MtDNA oxidation

The structure of doxorubicin includes a quinone moiety therefore, it can easily accept an electron and undergo redox cycling (Fig. 7.47). Because it accumulates in the mitochondria, it can accept electrons from the electron transport chain and divert them away from complex I. It becomes reduced to the semiquinone radical in the process. This will then reduce oxygen to superoxide and return to the quinone form (Fig. 7.47). This could lead to oxidation of GSH and mtDNA. The subsequent damage may lead to the opening of the mitochondrial permeability transition pore. Consequently, mitochondrial ATP production will be compromised, and ATP levels will decline. 

Matrix of the mitochondrion This gel-like solution in the interior of mitochondria is fifty percent protein. These molecules include the enzymes responsible for the oxidation of pyruvate, amino acids, fatty acids (by p-oxidation), and those of the tricarboxylic acid (TCA) cycle. The synthesis of urea and heme occur partially in the matrix of mitochondria. In addition, the matrix contains NAD+and FAD (the oxidized forms of the two coenzymes that are required as hydrogen acceptors) and ADP and Pj, which are used to produce ATP. [Note The matrix also contains mitochondrial RNA and DNA (mtRNA and mtDNA) and mitochondrial ribosomes.]... 

A mutation in any of the 13 protein subunits, the 22 tRNAs, or the two rRNAs whose genes are carried in mitochondrial DNA may possibly cause disease. The 13 protein subunits are all involved in electron transport or oxidative phosphorylation. The syndromes resulting from mutations in mtDNA frequently affect oxidative phosphorylation (OXPHOS) causing what are often called "OXPHOS diseases."3-6 Mitochondrial oxidative phosphorylation also depends upon 100 proteins encoded in the nucleus. Therefore, OXPHOS diseases may result from defects in either mitochondrial or nuclear genes. The former are distinguished by the fact that they are inherited almost exclusively maternally. Most mitochondrial diseases are rare. However, mtDNA is subject to rapid mutation, and it is possible that accumulating mutants in mtDNA may be an important component of aging.h k... 

Oxidative Stress and Oxidative Damage Elicited by mtDNA Mutations. 102... 

The oxidative phosphorylation system contains over 80 polypeptides. Only 13 of them are encoded by mtDNA, which is contained within mitochondria, and all the other proteins that reside in the mitochondrion are nuclear gene products. Mitochondria depend on nuclear genes for the synthesis and assembly of the enzymes for mtDNA replication, transcription, translation, and repair (Tl). The proteins involved in heme synthesis, substrate oxidation by TCA cycle, degradation of fatty acids by /i-oxidalion, part of the urea cycle, and regulation of apoptosis that occurs in mitochondria are all made by the genes in nuclear DNA. 

On the other hand, defective respiratory function elicited by the mtDNA mutation contributes to an increase in the production of ROS and free radicals, thereby causing higher oxidative stress and severe oxidative damage in affected cells (P2, W6). Because either enhanced oxidative stress or disruption of calcium homeostasis is an important factor in the triggering of cell death, mitochondrial dysfunction in tissue cells from MELAS and MERRF patients may contribute significantly to the pathogenesis of these diseases. 

---