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Intracellular Chloride Channels Regulate Endothelial Metabolic Reprogramming in Pulmonary Arterial Hypertension.

American journal of respiratory cell and molecular biology (2022-10-21)
Mai M Alzaydi, Vahitha B Abdul-Salam, Harry J Whitwell, Giusy Russomanno, Angelos Glynos, Daria Capece, Gyorgy Szabadkai, Martin R Wilkins, Beata Wojciak-Stothard
RÉSUMÉ

Mitochondrial fission and a metabolic switch from oxidative phosphorylation to glycolysis are key features of vascular pathology in pulmonary arterial hypertension (PAH) and are associated with exuberant endothelial proliferation and apoptosis. The underlying mechanisms are poorly understood. We describe the contribution of two intracellular chloride channel proteins, CLIC1 and CLIC4, both highly expressed in PAH and cancer, to mitochondrial dysfunction and energy metabolism in PAH endothelium. Pathological overexpression of CLIC proteins induces mitochondrial fragmentation, inhibits mitochondrial cristae formation, and induces metabolic shift toward glycolysis in human pulmonary artery endothelial cells, consistent with changes observed in patient-derived cells. Interactions of CLIC proteins with structural components of the inner mitochondrial membrane offer mechanistic insights. Endothelial CLIC4 excision and mitofusin 2 supplementation have protective effects in human PAH cells and preclinical PAH. This study is the first to demonstrate the key role of endothelial intracellular chloride channels in the regulation of mitochondrial structure, biogenesis, and metabolic reprogramming in expression of the PAH phenotype.

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HIF-2α Translation Inhibitor, The HIF-2α Translation Inhibitor, also referenced under CAS 882268-69-1, controls the biological activity of HIF-2α. This small molecule/inhibitor is primarily used for Cell Structure applications.