1A using a mini osmotic pump (as in 1A). For RO injection, mice were treated with vehicle (2% DMSO, 30% PEG 300, 5% Tween-80 in ddH2O) or RO in vehicle (5mg/kg body weight) via five injections in tail vein one injection every three days, with first injection administered 1 hour before osmotic pump implantation. Brain coronal sections (40μm) were prepared and immunostained with anti-Col IV antibodies as in 1A. Left: Representative confocal images of ipsilateral hemispheres are shown prepared as in 1A. Scale bar: 50μm. Right: Graph shows total vessel length density quantified using Imaris software as in 1A. (D) , WT adult mice were treated with either 50μl vehicle as in 1C or 1mg/kg RO in vehicle via carotid artery as in Methods. 15-16 hrs later, 50 μl vehicle prepared as in 1A or 100ng VEGF-A in vehicle was administered via carotid artery for 10-20 minutes using a catheter as in 1B. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. Vinculin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (E) , WT mice and mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were treated with vehicle or VEGF-A via carotid artery for 10-20 minutes using a catheter as in 1D. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. β-actin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (F) , WT pCECs were prepared and treated as in Methods with vehicle (DMSO) or RO (200nM in DMSO) and then stimulated with either vehicle (PBS) or VEGF-A (20ng in PBS) for 15min. Upper: Cells were co-immunostained with either anti-VEGFR2 antibodies (green) or early endosome marker Rab5 (red) and cell nuclei were stained with Hoechst (blue) as in Methods. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in RO-treated WT cells compared to vehicle-treated cells measured with Imaris software. (G) , pCECs from either WT or mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T), were stimulated with vehicle or VEGF-A in vehicle as in 1F. Upper: Cells were co-stained with anti-VEGFR2 antibodies and early endosome marker Rab5 as in 1F. Cell nuclei were stained with Hoechst (blue) as in 1F. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in PS1 FAD WT/M146V or WT/I213T HTRZ mice compared to WT measured with Imaris software. For Figs A-G, data are shown as Mean ± S.E. from at least three independent experiments or as indicated in the dot plots. Statistical analysis was performed using two-way ANOVA followed by Tukey post-hoc test. ns = not significant, *p<0.05, **p<0.01, ***p<0.001.
    Recombinant Endoglin, supplied by R&D Systems, 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/product/endoglin/10__3390_slash_biomedicines14030647-67-18-20?v=R%26D+Systems
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    Cell Signaling Technology Inc cd105
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    Cd105, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    cd105  (Santa Cruz Biotechnology)
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    Santa Cruz Biotechnology cd105
    Characteristics of ADSCs. (A) Passage 3 of cultured ADSCs showed spindle-shaped fibroblast morphology when observed under an inverted microscope. (B) Immunofluorescence staining showed that the ADSCs were positive for the surface antigens CD44 and <t>CD105,</t> while negative for CD34 and CD45. Scale bars: 100 μm (A,B) .
    Cd105, supplied by Santa Cruz Biotechnology, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    anti cd105  (Proteintech)
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    Proteintech anti cd105
    Characteristics of ADSCs. (A) Passage 3 of cultured ADSCs showed spindle-shaped fibroblast morphology when observed under an inverted microscope. (B) Immunofluorescence staining showed that the ADSCs were positive for the surface antigens CD44 and <t>CD105,</t> while negative for CD34 and CD45. Scale bars: 100 μm (A,B) .
    Anti Cd105, supplied by Proteintech, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    endoglin  (R&D Systems)
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    R&D Systems endoglin
