Literature DB >> 25757751

Dexamethasone potentiates in vitro blood-brain barrier recovery after primary blast injury by glucocorticoid receptor-mediated upregulation of ZO-1 tight junction protein.

Christopher D Hue1, Frances S Cho1, Siqi Cao1, Cameron R Dale Bass2, David F Meaney3, Barclay Morrison1.   

Abstract

Owing to the frequent incidence of blast-induced traumatic brain injury (bTBI) in recent military conflicts, there is an urgent need to develop effective therapies for bTBI-related pathologies. Blood-brain barrier (BBB) breakdown has been reported to occur after primary blast exposure, making restoration of BBB function and integrity a promising therapeutic target. We tested the hypothesis that treatment with dexamethasone (DEX) after primary blast injury potentiates recovery of an in vitro BBB model consisting of mouse brain endothelial cells (bEnd.3). DEX treatment resulted in complete recovery of transendothelial electrical resistance and hydraulic conductivity 1 day after injury, compared with 3 days for vehicle-treated injured cultures. Administration of RU486 (mifepristone) inhibited effects of DEX, confirming that barrier restoration was mediated by glucocorticoid receptor signaling. Potentiated recovery with DEX treatment was accompanied by stronger zonula occludens (ZO)-1 tight junction immunostaining and expression, suggesting that increased ZO-1 expression was a structural correlate to BBB recovery after blast. Interestingly, augmented ZO-1 protein expression was associated with specific upregulation of the α(+) isoform but not the α(-) isoform. This is the first study to provide a mechanistic basis for potentiated functional recovery of an in vitro BBB model because of glucocorticoid treatment after primary blast injury.

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Year:  2015        PMID: 25757751      PMCID: PMC4640274          DOI: 10.1038/jcbfm.2015.38

Source DB:  PubMed          Journal:  J Cereb Blood Flow Metab        ISSN: 0271-678X            Impact factor:   6.200


  40 in total

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2.  Differential effects of hydrocortisone and TNFalpha on tight junction proteins in an in vitro model of the human blood-brain barrier.

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5.  Increase in blood-brain barrier permeability, oxidative stress, and activated microglia in a rat model of blast-induced traumatic brain injury.

Authors:  Ryan D Readnower; Mikulas Chavko; Saleena Adeeb; Michael D Conroy; James R Pauly; Richard M McCarron; Patrick G Sullivan
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Review 6.  Blood-brain barrier breakdown as a therapeutic target in traumatic brain injury.

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Authors:  Serge C Thal; Eva-Verena Schaible; Winfried Neuhaus; David Scheffer; Moritz Brandstetter; Kristin Engelhard; Christian Wunder; Carola Y Förster
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9.  Induction of oxidative and nitrosative damage leads to cerebrovascular inflammation in an animal model of mild traumatic brain injury induced by primary blast.

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10.  Bryostatin-1 Restores Blood Brain Barrier Integrity following Blast-Induced Traumatic Brain Injury.

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3.  Dexamethasone retrodialysis attenuates microglial response to implanted probes in vivo.

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4.  Dexamethasone suppresses JMJD3 gene activation via a putative negative glucocorticoid response element and maintains integrity of tight junctions in brain microvascular endothelial cells.

Authors:  Wonho Na; Jee Y Shin; Jee Y Lee; Sangyun Jeong; Won-Sun Kim; Tae Y Yune; Bong-Gun Ju
Journal:  J Cereb Blood Flow Metab       Date:  2017-03-24       Impact factor: 6.200

5.  Neuroadhesive L1 coating attenuates acute microglial attachment to neural electrodes as revealed by live two-photon microscopy.

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Review 6.  Neurovascular glucocorticoid receptors and glucocorticoids: implications in health, neurological disorders and drug therapy.

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7.  Heat Shock Proteins Accelerate the Maturation of Brain Endothelial Cell Glucocorticoid Receptor in Focal Human Drug-Resistant Epilepsy.

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8.  In vivo imaging of calcium and glutamate responses to intracortical microstimulation reveals distinct temporal responses of the neuropil and somatic compartments in layer II/III neurons.

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9.  TRA2A-induced upregulation of LINC00662 regulates blood-brain barrier permeability by affecting ELK4 mRNA stability in Alzheimer's microenvironment.

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10.  Tumour-associated macrophage-derived interleukin-1 mediates glioblastoma-associated cerebral oedema.

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