SIRT3 Ablation Deteriorates Obesity-Related Cardiac Remodeling by Modulating ROS-NF-κB-MCP-1 Signaling Pathway.

Abstract

Obesity and the associated complications are a major public health issue as obesity incidence increases yearly, worldwide. Effects of obesity on heart failure have been reported previously. Obesity-related cardiac remodeling includes structural and functional dysfunctions, in which cardiac inflammation and fibrosis play a key role. The main mitochondrial deacetylase, SIRT3 participates in numerous cellular processes; however, its role in obesity-related cardiac remodeling remains unclear. In our study, high-fat diet (HFD) feeding induced downregulation of SIRT3 protein level in mice. SIRT3-KO mice fed on HFD exhibited higher cardiac dysfunction and cardiac remodeling compared with the wild-type controls. Further study revealed increases in collagen accumulation and inflammatory cytokine expression including MCP-1, IL-6, TGF-β, TNF-α in mice fed on HFD compared with chow diet, with higher levels observed in SIRT3-KO mice. Furthermore, significantly high levels of cardiac MCP-1 expression and macrophage infiltration, and ROS generation and activated NF-κB were observed in HFD-fed SIRT3-KO mice. We presumed that SIRT3 ablation-mediated MCP-1 upregulation is attributed to ROS-NF-κB activation. Thus, we concluded that SIRT3 prevents obesity-related cardiac remodeling by attenuating cardiac inflammation and fibrosis, through modulation of ROS-NF-κB-MCP-1 pathway.