    Nicotine-free eVape exposure causes significant upregulation of angiopoietin-2, <t>endoglin,</t> placental growth factor (PIGF), and VEGF as well as significant downregulation of endothelial growth factor (EGF) and prolactin in endothelial cells. HUVECs were exposed to 2% nicotine-free eVape fluid for 24 h. (a–c) Cell lysates were used for the Proteome Profiler Angiogenesis array membranes. Changes in the expression of all angiogenesis-related proteins in array (a) (ii) were quantified using the membranes (representative image in (a) (i) ). Specific analyses of the (b) upregulation and (c) downregulation of angiogenesis-related proteins on the membranes were quantified. (d) mRNA expression of angiopoietin-2, EGF, endoglin, PIGF, prolactin, and VEGF were measured by RT-PCR using specific primers. (e) Protein expression of (i) angiopoietin-2, (ii) EGF, (iii) endoglin, (iv) PIGF, (v) prolactin, and (vi) VEGF were measured using <t>specific</t> <t>ELISA</t> arrays. The data are presented as mean ± SEM, n = 5–6. * p < 0.05 versus vehicle for eVape (0%).
    Endoglin, supplied by R&D Systems, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    (A) , Wild-type (WT) and KI mice HTRZ for either PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were infused with vehicle (0.2% BSA in PBS) or VEGF-A (a total of 3.5μg in 100μl of vehicle) through the carotid artery for 15 days using a mini osmotic pump as in Methods. Left: Brain coronal sections (40μm thick) were prepared and immunostained with anti-Col IV antibodies to visualize brain vessels. Enhanced visualization surfaces were generated using Imaris software from representative confocal images of ipsilateral hemispheres. Scale bar: 50μm. Right: Graph shows total vessel length density in WT and PS1 FAD brains quantified using Imaris 9.9 software as in Methods. (B) , WT and HTRZ for PS1 FAD mutants M146V or I213T mice were injected through the carotid artery for 20 minutes with either vehicle or 100ng of VEGF-A in vehicle prepared as in 1A using a catheter as described in Methods. Brain microvessels (MV) were isolated as in Methods, lysed in Triton X-100 buffer, and subjected to immunoprecipitation (IP) with anti-VEGFR2 antibody or control IgG. Left: IPs were analyzed on Western blots (WBs) using anti-endoglin or anti-VEGFR2 antibodies (upper panel). Input samples are shown in lower panel. β-actin: loading control. Right: Graph shows quantification of endoglin co-IPed with VEGFR2, normalized to IPed VEGFR2. (C) , WT mice were infused for 15 days through the carotid artery with vehicle or VEGF-A in vehicle as in 1A using a mini osmotic pump (as in 1A). For RO injection, mice were treated with vehicle (2% DMSO, 30% PEG 300, 5% Tween-80 in ddH2O) or RO in vehicle (5mg/kg body weight) via five injections in tail vein one injection every three days, with first injection administered 1 hour before osmotic pump implantation. Brain coronal sections (40μm) were prepared and immunostained with anti-Col IV antibodies as in 1A. Left: Representative confocal images of ipsilateral hemispheres are shown prepared as in 1A. Scale bar: 50μm. Right: Graph shows total vessel length density quantified using Imaris software as in 1A. (D) , WT adult mice were treated with either 50μl vehicle as in 1C or 1mg/kg RO in vehicle via carotid artery as in Methods. 15-16 hrs later, 50 μl vehicle prepared as in 1A or 100ng VEGF-A in vehicle was administered via carotid artery for 10-20 minutes using a catheter as in 1B. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. Vinculin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (E) , WT mice and mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were treated with vehicle or VEGF-A via carotid artery for 10-20 minutes using a catheter as in 1D. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. β-actin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (F) , WT pCECs were prepared and treated as in Methods with vehicle (DMSO) or RO (200nM in DMSO) and then stimulated with either vehicle (PBS) or VEGF-A (20ng in PBS) for 15min. Upper: Cells were co-immunostained with either anti-VEGFR2 antibodies (green) or early endosome marker Rab5 (red) and cell nuclei were stained with Hoechst (blue) as in Methods. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in RO-treated WT cells compared to vehicle-treated cells measured with Imaris software. (G) , pCECs from either WT or mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T), were stimulated with vehicle or VEGF-A in vehicle as in 1F. Upper: Cells were co-stained with anti-VEGFR2 antibodies and early endosome marker Rab5 as in 1F. Cell nuclei were stained with Hoechst (blue) as in 1F. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in PS1 FAD WT/M146V or WT/I213T HTRZ mice compared to WT measured with Imaris software. For Figs A-G, data are shown as Mean ± S.E. from at least three independent experiments or as indicated in the dot plots. Statistical analysis was performed using two-way ANOVA followed by Tukey post-hoc test. ns = not significant, *p<0.05, **p<0.01, ***p<0.001.

