Abstract

To investigate whether long noncoding RNA H19 (lncRNA H19) induces vascular calcification by promoting calcium deposition, osteogenic differentiation and apoptosis via inhibiting the Bax inhibitor 1/optic atrophy 1 (BI-1/ OPA1) pathway. β-glycerophosphate and calcium chloride were used to induce calcification in rat vascular smooth muscle cells (VSMCs), and the effects of siH19, alone or in combination with BI-1 or OPA1 knockdown, on calcification of the cells were investigated. Osteogenic differentiation was assessed by measuring Runt-related transcription factor 2 (Runx-2) and bone morphogenetic protein 2 (BMP-2) expression with Western blotting, and cell apoptosis was evaluated by TUNEL staining and Western blotting. An ApoE-/- diabetic mouse model with high-fat feeding for 32 weeks were given an intraperitoneal injection of siH19, and the changes in calcium deposition in the aortic arch were examined using Alizarin red S staining and von Kossa staining. In rat VSMCs with calcification, the expression of lncRNA H19 was significantly increased, and the expressions of BI- 1 and OPA1 were significantly decreased. Downregulation of lncRNA H19 significantly increased the expressions of BI-1 and OPA1 proteins in the cells, and BI-1 knockdown further reduced OPA1 expression (P<0.001). The cells treated with siH19 showed total disappearance of the calcified nodules with significantly reduced expressions of Runx-2, BMP-2 and cleaved caspase-3 and a lowered cell apoptosis rate (P<0.001). Calcified nodules were again observed in the cells with lncRNA H19 knockdown combined with BI-1 or OPA1 knockdown, and the expressions of Runx-2, BMP-2, cleaved-caspase-3 and cell apoptosis rate all significantly increased (P<0.001). In the diabetic mouse model with high-fat feeding, siH19 treatment significantly reduced the calcification area and increased mRNA expressions of BI-I and OPA1 in the aortic arch. LncRNA H19 promotes vascular calcification possibly by promoting calcium deposition, osteogenic differentiation and cell apoptosis via inhibiting the BI-1/OPA1 pathway.

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