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Involvement of Senescence and Mitochondrial Fission in Endothelial Cell Pro-Inflammatory Phenotype Induced by Angiotensin II

Masashi Miyao, Stephanie Cicalese, Tatsuo Kawai, Hannah Cooper, Michael Boyer, Katherine J. Elliott, Steven J. Forrester, Ryohei Kuroda, Victor Rizzo, Tomoki Hashimoto, Rosario Scalia, Satoru Eguchi

2020International Journal of Molecular Sciences42 citationsDOIOpen Access PDF

Abstract

Angiotensin II (AngII) has a crucial role in cardiovascular pathologies, including endothelial inflammation and premature vascular aging. However, the precise molecular mechanism underlying aging-related endothelial inflammation induced by AngII remains elusive. Here, we have tested a hypothesis in cultured rat aortic endothelial cells (ECs) that the removal of AngII-induced senescent cells, preservation of proteostasis, or inhibition of mitochondrial fission attenuates the pro-inflammatory EC phenotype. AngII stimulation in ECs resulted in cellular senescence assessed by senescence-associated β galactosidase activity. The number of β galactosidase-positive ECs induced by AngII was attenuated by treatment with a senolytic drug ABT737 or the chemical chaperone 4-phenylbutyrate. Monocyte adhesion assay revealed that the pro-inflammatory phenotype in ECs induced by AngII was alleviated by these treatments. AngII stimulation also increased mitochondrial fission in ECs, which was mitigated by mitochondrial division inhibitor-1. Pretreatment with mitochondrial division inhibitor-1 attenuated AngII-induced senescence and monocyte adhesion in ECs. These findings suggest that mitochondrial fission and endoplasmic reticulum stress have causative roles in endothelial senescence-associated inflammatory phenotype induced by AngII exposure, thus providing potential therapeutic targets in age-related cardiovascular diseases.

Topics & Concepts

Mitochondrial fissionSenescenceAngiotensin IICell biologyInflammationBiologyMitochondrionChemical chaperoneMitochondrial ROSUnfolded protein responseChemistryEndoplasmic reticulumImmunologyBiochemistryReceptorNeutrophil, Myeloperoxidase and Oxidative MechanismsTelomeres, Telomerase, and SenescenceAtherosclerosis and Cardiovascular Diseases
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