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primary adult male hbmec  (Innoprot Inc)


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    Structured Review

    Innoprot Inc primary adult male hbmec
    A . Physiological rationale: Ambient PM2.5 exposure is epidemiologically linked to increased ischemic stroke risk. This in vitro model simulates the real-life scenario of pre-existing PM2.5 exposure followed by ischemic stroke and subsequent reperfusion. B . Primary adult <t>male</t> <t>HBMEC</t> were exposed to 5, 15, 75, or 300 μg/m 3 PM 2.5 for 48h in total. To compare with the effects of physiological ischemic-like injury, some plates were exposed to hypoxia (1% O 2 ) and glucose deprived media (HGD) for 3h after the initial 24h incubation. Following HGD or normoxia, cells were reperfused with nutrient-enriched media and incubated with PM 2.5 at normoxic (21% O 2 ) conditions as a reference for resolution of ischemia. Barrier integrity, cell viability, reactive oxygen species (ROS), inflammation and LOX-1 expression was assessed. Figure created in BioRender.
    Primary Adult Male Hbmec, supplied by Innoprot Inc, used in various techniques. Bioz Stars score: 93/100, based on 38 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/primary adult male hbmec/product/Innoprot Inc
    Average 93 stars, based on 38 article reviews
    primary adult male hbmec - by Bioz Stars, 2026-02
    93/100 stars

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    1) Product Images from "Urban PM 2.5 at Realistic Environmental Concentrations Impairs Blood–Brain Barrier Integrity and Enhances LOX-1 Expression in Human Brain Endothelial Cells"

    Article Title: Urban PM 2.5 at Realistic Environmental Concentrations Impairs Blood–Brain Barrier Integrity and Enhances LOX-1 Expression in Human Brain Endothelial Cells

    Journal: bioRxiv

    doi: 10.64898/2026.01.29.702473

    A . Physiological rationale: Ambient PM2.5 exposure is epidemiologically linked to increased ischemic stroke risk. This in vitro model simulates the real-life scenario of pre-existing PM2.5 exposure followed by ischemic stroke and subsequent reperfusion. B . Primary adult male HBMEC were exposed to 5, 15, 75, or 300 μg/m 3 PM 2.5 for 48h in total. To compare with the effects of physiological ischemic-like injury, some plates were exposed to hypoxia (1% O 2 ) and glucose deprived media (HGD) for 3h after the initial 24h incubation. Following HGD or normoxia, cells were reperfused with nutrient-enriched media and incubated with PM 2.5 at normoxic (21% O 2 ) conditions as a reference for resolution of ischemia. Barrier integrity, cell viability, reactive oxygen species (ROS), inflammation and LOX-1 expression was assessed. Figure created in BioRender.
    Figure Legend Snippet: A . Physiological rationale: Ambient PM2.5 exposure is epidemiologically linked to increased ischemic stroke risk. This in vitro model simulates the real-life scenario of pre-existing PM2.5 exposure followed by ischemic stroke and subsequent reperfusion. B . Primary adult male HBMEC were exposed to 5, 15, 75, or 300 μg/m 3 PM 2.5 for 48h in total. To compare with the effects of physiological ischemic-like injury, some plates were exposed to hypoxia (1% O 2 ) and glucose deprived media (HGD) for 3h after the initial 24h incubation. Following HGD or normoxia, cells were reperfused with nutrient-enriched media and incubated with PM 2.5 at normoxic (21% O 2 ) conditions as a reference for resolution of ischemia. Barrier integrity, cell viability, reactive oxygen species (ROS), inflammation and LOX-1 expression was assessed. Figure created in BioRender.

