Conclusions
We provided the first evidence that miR-17∼92 inhibits PDLIM5 to induce the TGF-β3/SMAD3 pathway, contributing to the pathogenesis of PAH.
Methods
We generated smooth muscle cell (SMC)-specific miR-17∼92 and PDZ and LIM domain 5 (PDLIM5) knockout mice and overexpressed miR-17∼92 and PDLIM5 by injection of miR-17∼92 mimics or PDLIM5-V5-His plasmids and measured their responses to hypoxia. We used miR-17∼92 mimics, inhibitors, overexpression vectors, small interfering RNAs against PDLIM5, Smad, and transforming growth factor (TGF)-β to determine the role of miR-17∼92 and its downstream targets in PASMC proliferation and differentiation. Measurements and main
Results
We found that human PASMC (HPASMC) from patients with PAH expressed decreased levels of the miR-17∼92 cluster, TGF-β, and SMC markers. Overexpression of miR-17∼92 increased and restored the expression of TGF-β3, Smad3, and SMC markers in HPASMC of normal subjects and patients with idiopathic PAH, respectively. Knockdown of Smad3 but not Smad2 prevented miR-17∼92-induced expression of SMC markers. SMC-specific knockout of miR-17∼92 attenuated hypoxia-induced pulmonary hypertension (PH) in mice, whereas reconstitution of miR-17∼92 restored hypoxia-induced PH in these mice. We also found that PDLIM5 is a direct target of miR-17/20a, and hypertensive HPASMC and mouse PASMC expressed elevated PDLIM5 levels. Suppression of PDLIM5 increased expression of SMC markers and enhanced TGF-β/Smad2/3 activity in vitro and enhanced hypoxia-induced PH in vivo, whereas overexpression of PDLIM5 attenuated hypoxia-induced PH. Conclusions: We provided the first evidence that miR-17∼92 inhibits PDLIM5 to induce the TGF-β3/SMAD3 pathway, contributing to the pathogenesis of PAH.