Autophagy is a self-digestive process that is conserved in eukaryotic cells and responsible for maintaining cellular homeostasis through proteolysis. By this process, cells break down their own components in lysosomes. Autophagy can be classified into three categories: macroautophagy, microautophagy, and chaperone-mediated autophagy (CMA). Macroautophagy involves membrane elongation and microautophagy involves membrane internalization, and both pathways undergo selective or non-selective processes that transport cytoplasmic components into lysosomes to be degraded. CMA, however, involves selective incorporation of cytosolic materials into lysosomes without membrane deformation. All three categories of autophagy have attracted much attention due to their involvement in various biological phenomena and their relevance to human diseases, such as neurodegenerative diseases and cancer. Clarification of the molecular mechanisms behind these processes is key to understanding autophagy and recent studies have made major progress in this regard, especially for the mechanisms of initiation and membrane elongation in macroautophagy and substrate recognition in microautophagy and CMA. Furthermore, it is becoming evident that the three categories of autophagy are related to each other despite their implementation by different sets of proteins and the involvement of completely different membrane dynamics. In this review, recent progress in macroautophagy, microautophagy, and CMA are summarized.
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Article Synopsis
- Autophagy is a cellular recycling process that helps manage damaged components, playing a crucial role in heart health through three forms: macro-autophagy, micro-autophagy, and chaperone-mediated autophagy.
- Regulation of autophagy in heart cells (cardiomyocytes) is essential during stress conditions like ischemia, leading to myocardial remodeling, which can cause heart failure.
- This review highlights recent findings on autophagy's protective effects against cardiac remodeling, the underlying molecular mechanisms, potential new treatments, and future challenges in applying autophagy research to heart disease.
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