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Article Abstract
The gap connexins of astrocytes play a crucial role in facilitating neuronal coordination and maintaining the homeostasis of the central nervous system. Cx30/Cx43 are the main proteins constituting these gap junctions, and the glutamate transporter EAAT1 associates with nerve injury. However, the role and mechanism underlying the changes of astrocytic connexins and EAAT1 during cerebral ischemia-reperfusion injury remain unclear. In this study, we investigated the expressions of Cx30, Cx43, and EAAT1 in OGD/R-treated astrocytes and in a MCAO/R animal model using gap junction inhibitors and siRNAs targeting Cx43 and Cx30. The differences of cell viability, malondialdehyde (MDA), superoxide dismutase (SOD), catalase (CAT), reactive oxygen species (ROS) and glutamate in cells and tissues were detected. Our results indicate that OGD/R exposure leads to the decline of astrocyte activity, which, in turn, adversely affects neuronal health. Ischemia-reperfusion induced increasing Cx43 and EAAT1 expression and decreasing Cx30 expression in astrocytes and animal brain tissue. Moreover, ischemia-reperfusion resulted in heightened MDA and ROS levels and reduced CAT and SOD activities in both astrocytes and the surrounding brain tissue. The release of glutamate from astrocytes and its concentration in animal brain tissue significantly increased following ischemia-reperfusion. Inhibition Cx43 expression through Gap26 or siRNA effectively mitigated the increase in EAAT1 and glutamate levels, as well as the oxidative stress changes induced by ischemia-reperfusion. Therefore, Brain astrocytes may mediate the effects of cerebral ischemia-reperfusion injury by influencing glutamate transporters and glutamate dynamics in response to oxidative stress through Cx30/Cx43.
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| http://dx.doi.org/10.1016/j.brainres.2024.149306 | DOI Listing |
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