    Techniques Used: In Vitro, Incubation, Expressing

    Adult male HBMEC were exposed to vehicle or PM 2.5 (5, 15, 75, or 300 μg/m 3 ) for 24h and incubated for 3h in normoxia- or hypoxia and glucose deprivation (HGD) followed by 24h reperfusion. A . Live cell count (CyQUANT nuclear stain) decreased when exposed to ≥75 μg/m 3 PM 2.5 compared to vehicle. HGD treatment reduced live cell count compared to normoxia but did not differ between particle treated groups. B . Reactive oxygen species (ROS) signal (DCHF-DA) normalized to live cell count. Relative ROS levels increased dose-dependently with PM 2.5 concentration, with significant increase observed at PM 2.5 ≥75 μg/m 3 , in comparison to normoxia vehicle. ROS levels were uniformly elevated following HGD across all doses in comparison to normoxia vehicle and significantly higher than untreated HBMEC. (n=12 technical replicates for vehicle and 5, n=8 technical replicates for 15, 75 and 300) C . Analysis of crystal violet-stained HBMEC shows a longer maximum cellular length when treated with ≥15 μg/m 3 PM 2.5 . (n=21-37 individual cells) D . Representative images of crystal violet-stained HBMEC visualizing a differentiated morphology in cells treated with higher PM 2.5 concentration, where cells appear more elongated and expanding towards neighbouring cells. Data presented as mean ± SD. Statistical significance assessed through Kruskal-Wallis test within treatment groups (Normoxia/HGD) and Mann-Whitney test between groups with different treatment (300 normoxia/vehicle HGD). *p<0.05. ***p<0.001. ****p<0.0001.
    Figure Legend Snippet: Adult male HBMEC were exposed to vehicle or PM 2.5 (5, 15, 75, or 300 μg/m 3 ) for 24h and incubated for 3h in normoxia- or hypoxia and glucose deprivation (HGD) followed by 24h reperfusion. A . Live cell count (CyQUANT nuclear stain) decreased when exposed to ≥75 μg/m 3 PM 2.5 compared to vehicle. HGD treatment reduced live cell count compared to normoxia but did not differ between particle treated groups. B . Reactive oxygen species (ROS) signal (DCHF-DA) normalized to live cell count. Relative ROS levels increased dose-dependently with PM 2.5 concentration, with significant increase observed at PM 2.5 ≥75 μg/m 3 , in comparison to normoxia vehicle. ROS levels were uniformly elevated following HGD across all doses in comparison to normoxia vehicle and significantly higher than untreated HBMEC. (n=12 technical replicates for vehicle and 5, n=8 technical replicates for 15, 75 and 300) C . Analysis of crystal violet-stained HBMEC shows a longer maximum cellular length when treated with ≥15 μg/m 3 PM 2.5 . (n=21-37 individual cells) D . Representative images of crystal violet-stained HBMEC visualizing a differentiated morphology in cells treated with higher PM 2.5 concentration, where cells appear more elongated and expanding towards neighbouring cells. Data presented as mean ± SD. Statistical significance assessed through Kruskal-Wallis test within treatment groups (Normoxia/HGD) and Mann-Whitney test between groups with different treatment (300 normoxia/vehicle HGD). *p<0.05. ***p<0.001. ****p<0.0001.

    Techniques Used: Incubation, Cell Characterization, CyQUANT Assay, Staining, Concentration Assay, Comparison, MANN-WHITNEY

    Western Blot assessment of adult male HBMEC exposed to vehicle, 5, 15, 75, or 300 μg/m 3 PM 2.5 during normoxia or ischemic-like injury with hypoxia, glucose deprivation and reperfusion (HGD). A . Representative Western Blot image of IL-6 and β-actin band migration. B . Signal quantification of 25kDa IL-6 shows no difference between PM 2.5 exposure or HGD treated group. C . Signal quantification of 17kDa IL-6 shows dose-dependency with higher IL-6 expression from higher PM 2.5 exposure, with significant increase ≥75 μg/m 3 and from HGD treatment compared to vehicle. D . Representative Western Blot image of LOX-1 and β-actin. E . Signal quantification of LOX-1 displays a dose-dependent increase in LOX-1 with exposure to ≥15 μg/m 3 PM 2.5 or HGD. (n=4-7 technical replicates). Data presented as mean +-SD. Statistical significance assessed by Kruskal-Wallis test. *p<0.05, **p<0.01.
    Figure Legend Snippet: Western Blot assessment of adult male HBMEC exposed to vehicle, 5, 15, 75, or 300 μg/m 3 PM 2.5 during normoxia or ischemic-like injury with hypoxia, glucose deprivation and reperfusion (HGD). A . Representative Western Blot image of IL-6 and β-actin band migration. B . Signal quantification of 25kDa IL-6 shows no difference between PM 2.5 exposure or HGD treated group. C . Signal quantification of 17kDa IL-6 shows dose-dependency with higher IL-6 expression from higher PM 2.5 exposure, with significant increase ≥75 μg/m 3 and from HGD treatment compared to vehicle. D . Representative Western Blot image of LOX-1 and β-actin. E . Signal quantification of LOX-1 displays a dose-dependent increase in LOX-1 with exposure to ≥15 μg/m 3 PM 2.5 or HGD. (n=4-7 technical replicates). Data presented as mean +-SD. Statistical significance assessed by Kruskal-Wallis test. *p<0.05, **p<0.01.