    Journal: bioRxiv

    Article Title: PS FAD mutants and γ-secretase inhibition accumulate VEGFR2-derived peptide VCTF1 suppressing brain VEGFR2 dimerization, angiogenesis and neuroprotection

    doi: 10.64898/2026.05.12.724648

    Figure Lengend Snippet: (A) , Wild-type (WT) and KI mice HTRZ for either PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were infused with vehicle (0.2% BSA in PBS) or VEGF-A (a total of 3.5μg in 100μl of vehicle) through the carotid artery for 15 days using a mini osmotic pump as in Methods. Left: Brain coronal sections (40μm thick) were prepared and immunostained with anti-Col IV antibodies to visualize brain vessels. Enhanced visualization surfaces were generated using Imaris software from representative confocal images of ipsilateral hemispheres. Scale bar: 50μm. Right: Graph shows total vessel length density in WT and PS1 FAD brains quantified using Imaris 9.9 software as in Methods. (B) , WT and HTRZ for PS1 FAD mutants M146V or I213T mice were injected through the carotid artery for 20 minutes with either vehicle or 100ng of VEGF-A in vehicle prepared as in 1A using a catheter as described in Methods. Brain microvessels (MV) were isolated as in Methods, lysed in Triton X-100 buffer, and subjected to immunoprecipitation (IP) with anti-VEGFR2 antibody or control IgG. Left: IPs were analyzed on Western blots (WBs) using anti-endoglin or anti-VEGFR2 antibodies (upper panel). Input samples are shown in lower panel. β-actin: loading control. Right: Graph shows quantification of endoglin co-IPed with VEGFR2, normalized to IPed VEGFR2. (C) , WT mice were infused for 15 days through the carotid artery with vehicle or VEGF-A in vehicle as in 1A using a mini osmotic pump (as in 1A). For RO injection, mice were treated with vehicle (2% DMSO, 30% PEG 300, 5% Tween-80 in ddH2O) or RO in vehicle (5mg/kg body weight) via five injections in tail vein one injection every three days, with first injection administered 1 hour before osmotic pump implantation. Brain coronal sections (40μm) were prepared and immunostained with anti-Col IV antibodies as in 1A. Left: Representative confocal images of ipsilateral hemispheres are shown prepared as in 1A. Scale bar: 50μm. Right: Graph shows total vessel length density quantified using Imaris software as in 1A. (D) , WT adult mice were treated with either 50μl vehicle as in 1C or 1mg/kg RO in vehicle via carotid artery as in Methods. 15-16 hrs later, 50 μl vehicle prepared as in 1A or 100ng VEGF-A in vehicle was administered via carotid artery for 10-20 minutes using a catheter as in 1B. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. Vinculin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (E) , WT mice and mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T) were treated with vehicle or VEGF-A via carotid artery for 10-20 minutes using a catheter as in 1D. Brain MVs were isolated and extracted as in 1B. Left: p-VEGFR2 (Tyr1054/Tyr1059), VEGFR2, p-ERK1/2 and ERK1/2 are detected on WBs of extracts with specific antibodies in MV extracts. β-actin: loading control. Right: Graphs show fold change of phosphorylated to total protein ratio. (F) , WT pCECs were prepared and treated as in Methods with vehicle (DMSO) or RO (200nM in DMSO) and then stimulated with either vehicle (PBS) or VEGF-A (20ng in PBS) for 15min. Upper: Cells were co-immunostained with either anti-VEGFR2 antibodies (green) or early endosome marker Rab5 (red) and cell nuclei were stained with Hoechst (blue) as in Methods. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in RO-treated WT cells compared to vehicle-treated cells measured with Imaris software. (G) , pCECs from either WT or mice HTRZ for PS1 FAD mutant M146V (WT/M146V) or I213T (WT/I213T), were stimulated with vehicle or VEGF-A in vehicle as in 1F. Upper: Cells were co-stained with anti-VEGFR2 antibodies and early endosome marker Rab5 as in 1F. Cell nuclei were stained with Hoechst (blue) as in 1F. Yellow fluorescence in merged images indicates co-localization of VEGFR2 with Rab5. Scale bar 0.5μm. Lower: Graph shows percent of VEGFR2 co-localized with Rab5 in PS1 FAD WT/M146V or WT/I213T HTRZ mice compared to WT measured with Imaris software. For Figs A-G, data are shown as Mean ± S.E. from at least three independent experiments or as indicated in the dot plots. Statistical analysis was performed using two-way ANOVA followed by Tukey post-hoc test. ns = not significant, *p<0.05, **p<0.01, ***p<0.001.

    Article Snippet: Mouse monoclonal anti-Flag tag (M2; F1804) was from Millipore Sigma, anti-GAPDH (2118S) from Cell Signaling Technologies (Beverly, MA), anti-VEGFR2 (OTI12C1) from Origene, anti-endoglin (CD-105; NBP2-22122) and anti-LAMP2 (NBP2-22217) from Novus Biologicals, Inc, anti-Rab5 (D-11) and anti-Rab7 (B-3) from Santa Cruz Biotechnology, Inc. Chicken polyclonal anti-GFAP (ab4674) was from Abcam.

