1.2. The main results of the impact of free oxygen radicals generated by dying mitochondria. The most important result of the action of free oxygen radicals is the chemical modification of mitochondrial DNA, which is surrounded on all sides by outgrowths of the inner membrane (cristae), in which the enzymes of the respiratory chain are localized. The number of DNA copies in mitochondria reaches 10, and the number of mitochondrial DNA copies per cell is several tens of thousands due to the large number of mitochondria in it.
The main function of free oxygen radicals generated by the respiratory chain of mitochondria of cells that have entered apoptosis, which is positive for the body, is the covalent modification of mitochondrial DNA and mitochondrial enzymes of its duplication. The meaning of these processes is the inactivation or neutralization of mitochondrial DNA, which is in origin and structure (without introns and without histones) bacterial DNA, capable of integrating into cellular DNA and thereby facilitating cell transformation [20].
This does not mean that the appearance of free oxygen radicals (like many other, especially chemically active metabolites) in the wrong place and/or in unusually high concentrations exceeding the capabilities of antioxidant protection does not harm the cell and the body as a whole. This situation, apparently, is realized under conditions of intense radiation exposure.
The function of free oxygen radicals generated by NADPH oxidase of the plasma membrane of immunocompetent cells is also similar, the activity of which increases when they interact with bacteria and viruses. The meaning of the generation of free oxygen radicals, and in this case, lies in the covalent modification of foreign DNA. To destroy a bacterium or cell means, first of all, to damage its DNA.
The pathogenic function of an excess of antioxidants consumed by humans is to reduce the rate of mitochondrial DNA detoxification by free oxygen radicals, which, apparently, leads to an increase in the likelihood of oncological diseases [10].
1.3. Safety of free oxygen radicals generated by the mitochondria of a dying cell for neighboring cells. Due to the high chemical reactivity of free oxygen radicals and due to the small distances of their free path, neighboring cells with intact mitochondria are probably not susceptible to the pathogenic effects of these radicals.