    Techniques Used: Western Blot, Migration, Expressing



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    primary adult male hbmec  (Innoprot Inc)
    93
    Innoprot Inc primary adult male hbmec
    A . Physiological rationale: Ambient PM2.5 exposure is epidemiologically linked to increased ischemic stroke risk. This in vitro model simulates the real-life scenario of pre-existing PM2.5 exposure followed by ischemic stroke and subsequent reperfusion. B . Primary adult <t>male</t> <t>HBMEC</t> were exposed to 5, 15, 75, or 300 μg/m 3 PM 2.5 for 48h in total. To compare with the effects of physiological ischemic-like injury, some plates were exposed to hypoxia (1% O 2 ) and glucose deprived media (HGD) for 3h after the initial 24h incubation. Following HGD or normoxia, cells were reperfused with nutrient-enriched media and incubated with PM 2.5 at normoxic (21% O 2 ) conditions as a reference for resolution of ischemia. Barrier integrity, cell viability, reactive oxygen species (ROS), inflammation and LOX-1 expression was assessed. Figure created in BioRender.
    Primary Adult Male Hbmec, supplied by Innoprot Inc, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/primary adult male hbmec/product/Innoprot Inc
    Average 93 stars, based on 1 article reviews
    primary adult male hbmec - by Bioz Stars, 2026-02
    93/100 stars
    		  Buy from Supplier

    Image Search Results


    A . Physiological rationale: Ambient PM2.5 exposure is epidemiologically linked to increased ischemic stroke risk. This in vitro model simulates the real-life scenario of pre-existing PM2.5 exposure followed by ischemic stroke and subsequent reperfusion. B . Primary adult male HBMEC were exposed to 5, 15, 75, or 300 μg/m 3 PM 2.5 for 48h in total. To compare with the effects of physiological ischemic-like injury, some plates were exposed to hypoxia (1% O 2 ) and glucose deprived media (HGD) for 3h after the initial 24h incubation. Following HGD or normoxia, cells were reperfused with nutrient-enriched media and incubated with PM 2.5 at normoxic (21% O 2 ) conditions as a reference for resolution of ischemia. Barrier integrity, cell viability, reactive oxygen species (ROS), inflammation and LOX-1 expression was assessed. Figure created in BioRender.

    Journal: bioRxiv

    Article Title: Urban PM 2.5 at Realistic Environmental Concentrations Impairs Blood–Brain Barrier Integrity and Enhances LOX-1 Expression in Human Brain Endothelial Cells

    doi: 10.64898/2026.01.29.702473

    Figure Lengend Snippet: A . Physiological rationale: Ambient PM2.5 exposure is epidemiologically linked to increased ischemic stroke risk. This in vitro model simulates the real-life scenario of pre-existing PM2.5 exposure followed by ischemic stroke and subsequent reperfusion. B . Primary adult male HBMEC were exposed to 5, 15, 75, or 300 μg/m 3 PM 2.5 for 48h in total. To compare with the effects of physiological ischemic-like injury, some plates were exposed to hypoxia (1% O 2 ) and glucose deprived media (HGD) for 3h after the initial 24h incubation. Following HGD or normoxia, cells were reperfused with nutrient-enriched media and incubated with PM 2.5 at normoxic (21% O 2 ) conditions as a reference for resolution of ischemia. Barrier integrity, cell viability, reactive oxygen species (ROS), inflammation and LOX-1 expression was assessed. Figure created in BioRender.

    Article Snippet: Primary adult male HBMEC were purchased from Innoprot (Spain, Catalog number: P10361, Lot number: 111224CS).

    Techniques: In Vitro, Incubation, Expressing

    Adult male HBMEC were exposed to vehicle or PM 2.5 (5, 15, 75, or 300 μg/m 3 ) for 24h and incubated for 3h in normoxia- or hypoxia and glucose deprivation (HGD) followed by 24h reperfusion. A . Live cell count (CyQUANT nuclear stain) decreased when exposed to ≥75 μg/m 3 PM 2.5 compared to vehicle. HGD treatment reduced live cell count compared to normoxia but did not differ between particle treated groups. B . Reactive oxygen species (ROS) signal (DCHF-DA) normalized to live cell count. Relative ROS levels increased dose-dependently with PM 2.5 concentration, with significant increase observed at PM 2.5 ≥75 μg/m 3 , in comparison to normoxia vehicle. ROS levels were uniformly elevated following HGD across all doses in comparison to normoxia vehicle and significantly higher than untreated HBMEC. (n=12 technical replicates for vehicle and 5, n=8 technical replicates for 15, 75 and 300) C . Analysis of crystal violet-stained HBMEC shows a longer maximum cellular length when treated with ≥15 μg/m 3 PM 2.5 . (n=21-37 individual cells) D . Representative images of crystal violet-stained HBMEC visualizing a differentiated morphology in cells treated with higher PM 2.5 concentration, where cells appear more elongated and expanding towards neighbouring cells. Data presented as mean ± SD. Statistical significance assessed through Kruskal-Wallis test within treatment groups (Normoxia/HGD) and Mann-Whitney test between groups with different treatment (300 normoxia/vehicle HGD). *p<0.05. ***p<0.001. ****p<0.0001.

