The microenvironment following oxygen glucose deprivation/re-oxygenation-induced BSCB damage in vitro

•The inflammatory mediators were increased after BSCB damage induced by OGD/R.•Tight junction proteins deteriorate persistently after BSCB damage induced by OGD/R.•BSCB permeability increases longitudinally after BSCB damage induced by OGD/R.•BSCB secondary damage and inflammation injury after OGD/R...

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Published inBrain research bulletin Vol. 143; pp. 171 - 180
Main Authors Cai, Xiao-Jun, Zhao, Jing-Jing, Lu, Yi, Zhang, Jian-Ping, Ren, Bing-Yan, Cao, Ting-Ting, Xi, Guang-Jun, Li, Zai-Wang
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.10.2018
Subjects
Blood-spinal cord barrier
Oxygen glucose deprivation
Proinflammatory factors
Re-oxygenation
Tight junction proteins
Transepithelial electrical resistance
Blood-spinal cord barrier
Oxygen glucose deprivation
Transepithelial electrical resistance
Tight junction proteins
Proinflammatory factors
Re-oxygenation
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Abstract •The inflammatory mediators were increased after BSCB damage induced by OGD/R.•Tight junction proteins deteriorate persistently after BSCB damage induced by OGD/R.•BSCB permeability increases longitudinally after BSCB damage induced by OGD/R.•BSCB secondary damage and inflammation injury after OGD/R have a close relationship. To characterize the microenvironment following blood-spinal cord barrier (BSCB) damage and to evaluate the role of BSCB disruption in secondary damage of spinal cord injury (SCI). A model of BSCB damage was established by co-culture of primary microvascular endothelial cells and glial cells obtained from rat spinal cord tissue followed by oxygen glucose deprivation/re-oxygenation (OGD/R). Permeability was evaluated by measuring the transendothelial electrical resistance (TEER) and the leakage test of Fluorescein isothiocyanate-dextran (FITC-dextran). The expression of tight junction (TJ) proteins (occludin and zonula occludens-1 (ZO-1) were evaluated by Western blot and immunofluorescence microscopy. Proinflammatory factors (TNF-α, iNOS, COX-2 and IL-1β), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were detected in the culture medium under different conditions by enzyme-linked immuno sorbent assay (ELISA). The model of BSCB damage induced by OGD/R was successfully constructed. The maximum BSCB permeability occurred 6–12 hours but not within the first 3 h after OGD/R-induced damage. Likewise, the most significant period of TJ protein loss was also detected 6–12 hours after induction. During the hyper-acute period (3 h) following OGD/R-induced damage of BSCB, leukocyte chemotactic factors and leukocyte adhesion factors were significantly increased in the BSCB model. Pro-inflammation factors (TNF-α, IL-1β, iNOS, COX-2), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were also sharply produced during the acute period (3–6 hours) and maintained plateau levels 6–12 hours following OGD/R-induced damage, which overlapped with the period of BSCB permeability maximum. A negative linear correlation was observed between the abundance of proinflammatory factors and the expression of TJ proteins (ZO-1 and occludin) and transepithelial electrical resistance (TEER), and a positive linear correlation was found with transendothelial FITC-dextran. Secondary damage continues after primary BSCB damage induced by OGD/R, exhibiting close ties with inflammation injury.
AbstractList OBJECTIVETo characterize the microenvironment following blood-spinal cord barrier (BSCB) damage and to evaluate the role of BSCB disruption in secondary damage of spinal cord injury (SCI).METHODSA model of BSCB damage was established by co-culture of primary microvascular endothelial cells and glial cells obtained from rat spinal cord tissue followed by oxygen glucose deprivation/re-oxygenation (OGD/R). Permeability was evaluated by measuring the transendothelial electrical resistance (TEER) and the leakage test of Fluorescein isothiocyanate-dextran (FITC-dextran). The expression of tight junction (TJ) proteins (occludin and zonula occludens-1 (ZO-1) were evaluated by Western blot and immunofluorescence microscopy. Proinflammatory factors (TNF-α, iNOS, COX-2 and IL-1β), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were detected in the culture medium under different conditions by enzyme-linked immuno sorbent assay (ELISA).RESULTSThe model of BSCB damage induced by OGD/R was successfully constructed. The maximum BSCB permeability occurred 6-12 hours but not within the first 3 h after OGD/R-induced damage. Likewise, the most significant period of TJ protein loss was also detected 6-12 hours after induction. During the hyper-acute period (3 h) following OGD/R-induced damage of BSCB, leukocyte chemotactic factors and leukocyte adhesion factors were significantly increased in the BSCB model. Pro-inflammation factors (TNF-α, IL-1β, iNOS, COX-2), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were also sharply produced during the acute period (3-6 hours) and maintained plateau levels 6-12 hours following OGD/R-induced damage, which overlapped with the period of BSCB permeability maximum. A negative linear correlation was observed between the abundance of proinflammatory factors and the expression of TJ proteins (ZO-1 and occludin) and transepithelial electrical resistance (TEER), and a positive linear correlation was found with transendothelial FITC-dextran.CONCLUSIONSSecondary damage continues after primary BSCB damage induced by OGD/R, exhibiting close ties with inflammation injury.
