4.7 Article

Cardiac-specific CGI-58 deficiency activates the ER stress pathway to promote heart failure in mice

Journal

CELL DEATH & DISEASE
Volume 12, Issue 11, Pages -

Publisher

SPRINGERNATURE
DOI: 10.1038/s41419-021-04282-7

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Funding

  1. National Natural Science Foundation of China [81630009, 81600315]
  2. Natural Science Foundation of Liaoning Province [2020-MS-269]

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This study revealed the importance of CGI-58 in maintaining heart function, with CGI-58 knockout leading to cardiac hypertrophic remodeling and dysfunction, while CGI-58 injection alleviated these adverse effects. Proteomic analysis showed that ER stress plays a crucial role in cardiac hypertrophy and dysfunction.
Excess myocardial triacylglycerol accumulation (i.e., cardiac steatosis) impairs heart function, suggesting that enzymes promoting triacylglycerol metabolism exert essential regulatory effects on heart function. Comparative gene identification 58 (CGI-58) is a key enzyme that promotes the hydrolysis of triglycerides by activating adipose triglyceride lipase and plays a protective role in maintaining heart function. In this study, the effects of CGI-58 on heart function and the underlying mechanism were investigated using cardiac-specific CGI58-knockout mice (CGI-58(cko) mice). Echocardiography and pathological staining were performed to detect changes in the structure and function of the heart. Proteomic profiling, immunofluorescent staining, western blotting, and real-time PCR were used to evaluate molecular changes. In CGI-58(cko) mice, we detected cardiac hypertrophic remodeling and heart failure associated with excessive cardiac lipid accumulation, ROS production, and decreased expression of regulators of fatty acid metabolism. These changes were markedly attenuated in CGI-58(cko) mice injected with rAAV9-CGI58. A quantitative proteomics analysis revealed significant increases in the expression of ER stress-related proteins and decreases in proteins related to fatty acid and amino acid metabolism in the hearts of CGI-58(cko) mice. Furthermore, the inhibition of ER stress by the inhibitor 4-PBA improved mitochondrial dysfunction, reduced oxidative stress, and reversed cardiac remodeling and dysfunction in cultured cardiomyocytes or in CGI-58(cko) mice. Our results suggested that CGI-58 is essential for the maintenance of heart function by reducing lipid accumulation and ER stress in cardiomyocytes, providing a new therapeutic target for cardiac steatosis and dysfunction.

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