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首页> 外文期刊>Free Radical Biology and Medicine: The Official Journal of the Oxygen Society >Endoplasmic reticulum stress-induced iRhom2 up-regulation promotes macrophage-regulated cardiac inflammation and lipid deposition in high fat diet (HFD)-challenged mice: Intervention of fisetin and metformin
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Endoplasmic reticulum stress-induced iRhom2 up-regulation promotes macrophage-regulated cardiac inflammation and lipid deposition in high fat diet (HFD)-challenged mice: Intervention of fisetin and metformin

机译:内质网胁迫诱导的IRHOM2上调促进巨噬细胞调节的心脏炎症和高脂饮食(HFD)的脂质沉积 - 挑战小鼠:Fisetin和二甲双胍的干预

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摘要

Endoplasmic reticulum stress (ERS) has been implicated in obesity-associated cardiac remodeling and dysfunction. Inactive rhomboid protein 2 (iRhom2), also known as Rhbdf2, is an inactive member of the rhomboid intramembrane proteinase family, playing an essential role in regulating inflammation. Nevertheless, the role of ERS-meditated iRhom2 pathway in metabolic stress-induced cardiomyopathy remains unknown. In the study, we showed that 4-PBA, as an essential ERS inhibitor, significantly alleviated high fat diet (HFD)-induced metabolic disorder and cardiac dysfunction in mice. Additionally, lipid deposition in heart tissues was prevented by 4-PBA in HFD-challenged mice. Moreover, 4-PBA blunted the expression of iRhom2, TACE, TNFR2 and phosphorylated NF-kappa B to prevent HFD-induced expression of inflammatory factors. Further, 4-PBA restrained HFD-triggered oxidative stress by promoting Nrf-2 signaling. Importantly, 4-PBA markedly suppressed cardiac ERS in HFD mice. The anti-inflammation, anti-ERS and anti-oxidant effects of 4-PBA were verified in palmitate (PAL)-incubated macrophages and cardiomyocytes. In addition, promoting ERS could obviously enhance iRhom2 signaling in vitro. Intriguingly, our data demonstrated that PAL-induced iRhom2 up-regulation apparently promoted macrophage to generate inflammatory factors that could promote cardiomyocyte inflammation and lipid accumulation. Finally, interventions by adding fisetin or metformin significantly abrogated metabolic stress-induced cardiomyopathy through the mechanisms mentioned above. In conclusion, this study provided a novel mechanism for metabolic stress-induced cardiomyopathy pathogenesis. Therapeutic strategy to restrain ROS/ERS/iRhom2 signaling pathway could be developed to prevent myocardial inflammation and lipid deposition, consequently alleviating obesity-induced cardiomyopathy.
机译:内质网胁迫(ERS)涉及肥胖相关的心脏重塑和功能障碍。 Inalid rhomboid蛋白2(IRHOM2),也称为rhBDF2,是核心蛋白蛋白酶系列的非活性成员,在调节炎症方面发挥着重要作用。然而,ERS-Meditated Irhom2途径在代谢应激诱发的心肌病中的作用仍然未知。在该研究中,我们表明,4-PBA作为必不可少的ERS抑制剂,显着缓解高脂饮食(HFD)诱导小鼠的代谢紊乱和心脏功能障碍。另外,在HFD攻击小鼠中通过4-PBA预防心脏组织中的脂质沉积。此外,4-PBA钝化了IRHOM2,TACE,TNFR2和磷酸化NF-Kappa B的表达,以防止HFD诱导的炎症因子的表达。此外,通过促进NRF-2信号传导,4-PBA限制了HFD触发的氧化应激。重要的是,4-PBA明显抑制了HFD小鼠中的心脏病。 4-PBA的抗炎,抗抗氧化剂和抗氧化效果在棕榈酸盐(PAL) - incubated巨噬细胞和心肌细胞中验证。此外,促进ERS可以显然可以在体外增强IRHOM2信号传导。有趣的是,我们的数据表明,PAL诱导的IRHOM2上调显然促进了巨噬细胞,以产生可促进心肌细胞炎症和脂质积累的炎症因素。最后,通过在上述机制中添加Fisetin或二甲双胍显着消除代谢应激诱导的心肌病的干预措施。总之,本研究提供了一种新的代谢应激诱导的心肌病发病机制的新机制。可以开发用于抑制ROS / ERS ​​/ IRHOM2信号传导途径的治疗策略以防止心肌炎症和脂质沉积,从而减轻肥胖诱导的心肌病。

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