    Techniques: Mutagenesis, Generated, Software, Injection, Isolation, Immunoprecipitation, Control, Western Blot, Marker, Staining, Fluorescence

    (A), Brain tissue extracts were prepared as in Methods from twelve PS1 FAD patients each carrying a different PS1 mutation, and twelve non-demented controls described in Methods. Left: VEGFR2 dimers and monomers were detected in brain extracts on WBs using anti-VEGFR2 antibody D5B1. Representative gels with control (C1-4) or FAD samples (FAD1-4) expressing mutants P264L, A260V, N135S and P242H respectively are shown. Vinculin: loading control. Right: Graph shows the fold change in VEGFR2 dimer to monomer ratio of FAD and control samples. (B), Brain tissue extract from control and PS1 FAD patient brains described in 7A were prepared and IPed with anti-endoglin antibody (ab252345) or IgG as in Methods. Upper panel: VEGFR2 co-IPed with endoglin was detected on WBs using an anti-VEGFR2 antibody as in 7A. Lower panel: Input samples are shown. Representative gel with control samples (C1, C2) and FAD samples (FAD1, FAD2) expressing mutants A260V and P264L respectively is shown. β-actin: loading control. Right: Graph shows relative levels of VEGFR2 co-precipitated with endoglin. (C), Brain sections from control and PS1 FAD patients were prepared as in Methods and stained for Col IV as in 1A. Upper: Representative images show brain vessels in either PS1 FAD or control (CT) brain sections. Scale bar: 80μm. Lower: Graph shows total vessel length density in PS1 FAD and CT brains quantified with Imaris software as in 1A. A-C , bars represent Mean ± S.E. For statistical analysis, unpaired t-test was performed. *p < 0.05, **p<0.01 and ***p<0.001.

    Journal: bioRxiv

    Article Title: PS FAD mutants and γ-secretase inhibition accumulate VEGFR2-derived peptide VCTF1 suppressing brain VEGFR2 dimerization, angiogenesis and neuroprotection

    doi: 10.64898/2026.05.12.724648

    Figure Lengend Snippet: (A), Brain tissue extracts were prepared as in Methods from twelve PS1 FAD patients each carrying a different PS1 mutation, and twelve non-demented controls described in Methods. Left: VEGFR2 dimers and monomers were detected in brain extracts on WBs using anti-VEGFR2 antibody D5B1. Representative gels with control (C1-4) or FAD samples (FAD1-4) expressing mutants P264L, A260V, N135S and P242H respectively are shown. Vinculin: loading control. Right: Graph shows the fold change in VEGFR2 dimer to monomer ratio of FAD and control samples. (B), Brain tissue extract from control and PS1 FAD patient brains described in 7A were prepared and IPed with anti-endoglin antibody (ab252345) or IgG as in Methods. Upper panel: VEGFR2 co-IPed with endoglin was detected on WBs using an anti-VEGFR2 antibody as in 7A. Lower panel: Input samples are shown. Representative gel with control samples (C1, C2) and FAD samples (FAD1, FAD2) expressing mutants A260V and P264L respectively is shown. β-actin: loading control. Right: Graph shows relative levels of VEGFR2 co-precipitated with endoglin. (C), Brain sections from control and PS1 FAD patients were prepared as in Methods and stained for Col IV as in 1A. Upper: Representative images show brain vessels in either PS1 FAD or control (CT) brain sections. Scale bar: 80μm. Lower: Graph shows total vessel length density in PS1 FAD and CT brains quantified with Imaris software as in 1A. A-C , bars represent Mean ± S.E. For statistical analysis, unpaired t-test was performed. *p < 0.05, **p<0.01 and ***p<0.001.

    Article Snippet: Mouse monoclonal anti-Flag tag (M2; F1804) was from Millipore Sigma, anti-GAPDH (2118S) from Cell Signaling Technologies (Beverly, MA), anti-VEGFR2 (OTI12C1) from Origene, anti-endoglin (CD-105; NBP2-22122) and anti-LAMP2 (NBP2-22217) from Novus Biologicals, Inc, anti-Rab5 (D-11) and anti-Rab7 (B-3) from Santa Cruz Biotechnology, Inc. Chicken polyclonal anti-GFAP (ab4674) was from Abcam.