To characterize the microenvironment following blood-spinal cord barrier (BSCB) damage and to evaluate the role of BSCB disruption in secondary damage of spinal cord injury (SCI). A model of BSCB damage was established by co-culture of primary microvascular endothelial cells and glial cells obtained from rat spinal cord tissue followed by oxygen glucose deprivation/re-oxygenation (OGD/R). Permeability was evaluated by measuring the transendothelial electrical resistance (TEER) and the leakage test of Fluorescein isothiocyanate-dextran (FITC-dextran). The expression of tight junction (TJ) proteins (occludin and zonula occludens-1 (ZO-1) were evaluated by Western blot and immunofluorescence microscopy. Proinflammatory factors (TNF-α, iNOS, COX-2 and IL-1β), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were detected in the culture medium under different conditions by enzyme-linked immuno sorbent assay (ELISA). The model of BSCB damage induced by OGD/R was successfully constructed. The maximum BSCB permeability occurred 6-12 hours but not within the first 3 h after OGD/R-induced damage. Likewise, the most significant period of TJ protein loss was also detected 6-12 hours after induction. During the hyper-acute period (3 h) following OGD/R-induced damage of BSCB, leukocyte chemotactic factors and leukocyte adhesion factors were significantly increased in the BSCB model. Pro-inflammation factors (TNF-α, IL-1β, iNOS, COX-2), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were also sharply produced during the acute period (3-6 hours) and maintained plateau levels 6-12 hours following OGD/R-induced damage, which overlapped with the period of BSCB permeability maximum. A negative linear correlation was observed between the abundance of proinflammatory factors and the expression of TJ proteins (ZO-1 and occludin) and transepithelial electrical resistance (TEER), and a positive linear correlation was found with transendothelial FITC-dextran. Secondary damage continues after primary BSCB damage induced by OGD/R, exhibiting close ties with inflammation injury.
•The inflammatory mediators were increased after BSCB damage induced by OGD/R.•Tight junction proteins deteriorate persistently after BSCB damage induced by OGD/R.•BSCB permeability increases longitudinally after BSCB damage induced by OGD/R.•BSCB secondary damage and inflammation injury after OGD/R have a close relationship. To characterize the microenvironment following blood-spinal cord barrier (BSCB) damage and to evaluate the role of BSCB disruption in secondary damage of spinal cord injury (SCI). A model of BSCB damage was established by co-culture of primary microvascular endothelial cells and glial cells obtained from rat spinal cord tissue followed by oxygen glucose deprivation/re-oxygenation (OGD/R). Permeability was evaluated by measuring the transendothelial electrical resistance (TEER) and the leakage test of Fluorescein isothiocyanate-dextran (FITC-dextran). The expression of tight junction (TJ) proteins (occludin and zonula occludens-1 (ZO-1) were evaluated by Western blot and immunofluorescence microscopy. Proinflammatory factors (TNF-α, iNOS, COX-2 and IL-1β), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were detected in the culture medium under different conditions by enzyme-linked immuno sorbent assay (ELISA). The model of BSCB damage induced by OGD/R was successfully constructed. The maximum BSCB permeability occurred 6–12 hours but not within the first 3 h after OGD/R-induced damage. Likewise, the most significant period of TJ protein loss was also detected 6–12 hours after induction. During the hyper-acute period (3 h) following OGD/R-induced damage of BSCB, leukocyte chemotactic factors and leukocyte adhesion factors were significantly increased in the BSCB model. Pro-inflammation factors (TNF-α, IL-1β, iNOS, COX-2), leukocyte chemotactic factors (MIP-1α, MIP-1β) and leukocyte adhesion factors (ICAM-1, VCAM-1) were also sharply produced during the acute period (3–6 hours) and maintained plateau levels 6–12 hours following OGD/R-induced damage, which overlapped with the period of BSCB permeability maximum. A negative linear correlation was observed between the abundance of proinflammatory factors and the expression of TJ proteins (ZO-1 and occludin) and transepithelial electrical resistance (TEER), and a positive linear correlation was found with transendothelial FITC-dextran. Secondary damage continues after primary BSCB damage induced by OGD/R, exhibiting close ties with inflammation injury.
Author Li, Zai-Wang
Cai, Xiao-Jun
Xi, Guang-Jun
Lu, Yi
Zhao, Jing-Jing
Ren, Bing-Yan
Zhang, Jian-Ping
Cao, Ting-Ting
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/30086352$$D View this record in MEDLINE/PubMed
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Keywords Blood-spinal cord barrier
Oxygen glucose deprivation
Transepithelial electrical resistance
Tight junction proteins
Proinflammatory factors
Re-oxygenation
Language English
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SSID ssj0006856
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Snippet •The inflammatory mediators were increased after BSCB damage induced by OGD/R.•Tight junction proteins deteriorate persistently after BSCB damage induced by...
To characterize the microenvironment following blood-spinal cord barrier (BSCB) damage and to evaluate the role of BSCB disruption in secondary damage of...
OBJECTIVETo characterize the microenvironment following blood-spinal cord barrier (BSCB) damage and to evaluate the role of BSCB disruption in secondary damage...
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StartPage 171
SubjectTerms Blood-spinal cord barrier
Oxygen glucose deprivation
Proinflammatory factors
Re-oxygenation
Tight junction proteins
Transepithelial electrical resistance
Title The microenvironment following oxygen glucose deprivation/re-oxygenation-induced BSCB damage in vitro
URI https://dx.doi.org/10.1016/j.brainresbull.2018.08.005
https://www.ncbi.nlm.nih.gov/pubmed/30086352
https://search.proquest.com/docview/2085655598
Volume 143
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