期刊
ANTIOXIDANTS
卷 7, 期 12, 页码 -出版社
MDPI
DOI: 10.3390/antiox7120195
关键词
adrenoceptor; Ca2+/calmodulin-dependent protein kinase II (CaMKII); protein kinase A (PKA); protein kinase D (PKD); calcineurin; GTPase; mitochondrial permeability transition pore; apoptosis; phosphorylation
资金
- American Heart Association (AHA) [18CDA34110091]
- NIH/NHLBI [R01HL136757]
- NIH/NIGMS [P30GM1114750]
- AHA [16GRNT31170032, 16SDG27260248]
- Rhode Island Foundation Medical Research Grant [20164376]
- American Physiological Society (APS) 2017 Shih-Chun Wang Young Investigator Award
- Brown University Karen T. Romer Undergraduate Teaching and Research Award
Abnormal mitochondrial morphology, especially fragmented mitochondria, and mitochondrial dysfunction are hallmarks of a variety of human diseases including heart failure (HF). Although emerging evidence suggests a link between mitochondrial fragmentation and cardiac dysfunction, it is still not well described which cardiac signaling pathway regulates mitochondrial morphology and function under pathophysiological conditions such as HF. Mitochondria change their shape and location via the activity of mitochondrial fission and fusion proteins. This mechanism is suggested as an important modulator for mitochondrial and cellular functions including bioenergetics, reactive oxygen species (ROS) generation, spatiotemporal dynamics of Ca2+ signaling, cell growth, and death in the mammalian cell- and tissue-specific manners. Recent reports show that a mitochondrial fission protein, dynamin-like/related protein 1 (DLP1/Drp1), is post-translationally modified via cell signaling pathways, which control its subcellular localization, stability, and activity in cardiomyocytes/heart. In this review, we summarize the possible molecular mechanisms for causing post-translational modifications (PTMs) of DLP1/Drp1 in cardiomyocytes, and further discuss how these PTMs of DLP1/Drp1 mediate abnormal mitochondrial morphology and mitochondrial dysfunction under adrenergic signaling activation that contributes to the development and progression of HF.
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