Loss-of function SNPs for Sirt3 (a mitochondrial deacetylase) and Ucp2 (an atypical uncoupling protein enabling mitochondrial calcium entry) have been associated with insulin resistance and obesity in humans; and patients… Click to show full abstract
Loss-of function SNPs for Sirt3 (a mitochondrial deacetylase) and Ucp2 (an atypical uncoupling protein enabling mitochondrial calcium entry) have been associated with insulin resistance and obesity in humans; and patients with PAH have insulin resistance without being obese. In a cohort of PAH patients (n=60) we found these SNPs often both in the same patient in a homozygous or heterozygous manner and their presence correlated positively with the degree of PAH upon referral, the presence of type II diabetes and outcomes (death, transplantation). We generated and studied double KO mice for Sirt3 and Ucp2 using closed-chest right heart catheterization and echocardiography and found increasing severity of pulmonary hypertension (PHT) in Sirt3 +/- -Ucp2 +/ - , Sirt3 -/- -Ucp2 +/ - , Sirt3 +/- -Ucp2 -/- and Sirt3 -/- -Ucp2 -/- , associated with decreasing cardiac output and increasing right ventricular hypertrophy, dilatation and dysfunction (TAPSE), compared to wild-type (WT) mice. The LVEDP in all mice was normal. There was increasing severity of vascular remodeling with increasing levels of CD4 + cell infiltration, while Sirt3 -/- -Ucp2 +/- , Sirt3 +/- -Ucp2 -/- and Sirt3 -/- -Ucp2 -/- mice also developed frequent plexogenic lesions. In vivo and in vitro pulmonary artery smooth muscle cells (PASMC) expressed higher levels of Ki67, compared to WT mice. In vitro, the Sirt3 -/- -Ucp2 +/- , Sirt3 +/- -Ucp2 -/- and Sirt3 -/- -Ucp2 -/- PASMC exhibited more apoptosis-resistance, expressed higher nuclear levels of proliferative transcription factors (HIF1, NFATc2), exhibited decreased respiration and higher levels of glycolysis, similarly to previous reports of animal and human PAH PASMC. The Sirt3 -/- -Ucp2 -/- , but not the WT mice, also developed in vivo evidence of insulin resistance. Our work supports the metabolic theory of PAH and shows that these mice exhibit spontaneous severe PHT (without environmental or chemical triggers) in a gene dose-response dependent manner that mimics human PAH. No other mouse model of PHT has shown frequent and predictable plexogenic lesions. Our study is relevant to the PAH patients that carry loss-of-function SNPs of mitochondrial proteins and offers a new mouse model of PAH, with more features of human PAH than previous mice models.
               
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