The role of mitochondria in the development of breast cancer

Abstract

There is a hypothesis that mitochondrial dysfunction and mutations in the mitochondrial genome may play an important role in the carcinogenesis; however, despite many years of research, this issue is still the subject of scientific discussion. The review reflects modern views on the role of mitochondria and the mitochondrial genome in the development of breast cancer. Sources were searched in Pubmed and eLIBRARY.RU databases for the past 10 years and in article references. Articles were selected that contained data from case-control studies of breast cancer and studies of cybrid cells. The survey of experimental and association studies has shown that the mitochondrial genome determines the characteristics of cellular metabolism in human populations at the global (by macrohaplogroups L, M, N), landscape (by haplogroups), population (by subhaplogroups), and individual levels (by SNPs, insertions, deletions) and can determine predisposition to cancer. Single nucleotide substitutions, deletions, and mitochondrial DNA copy number decline are not specific for breast cancer. Nevertheless, mitochondria have been experimentally shown to be directly involved in the development of malignant neoplasms in experimental animals. It is likely that mitochondrial involvement in carcinogenesis is associated with mitochondrial dysfunction, in which nuclear-mitochondrial relationships are disrupted. On the other hand, mutations with too strong effect, i.e., completely disrupting mitochondrial function, lose their tumorigenic potential. Mutations, deletions and changes in mitochondrial DNA copy number are undoubtedly associated with the development of breast cancer, being one of the most important elements of a complex web of numerous interactions.