    Techniques: Mutagenesis, Control, Expressing, Staining, Software

    Characteristics of ADSCs. (A) Passage 3 of cultured ADSCs showed spindle-shaped fibroblast morphology when observed under an inverted microscope. (B) Immunofluorescence staining showed that the ADSCs were positive for the surface antigens CD44 and CD105, while negative for CD34 and CD45. Scale bars: 100 μm (A,B) .

    Journal: Frontiers in Cellular Neuroscience

    Article Title: Adipose-derived stem cell-conditioned medium mitigates ischemia-induced neuronal injury via the JAK1/STAT3 signaling pathway

    doi: 10.3389/fncel.2026.1744887

    Figure Lengend Snippet: Characteristics of ADSCs. (A) Passage 3 of cultured ADSCs showed spindle-shaped fibroblast morphology when observed under an inverted microscope. (B) Immunofluorescence staining showed that the ADSCs were positive for the surface antigens CD44 and CD105, while negative for CD34 and CD45. Scale bars: 100 μm (A,B) .

    Article Snippet: After washing with PBS, the cells were blocked with 5% normal goat serum (Beyotime, Jiangsu, China) for 30 min, followed by incubation with primary mouse antibodies against CD34 (1:200, sc-65261, Santa Cruz Biotechnology, Santa Cruz, CA, USA), CD44 (1:200, sc-53068, Santa Cruz Biotechnology), CD45 (1:200, sc-1178, Santa Cruz Biotechnology), and CD105 (1:200, sc-20072, Santa Cruz Biotechnology) for 1 h. The cells were then rewashed and incubated with Cy3-conjugated goat anti-mouse IgG (1:400, AS008, ABclonal, Wuhan, China) for 45 min.

    Techniques: Cell Culture, Inverted Microscopy, Immunofluorescence, Staining

    Nicotine-free eVape exposure causes significant upregulation of angiopoietin-2, endoglin, placental growth factor (PIGF), and VEGF as well as significant downregulation of endothelial growth factor (EGF) and prolactin in endothelial cells. HUVECs were exposed to 2% nicotine-free eVape fluid for 24 h. (a–c) Cell lysates were used for the Proteome Profiler Angiogenesis array membranes. Changes in the expression of all angiogenesis-related proteins in array (a) (ii) were quantified using the membranes (representative image in (a) (i) ). Specific analyses of the (b) upregulation and (c) downregulation of angiogenesis-related proteins on the membranes were quantified. (d) mRNA expression of angiopoietin-2, EGF, endoglin, PIGF, prolactin, and VEGF were measured by RT-PCR using specific primers. (e) Protein expression of (i) angiopoietin-2, (ii) EGF, (iii) endoglin, (iv) PIGF, (v) prolactin, and (vi) VEGF were measured using specific ELISA arrays. The data are presented as mean ± SEM, n = 5–6. * p < 0.05 versus vehicle for eVape (0%).

    Journal: Frontiers in Toxicology

    Article Title: Nicotine-free electronic vape fluid stimulates angiogenic processes in vitro through ARF6-mediated oxidative stress

    doi: 10.3389/ftox.2025.1699112

    Figure Lengend Snippet: Nicotine-free eVape exposure causes significant upregulation of angiopoietin-2, endoglin, placental growth factor (PIGF), and VEGF as well as significant downregulation of endothelial growth factor (EGF) and prolactin in endothelial cells. HUVECs were exposed to 2% nicotine-free eVape fluid for 24 h. (a–c) Cell lysates were used for the Proteome Profiler Angiogenesis array membranes. Changes in the expression of all angiogenesis-related proteins in array (a) (ii) were quantified using the membranes (representative image in (a) (i) ). Specific analyses of the (b) upregulation and (c) downregulation of angiogenesis-related proteins on the membranes were quantified. (d) mRNA expression of angiopoietin-2, EGF, endoglin, PIGF, prolactin, and VEGF were measured by RT-PCR using specific primers. (e) Protein expression of (i) angiopoietin-2, (ii) EGF, (iii) endoglin, (iv) PIGF, (v) prolactin, and (vi) VEGF were measured using specific ELISA arrays. The data are presented as mean ± SEM, n = 5–6. * p < 0.05 versus vehicle for eVape (0%).

