Abstract
Abdominal aortic aneurysm (AAA) is a common chronic aortic degenerative disease. Long non-coding RNA X-inactive specific transcript (XIST) is associated with the progression of AAA, while the underlying mechanism is still unclear. We investigated the functional role of XIST in AAA. AAA mouse model was established by administration of Angiotensin II (Ang II). Primary mouse vascular smooth muscle cells (VSMCs) were separated from the abdominal aorta of Ang II-induced AAA mice, and then treated with Ang II. XIST was highly expressed in Ang II-treated VSMCs. Cell proliferation ability was decreased and apoptosis was increased in VSMCs following Ang II treatment. XIST knockdown reversed the impact of Ang II on cell proliferation and apoptosis in VSMCs. XIST promoted mitogen-activated protein kinase kinase 4 (MAP2K4) expression by sponging miR-762. XIST overexpression suppressed cell proliferation and apoptosis of Ang II-treated VSMCs by regulating miR-762/MAP2K4 axis. Finally, Ang II-induced AAA mouse model was established to verify the function of XIST in AAA. Inhibition of XIST significantly attenuated the pathological changes of abdominal aorta tissues in Ang II-induced mice. The expression of miR-762 was inhibited, and MAP2K4 expression was enhanced by XIST knockdown in the abdominal aorta tissues of AAA mice. In conclusion, these data demonstrate that inhibition of XIST attenuates AAA in mice, which attributes to inhibit apoptosis of VSMCs by regulating miR-762/MAP2K4 axis. Thus, this study highlights a novel ceRNA circuitry involving key regulators in the pathogenesis of AAA.