DRP1 在肥胖性心肌病症中的常规和选择性线粒体自噬中的不同作用。
Distinct Roles of DRP1 in Conventional and Alternative Mitophagy in Obesity Cardiomyopathy.
机构信息
Department of Cell Biology and Molecular Medicine (M.T., R.M., S.M., P.Z., S.-i.O., W.M., G.J.B., J.S.), Rutgers New Jersey Medical School, Newark.
Division of Cardiovascular Surgery, Department of Surgery, Taipei Veterans General Hospital, Taiwan (C.-Y.H., C.-P.H.).
出版信息
Circ Res. 2023 Jun 23;133(1):6-21. doi: 10.1161/CIRCRESAHA.123.322512. Epub 2023 May 26.
BACKGROUND
Obesity induces cardiomyopathy characterized by hypertrophy and diastolic dysfunction. Whereas mitophagy mediated through an Atg7 (autophagy related 7)-dependent mechanism serves as an essential mechanism to maintain mitochondrial quality during the initial development of obesity cardiomyopathy, Rab9 (Ras-related protein Rab-9A)-dependent alternative mitophagy takes over the role during the chronic phase. Although it has been postulated that DRP1 (dynamin-related protein 1)-mediated mitochondrial fission and consequent separation of the damaged portions of mitochondria are essential for mitophagy, the involvement of DRP1 in mitophagy remains controversial. We investigated whether endogenous DRP1 is essential in mediating the 2 forms of mitophagy during high-fat diet (HFD)-induced obesity cardiomyopathy and, if so, what the underlying mechanisms are.
METHODS
Mice were fed either a normal diet or an HFD (60 kcal %fat). Mitophagy was evaluated using cardiac-specific Mito-Keima mice. The role of DRP1 was evaluated using tamoxifen-inducible cardiac-specific Drp1knockout (Drp1 MCM) mice.
RESULTS
Mitophagy was increased after 3 weeks of HFD consumption. The induction of mitophagy by HFD consumption was completely abolished in MCM mouse hearts, in which both diastolic and systolic dysfunction were exacerbated. The increase in LC3 (microtubule-associated protein 1 light chain 3)-dependent general autophagy and colocalization between LC3 and mitochondrial proteins was abolished in MCM mice. Activation of alternative mitophagy was also completely abolished in MCM mice during the chronic phase of HFD consumption. DRP1 was phosphorylated at Ser616, localized at the mitochondria-associated membranes, and associated with Rab9 and Fis1 (fission protein 1) only during the chronic, but not acute, phase of HFD consumption.
CONCLUSIONS
DRP1 is an essential factor in mitochondrial quality control during obesity cardiomyopathy that controls multiple forms of mitophagy. Although DRP1 regulates conventional mitophagy through a mitochondria-associated membrane-independent mechanism during the acute phase, it acts as a component of the mitophagy machinery at the mitochondria-associated membranes in alternative mitophagy during the chronic phase of HFD consumption.
背景
肥胖可引起以心肌肥厚和舒张功能障碍为特征的心肌病。虽然通过 Atg7(自噬相关蛋白 7)依赖性机制介导的噬线粒体作用是肥胖性心肌病初始发生过程中维持线粒体质量的基本机制,但 Rab9(Ras 相关蛋白 Rab-9A)依赖性替代噬线粒体在慢性阶段发挥作用。虽然有人假设 DRP1(动力相关蛋白 1)介导的线粒体裂变以及随后受损线粒体部分的分离对于噬线粒体至关重要,但 DRP1 参与噬线粒体的作用仍存在争议。我们研究了内源性 DRP1 是否在介导高脂肪饮食(HFD)诱导的肥胖性心肌病中两种形式的噬线粒体中起关键作用,如果是这样,其潜在机制是什么。
方法
用正常饮食或 HFD(60 kcal%fat)喂养小鼠。用心脏特异性 Mito-Keima 小鼠评估噬线粒体作用。用他莫昔芬诱导的心脏特异性 Drp1 敲除(Drp1 MCM)小鼠评估 DRP1 的作用。
结果
HFD 摄入 3 周后,噬线粒体作用增加。HFD 摄入诱导的噬线粒体作用在 MCM 小鼠心脏中完全被阻断,而 MCM 小鼠心脏舒张和收缩功能均加剧。在 MCM 小鼠中,LC3(微管相关蛋白 1 轻链 3)依赖性泛噬作用的增加和 LC3 与线粒体蛋白的共定位均被阻断。在 HFD 慢性摄入期间,替代噬线粒体作用的激活也在 MCM 小鼠中完全被阻断。DRP1 在 Ser616 处磷酸化,定位于线粒体相关膜上,并且仅在 HFD 慢性摄入而不是急性摄入期间与 Rab9 和 Fis1(分裂蛋白 1)相关。
结论
DRP1 是肥胖性心肌病中线粒体质量控制的必需因素,可控制多种形式的噬线粒体作用。虽然在急性阶段,DRP1 通过一种与线粒体相关膜无关的机制调节常规噬线粒体作用,但在 HFD 慢性摄入期间,它作为替代噬线粒体作用的噬线粒体机制的组成部分在与线粒体相关的膜上发挥作用。
Zotero 插件