    Article Snippet: NAV2729 and Secin H3 were purchased from Tocris Bioscience (Abingdon, UK); Proteome Profiler Human angiogenesis array and enzyme-linked immunosorbent assay (ELISA) kits for human angiopoietin-2 (DANG20), endothelial growth factor (EGF; DEG00), endoglin (DNDG00), placental growth factor (PIGF; DPG00), prolactin (DY682), and vascular endothelial growth factor (VEGF; DVE00) were all obtained from R&D Systems (Abingdon, UK).

    Techniques: Expressing, Reverse Transcription Polymerase Chain Reaction, Enzyme-linked Immunosorbent Assay

    Activation of ARF6 by its guanine nucleotide exchange factor (ARNO) regulates angiogenic processes in endothelial cells induced by nicotine-free eVape. (a, b) HUVECs were exposed to 2% nicotine-free eVape fluid for 24 h, and the cell lysates were analysed by Western blotting for (a) ARF6 or (b) ARNO expression. The Western blotting membranes (representative blots are shown in (i) ) were quantified and normalised to the actin expression shown in (ii) . (c–f) HUVECs were treated with ARF6 inhibitor (NAV2729; 5 µM), ARNO inhibitor (Secin H3; 10 µM), or dimethyl sulfoxide (DMSO) as vehicle control at the same time as eVape exposure. (c) ROS accumulation was assessed by DCFDA incorporation (fluorescence at 485/535 nm) following 2 h of treatment. (d) Cell adhesion, (e) migration, and (f) angiogenic potential were measured following (d, e) 6 h and (f) 24 h of treatments. (g) Protein expression of (i) angiopoietin-2, (ii) EGF, (iii) endoglin, (iv) PIGF, (v) prolactin, and (vi) VEGF were measured using specific ELISA arrays following 24 h of treatment with 2% nicotine-free eVape fluid in the presence (closed circles) and absence (open circles) of Secin H3 (10 µM). The data are presented as mean ± SEM, n = 5–6. * p < 0.05 versus vehicle for eVape (0%); # p < 0.05 versus vehicle for NAV2729 and Secin H3 (DMSO).

    Journal: Frontiers in Toxicology

    Article Title: Nicotine-free electronic vape fluid stimulates angiogenic processes in vitro through ARF6-mediated oxidative stress

    doi: 10.3389/ftox.2025.1699112

    Figure Lengend Snippet: Activation of ARF6 by its guanine nucleotide exchange factor (ARNO) regulates angiogenic processes in endothelial cells induced by nicotine-free eVape. (a, b) HUVECs were exposed to 2% nicotine-free eVape fluid for 24 h, and the cell lysates were analysed by Western blotting for (a) ARF6 or (b) ARNO expression. The Western blotting membranes (representative blots are shown in (i) ) were quantified and normalised to the actin expression shown in (ii) . (c–f) HUVECs were treated with ARF6 inhibitor (NAV2729; 5 µM), ARNO inhibitor (Secin H3; 10 µM), or dimethyl sulfoxide (DMSO) as vehicle control at the same time as eVape exposure. (c) ROS accumulation was assessed by DCFDA incorporation (fluorescence at 485/535 nm) following 2 h of treatment. (d) Cell adhesion, (e) migration, and (f) angiogenic potential were measured following (d, e) 6 h and (f) 24 h of treatments. (g) Protein expression of (i) angiopoietin-2, (ii) EGF, (iii) endoglin, (iv) PIGF, (v) prolactin, and (vi) VEGF were measured using specific ELISA arrays following 24 h of treatment with 2% nicotine-free eVape fluid in the presence (closed circles) and absence (open circles) of Secin H3 (10 µM). The data are presented as mean ± SEM, n = 5–6. * p < 0.05 versus vehicle for eVape (0%); # p < 0.05 versus vehicle for NAV2729 and Secin H3 (DMSO).

    Article Snippet: NAV2729 and Secin H3 were purchased from Tocris Bioscience (Abingdon, UK); Proteome Profiler Human angiogenesis array and enzyme-linked immunosorbent assay (ELISA) kits for human angiopoietin-2 (DANG20), endothelial growth factor (EGF; DEG00), endoglin (DNDG00), placental growth factor (PIGF; DPG00), prolactin (DY682), and vascular endothelial growth factor (VEGF; DVE00) were all obtained from R&D Systems (Abingdon, UK).

    Techniques: Activation Assay, Western Blot, Expressing, Control, Fluorescence, Migration, Enzyme-linked Immunosorbent Assay