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Empagliflozin Suppresses the Differentiation/Maturation of Human Epicardial Preadipocytes and Improves Paracrine Secretome Profile

M. Takano, Hidekazu Kondo, Taisuke Harada, Masaki Takahashi, Yumi Ishii, Hirochika Yamasaki, Shan Tong, Kumiko Akiyoshi, Takashi Shuto, Yasushi Teshima, Tomoyuki Wada, Kunio Yufu, Hidenori Sako, Hirofumi Anai, Shinji Miyamoto, Naohiko Takahashi

2023JACC Basic to Translational Science38 citationsDOIOpen Access PDF

Abstract

Sodium-glucose cotransporter 2 (SGLT2) inhibitors reduce epicardial adipose tissue (EAT) in humans, enhancing cardioprotective effects on heart failure and atrial fibrillation. We investigated the direct effect of the SGLT2 inhibitor empagliflozin on human primary epicardial adipocytes and preadipocytes. SGLT2 is primarily expressed in human preadipocytes in the EAT. The expression levels of SGLT2 significantly diminished when the preadipocytes were terminally differentiated. Adipogenesis of preadipocytes was attenuated by empagliflozin treatment without affecting cell proliferation. The messenger RNA levels and secreted protein levels of interleukin 6 and monocyte chemoattractant protein 1 were significantly decreased in empagliflozin-treated adipocytes. Coculture of human induced pluripotent stem cell–derived atrial cardiomyocytes and adipocytes pretreated with or without empagliflozin revealed that empagliflozin significantly suppressed reactive oxygen species. IL6 messenger RNA expression in human EAT showed significant clinically relevant associations. Empagliflozin suppresses human epicardial preadipocyte differentiation/maturation, likely inhibiting epicardial adipogenesis and improving the paracrine secretome profile of EAT, particularly by regulating IL6 expression.

Topics & Concepts

EmpagliflozinAdipogenesisEndocrinologyParacrine signallingInternal medicineAdipose tissueLipotoxicityCell biologyChemistryBiologyMedicineInsulinReceptorInsulin resistanceDiabetes mellitusType 2 diabetesCardiovascular Disease and AdiposityCardiovascular Function and Risk FactorsCardiovascular, Neuropeptides, and Oxidative Stress Research
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