Unified theory of human and animals aging. Bioenergy concept aging as a disease - страница 2

Indicator of maximum life expectancy has not changed over the centuries and therefore is a species-specific feature. At the same time, the partial pressure of oxygen in different organs and tissues differs significantly, and therefore the levels of hypoxia, normoxia and hyperoxia for each organ and each tissue are unique [7].

Max Rubner first drew attention to the limitation of the maximum life span for the species of warm-blooded animals, while studying the energy characteristics of animals under resting conditions. More on this in the second part of the review.

Specific rates of synthesis of energy carriers, in turn, are determined not only by the partial pressure of oxygen in organs and tissues, but also by the specific content of mitochondria in cells, which catalyze the main process of synthesis of carriers of free energy – oxidative phosphorylation.

In a number of cells (stem, tumor) and tissues (embryonic tissue, fetus and «cambial» tissues of stem cell niches), in which aerobic glycolysis and the pentose phosphate cycle make a significant contribution to the production of free energy carriers, the amount of enzymes of these metabolic pathways present in cells also determines the specific rates of synthesis of free energy carriers.

Thus, the indicator of the maximum or species life expectancy of organisms is determined by the specific rates of synthesis of free energy carriers (per gram of tissues and organs per unit of time): ATP, NADH, NADPH, FMN, FADH_>2, Acetyl-CoA.

The parameter limiting the indicator of the maximum life span of a species, according to my proposed bioenergetic Concept of aging, is the specific rate (per kilogram of body weight) of the formation of carriers of free energy, which depends on the content in cells and activity of mitochondria that carry out oxidative phosphorylation of ADP and reduction of NAD^>+.

The indicator of the average life expectancy is associated with pathological or premature aging, and just like the indicator of the maximum life expectancy depends on the oxygen concentration in organs and tissues, but, at the same time, it is determined not by the rates of formation of carriers of free energy, but the rates of their expenditure.

Pathological aging is accelerated by the influence of numerous factors of a biological, chemical and physical nature, which is realized through a unified process of consumption of deficient oxygen or free energy, both on the work of the body’s safety systems (detoxification systems; immunity systems; stress response systems and supply systems a high level of selectivity of enzymes of matrix synthesis of DNA, RNA and protein, as well as a system for correcting errors made by these enzymes), as well as to overcome metabolic chaos in the form of diseases caused by infections, poisoning, distress and mutations, if the power of energy dependent security systems the body was not enough.

All expenditure of free energy by the body can be divided into two categories. The first is associated with the expenditure of free energy to maintain the basic vital functions, without which life is impossible, and which includes the costs of growth, development, reproduction, functioning, adaptation to small changes in the surrounding and internal environment of the body (costs for the constantly ongoing process of changing enzymatic patterns in cells and for the response to eustress), on maintaining body temperature and creating physiological endogenous reserves of nutrients for the smooth functioning of the body. The listed costs of energy are in a competitive relationship.