    Journal: bioRxiv

    Article Title: Urban PM 2.5 at Realistic Environmental Concentrations Impairs Blood–Brain Barrier Integrity and Enhances LOX-1 Expression in Human Brain Endothelial Cells

    doi: 10.64898/2026.01.29.702473

    Figure Lengend Snippet: Adult male HBMEC were exposed to vehicle or PM 2.5 (5, 15, 75, or 300 μg/m 3 ) for 24h and incubated for 3h in normoxia- or hypoxia and glucose deprivation (HGD) followed by 24h reperfusion. A . Live cell count (CyQUANT nuclear stain) decreased when exposed to ≥75 μg/m 3 PM 2.5 compared to vehicle. HGD treatment reduced live cell count compared to normoxia but did not differ between particle treated groups. B . Reactive oxygen species (ROS) signal (DCHF-DA) normalized to live cell count. Relative ROS levels increased dose-dependently with PM 2.5 concentration, with significant increase observed at PM 2.5 ≥75 μg/m 3 , in comparison to normoxia vehicle. ROS levels were uniformly elevated following HGD across all doses in comparison to normoxia vehicle and significantly higher than untreated HBMEC. (n=12 technical replicates for vehicle and 5, n=8 technical replicates for 15, 75 and 300) C . Analysis of crystal violet-stained HBMEC shows a longer maximum cellular length when treated with ≥15 μg/m 3 PM 2.5 . (n=21-37 individual cells) D . Representative images of crystal violet-stained HBMEC visualizing a differentiated morphology in cells treated with higher PM 2.5 concentration, where cells appear more elongated and expanding towards neighbouring cells. Data presented as mean ± SD. Statistical significance assessed through Kruskal-Wallis test within treatment groups (Normoxia/HGD) and Mann-Whitney test between groups with different treatment (300 normoxia/vehicle HGD). *p<0.05. ***p<0.001. ****p<0.0001.

    Article Snippet: Primary adult male HBMEC were purchased from Innoprot (Spain, Catalog number: P10361, Lot number: 111224CS).

    Techniques: Incubation, Cell Characterization, CyQUANT Assay, Staining, Concentration Assay, Comparison, MANN-WHITNEY

    Western Blot assessment of adult male HBMEC exposed to vehicle, 5, 15, 75, or 300 μg/m 3 PM 2.5 during normoxia or ischemic-like injury with hypoxia, glucose deprivation and reperfusion (HGD). A . Representative Western Blot image of IL-6 and β-actin band migration. B . Signal quantification of 25kDa IL-6 shows no difference between PM 2.5 exposure or HGD treated group. C . Signal quantification of 17kDa IL-6 shows dose-dependency with higher IL-6 expression from higher PM 2.5 exposure, with significant increase ≥75 μg/m 3 and from HGD treatment compared to vehicle. D . Representative Western Blot image of LOX-1 and β-actin. E . Signal quantification of LOX-1 displays a dose-dependent increase in LOX-1 with exposure to ≥15 μg/m 3 PM 2.5 or HGD. (n=4-7 technical replicates). Data presented as mean +-SD. Statistical significance assessed by Kruskal-Wallis test. *p<0.05, **p<0.01.

    Journal: bioRxiv

    Article Title: Urban PM 2.5 at Realistic Environmental Concentrations Impairs Blood–Brain Barrier Integrity and Enhances LOX-1 Expression in Human Brain Endothelial Cells

    doi: 10.64898/2026.01.29.702473

    Figure Lengend Snippet: Western Blot assessment of adult male HBMEC exposed to vehicle, 5, 15, 75, or 300 μg/m 3 PM 2.5 during normoxia or ischemic-like injury with hypoxia, glucose deprivation and reperfusion (HGD). A . Representative Western Blot image of IL-6 and β-actin band migration. B . Signal quantification of 25kDa IL-6 shows no difference between PM 2.5 exposure or HGD treated group. C . Signal quantification of 17kDa IL-6 shows dose-dependency with higher IL-6 expression from higher PM 2.5 exposure, with significant increase ≥75 μg/m 3 and from HGD treatment compared to vehicle. D . Representative Western Blot image of LOX-1 and β-actin. E . Signal quantification of LOX-1 displays a dose-dependent increase in LOX-1 with exposure to ≥15 μg/m 3 PM 2.5 or HGD. (n=4-7 technical replicates). Data presented as mean +-SD. Statistical significance assessed by Kruskal-Wallis test. *p<0.05, **p<0.01.

    Article Snippet: Primary adult male HBMEC were purchased from Innoprot (Spain, Catalog number: P10361, Lot number: 111224CS).

    Techniques: Western Blot, Migration, Expressing