Healthy Aging: Antioxidants, Uncouplers and/or Telomerase?

Abstract

The free radical theory of aging was proposed in 1956. Although it does not fully describe the mechanisms of aging, it is generally accepted that reactive oxygen species (ROS) are one of the pathogenetic factors in aging and, in particular, in the development of pathologies associated with aging. The main source of ROS in the cell is mitochondria. Antioxidants directed to mitochondria have a positive effect, but have low efficiency. The problem is that increased amounts of antioxidants disrupt normal cellular redox reactions, and a low amount of antioxidants is not able to seriously affect the processes. Protection against ROS may be more effective if the rate of ROS formation is reduced. There is a natural mitochondrial uncoupling process that significantly reduces ROS production. The weak uncoupler dinitrophenol (DNP) prolongs the life span of mice, reduces traumatic brain damage, and inhibits the development of a number of neurodegenerative diseases. Unfortunately, DNP has a number of disadvantages that hinder its practical use. Uncoupling of oxidative phosphorylation by free fatty acids is a natural mechanism, the activation of which can be used in medicine. The third (after antioxidants and uncouplers), but so far little studied, method of reducing ROS is telomerase, which, under conditions of oxidative stress, is transported into the mitochondria and improves cell survival by reducing ROS production.