Astrocytes appear to be important regulators of the inflammatory events that occur in stroke. Sulfiredoxin-1 (Srxn1), an endogenous antioxidant protein, exhibits neuroprotective effects. Although the mechanism by which Srxn1 negatively regulates oxidative and apoptotic pathways has been extensively characterized, the impact of Srxn1 on inflammation has not been well studied. In this study, we used oxygen-glucose deprivation followed by recovery (OGD/R) and hydrogen peroxide (H2O2) to mimic stress from cerebral ischemic damage on primary cultured astrocytes. We found that knockdown of Srxn1 by two shRNAs resulted in decreased cell viability of astrocytes. Decreased level of Srxn1 also correlated with excessive levels of proinflammatory cytokines and chemokines such as TNF-α, MPO, IL-1β, and IL-6. In addition, Srxn1 appeared to influence the strength of TLR4 signaling pathway; the expression of COX-2, IL-6, and NOS2 were strongly induced by OGD/R and H2O2 in astrocyte cultures with Srxn1-shRNAs. Our results suggested that loss of Srxn1 expression in astrocytes may cause excessive activation of inflammatory responses which contribute to OGD/R- and H2O2-induced cell death. Restoring Srxn1 function by gene therapy and/or pharmacology emerges as a promising strategy for the treatment of stroke and other chronic neurodegenerative diseases.
Keywords: Astrocytes; Inflammation; Ischemia; Sulfiredoxin-1.
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