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S-nitrosylation of AMPKγ impairs coronary collateral circulation and disrupts VSMC reprogramming

Wen‐Wu Bai, Tao Guo, Han Wang, Bin Li, Quan Fang Sun, Wanzhou Wu, Jiaxiong Zhang, Jipeng Zhou, Jingmin Luo, Mo‐Li Zhu, Jun‐Xiu Lu, Peng Li, Bo Dong, Shu-fang Han, Xinyan Pang, Guogang Zhang, Yongping Bai, Shuangxi Wang

2023EMBO Reports17 citationsDOIOpen Access PDF

Abstract

Abstract Collateral circulation is essential for blood resupply to the ischemic heart, which is dictated by the contractile phenotypic restoration of vascular smooth muscle cells (VSMC). Here we investigate whether S-nitrosylation of AMP-activated protein kinase (AMPK), a key regulator of the VSMC phenotype, impairs collateral circulation. In rats with collateral growth and development, nitroglycerin decreases coronary collateral blood flow (CCBF), inhibits vascular contractile phenotypic restoration, and increases myocardial infarct size, accompanied by reduced AMPK activity in the collateral zone. Nitric oxide (NO) S-nitrosylates human recombinant AMPKγ1 at cysteine 131 and decreases AMP sensitivity of AMPK. In VSMCs, exogenous expression of S-nitrosylation-resistant AMPKγ1 or deficient NO synthase (iNOS) prevents the disruption of VSMC reprogramming. Finally, hyperhomocysteinemia or hyperglycemia increases AMPKγ1 S-nitrosylation, prevents vascular contractile phenotypic restoration, reduces CCBF, and increases the infarct size of the heart in Apoe -/- mice, all of which is rescued in Apoe -/- /iNOS sm-/- mice or Apoe -/- mice with enforced expression of the AMPKγ1-C130A mutant following RI/MI. We conclude that nitrosative stress disrupts coronary collateral circulation during hyperhomocysteinemia or hyperglycemia through AMPK S-nitrosylation.

Topics & Concepts

AMPKInternal medicineAMP-activated protein kinaseEndocrinologyProtein kinase AVascular smooth muscleAsymmetric dimethylarginineBiologyChemistryCell biologyMedicinePhosphorylationBiochemistryArginineAmino acidSmooth muscleMetabolism, Diabetes, and CancerPancreatic function and diabetesDiet, Metabolism, and Disease