Abstract
ObjectiveWe attempt to investigate the role of TNFRSF1A and its underlying mechanism in oxygen-glucose deprivation/reoxygenation (OGD/R)-induced injury in rat pheochromocytoma PC12 cells. MethodsPublic datasets GSE61616 and GSE106680 were downloaded from GEO database. PC12 cells were used to construct OGD/R models. QRT-PCR and western blot were implemented to test the relative mRNA and protein levels, respectively. The miRNA online prediction website TargetScan was used to predict TNFRSF1A upstream regulated miRNAs, which were then confirmed by luciferase reporter assay. The changes in cell viability and apoptosis were evaluated using cell counting kit 8 (CCK-8), lactose dehydrogenase (LDH), and flow cytometry assays. ResultsBioinformatics analysis demonstrated that the expression of TNFRSF1A was upregulated in CI/RI and middle cerebral artery occlusion models compared with control, respectively. And a significant upregulation was also observed in OGD/R-damaged PC12 cells. Depletion of TNFRSF1A can notably enhance the cells proliferation after OGD/R treatment, while enlargement of TNFRSF1A presented the opposite outcomes. Moreover, miR-29a-3p was shown to be the upstream regulatory miRNA of TNFRSF1A. The levels of TNFRSF1A were inversely mediated by miR-29a-3p. Overexpression of miR-29a-3p can raise the cell viability, decrease the LDH activity, and reduce the apoptotic ratio in OGD/R-treated cells. Besides, TNFRSF1A can attenuate the protective effect of miR-29a-3p on OGD/R-treated cells. Furthermore, miR-29a-3p mimic inhibited, while overexpression of TNFRSF1A promoted the activation of NF-κB signaling pathway, and TNFRSF1A can attenuate the suppressive effect of miR-29a-3p on the NF-κB pathway. ConclusionOur research illustrated that the potential regulatory role of miR-29a-3p/TNFRSF1A axis in neurons cells suffered from OGD/R, and their effects on NF-κB signaling pathway, providing a possible bio-target for protecting cells from OGD/R damage .
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