Exosomal shuttled miR-424-5p from ischemic preconditioned microglia mediates cerebral endothelial cell injury through negatively regulation of FGF2/STAT3 pathway.

Exosomes secreted by microglia have been found to play a role in neurovascular unit injury under the ischemic/hypoxic state. However, the modulatory effect of exosomes shuttled miRNAs produced by microglia in endothelial cells remains undefined. Here, an oxygen-glucose deprivation (OGD) model was constructed both in microglia and brain microvascular endothelial cells (BMEC). The exosomes secreted by microglia were isolated, and the exosomal miRNA profile was detected. Next, gain- and loss- functions of miR-424-5p, one of the most differentially expressed miRNAs in microglia derived exosomes, were conducted in BMEC. The results demonstrated that exosomes from OGD-activated microglia aggravated OGD induced BMEC viability and integrity damage as well as the loss of vascular formation. While the damaging effects were markedly attenuated by inhibiting miR-424-5p. In addition, miR-424-5p overexpression significantly aggravated OGD induced BMEC damage and permeability. Mechanistically, bioinformatics analysis indicated that miR-424-5p targeted the FGF2 mediated signaling pathway, which was verified via dual luciferase activity assay and RIP experiment. Furthermore, in vivo experiments in the middle cerebral artery occlusion (MCAO) model mice were conducted. The results revealed that inhibition of miR-424-5p markedly reduced neurological dysfunctions and endothelial cell injury induced by MCAO. The above results confirmed that exosomes from OGD activated microglia induced significant cell damage and permeability of BMEC, in which the upregulated miR-424-5p in the exosomes functioned by regulating pathway.

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