Abstract
Research in the field of mitochondrial biomarkers plays an important role in understanding the processes of cellular aging. Mitochondria are not only the energy centers of the cell, but also key regulators of signaling within the cell. They significantly affect the life and function of the cell. The aging process of cells is associated with various factors, including DNA damage, disruption of the cell cycle, changes in mitochondria, and problems with signal transmission. Mitochondrial dysfunction is a major contributor to cellular and organismal aging. As we age, there is an accumulation of dysfunctional mitochondria, leading to decreased efficiency of oxidative phosphorylation and increased production of reactive oxygen species. This review focuses on the main mitochondrial markers involved in the mechanisms of cell aging: DRP1, Prohibitin, Parkin, PINK1, MFF, VDAC, TOM. These signaling molecules are involved in mitochondrial fission and the mechanisms of mitochondria-dependent apoptosis, in the regulation of mitochondrial respiratory activity, ensuring the stability of the organization and copying of mitochondrial DNA, protecting cells from oxidative stress, in the process of autophagy of damaged mitochondria, in protective mechanisms during stress-induced mitochondrial dysfunction. Analysis of mitochondrial markers can provide valuable information about the state of cells and their functional significance at various stages of aging, which could promote our understanding of cellular aging mechanisms and developing corrective methods. These insights highlight mitochondrial proteins as potential therapeutic targets to combat age-related diseases.