Hydrogen sulfide prevents ethanol-induced ZO-1 CpG promoter hypermethylation-dependent vascular permeability via miR-218/DNMT3a axis

Ethanol (ET) causes cerebrovascular dysfunction by altering homocysteine (Hcy) metabolism and by causing oxidative stress. However, there are no strategies to prevent ET-induced epigenetic deregulation of tight junction protein (hyper-methylation) and endothelial cell permeability to date. Hydrogen sulfide (H2S) has an antioxidative, antiapoptotic, and anti-inflammatory effect. Here, we investigated the protective role of H2S in ET-induced endothelial permeability through epigenetic changes in mouse brain endothelial cells (bEnd3). The bEnd3 cells were exposed to 50 mM ET treatment in the presence or absence of 50 mu M NaHS (H2S donor). The result demonstrates that ET-induced cellular toxicity increased intracellular Hcy levels, which further intensified mitochondrial dysfunction and energy defects. Using miScript microRNA (miRNA) polymerase chain reaction array-based screening, we identified a particular miRNA, miR-218, as a novel target of ET-induced DNA methyltransferase-3a (DNMT3a) activation. miR-218 influences CpG island methylation of the zonula occludens 1 (ZO-1) promoter in the endothelial cells. We discovered that ET suppressed miR-218 levels and induced endothelial permeability via DNMT3a-mediated ZO-1 hyper-methylation. Treatment with mito-TEMPO (mitochondria-targeted antioxidant), 5 '-azacitidine (DNMT inhibitor), or miR-218 overexpression was shown to protect endothelial cells against ET-induced permeability. Also, bEnd3 cells pretreated with NaHS attenuated ET-induced vascular permeability and prevented CpG island methylation at the promoter. In conclusion, our data provide evidence that H2S treatment protects vascular integrity from ET-induced stress by mitigating CpG (ZO-1 promoter) DNA hyper-methylation. This finding uncovers a new mechanistic understanding of NaHS/H2S, that may have therapeutic potential in preventing or diminishing ET-induced brain vascular permeability and dysfunction induced by alcoholism.