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Mitophagy
Mitophagy is the selective degradation of mitochondria by autophagy. It often occurs to defective mitochondria following damage or stress. This process was first mentioned by J.J. Lemasters in 2005, although lysosomes in the liver that contained mitochondrial fragments had been seen as early as 1962, “As part of almost every lysosome in these glucagon-treated cells it is possible to recognize a mitochondrion or a remnant of one. It was also mentioned in 1977 by scientists studying metamorphosis in silkworms, “...mitochondria develop functional alterations which would activate autophagy." Mitophagy is key in keeping the cell healthy. It promotes turnover of mitochondria and prevents accumulation of dysfunctional mitochondria which can lead to cellular degeneration. It is mediated by Atg32 (in yeast) and NIP3-like protein X (NIX). Mitophagy is regulated by PINK1 and parkin protein. The occurrence of mitophagy is not limited to the damaged mitochondria but also involves undamaged ones.
== Processes and Pathways ==
Organelles and bits of cytoplasm are sequestered and targeted for degradation by the lysosome for hydrolytic digestion by a process known as autophagy. Mitochondria metabolism leads to the creation of by-products that lead to DNA damage and mutations. Therefore, a healthy population of mitochondria is critical for the well-being of cells. Previously it was thought that targeted degradation of mitochondria was a stochastic event, but accumulating evidence suggest that mitophagy is a selective process.
Generation of ATP by oxidative phosphorylation leads to the production of various reactive oxygen species (ROS) in the mitochondria, and submitochondrial particles. Formation of ROS as a mitochondrial waste product will eventually lead to cytotoxicity and cell death. Because of their role in metabolism, mitochondria are very susceptible to ROS damage. Damaged mitochondria causes a depletion in ATP and a release of cytochrome ''c'', which leads to activation of caspases and onset of apoptosis. Mitochondrial damage is not caused solely by oxidative stress or disease processes; normal mitochondria will eventually accumulate oxidative damage hallmarks overtime, which can be deleterious to mitochondria as well as to the cell. These faulty mitochondria can further deplete the cell from ATP, increase production of ROS, and release proapoptopic proteins such as caspases.
Because of the danger of having damaged mitochondria in the cell, the timely elimination of damaged and aged mitochondria is essential for maintaining the integrity of the cell. This turnover process consists of the sequestration and hydrolytic degradation by the lysosome, a process also known as mitophagy.
抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』
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