Oxidative stress (OxS constitutes a disturbance caused by an imbalance between the generation of free radicals and antioxidant system, which causes damage to biomolecules. This, in turn, may lead the body to the occurrence of many chronic degenerative diseases. Therefore, it is very important to know the functioning of those endogenous (and exogenous antioxidants systems to prevent such diseases. Due to evolutionary conditions in living beings, among other functions have been developed and selected defense systems against the deleterious action of free radicals. Such systems are intrinsic in cells (at level intracellular and extracellular and act together with the dietary exogenous antioxidants. "ll these antioxidant systems have very important role in preserving the oxide/reduction equilibrium in the cell. To understand the role of the transcription factor Nrf in regulating the processes of antioxidant defense, it must also know the role of many of the endogenous antioxidants that occur because of its activation. Therefore, this chapter makes a literature review of the most important general aspects of endogenous antioxidant systems, which will provide another point of view from which to approach the study and treatment of many chronic degenerative diseases, such as diabetes, hypertension, and Parkinson. Keywords: oxidative stress, endogenous antioxidants, free radicals, catalase, glutathione
. IntroductionThe aerobic organisms use mitochondria as the main generator of energy for the realization of its vital functions. To do this, these organelles produce "TP through reactions of oxidation and reduction and atach to the tricarboxylic acid cycle with the electron transport chain. This happen due to to the oxidation of the food and of the N"DH and F"DH , produced in diferent metabolic pathways, such as glycolysis, -oxidation, and the same Krebs cycle. However, these reactions invariably result in the generation of reactive oxygen species (ROS compounds that are unstable by having inal layer of electrons unpaired and that, in trying to stabilize itself sequester electrons from other biomolecules, making them also destabilizes and, therefore, is no longer able to perform their duties properly, thus altering the homeostasis and, ultimately, causing cell death. Due to the current oxidant characteristics of the atmosphere on our planet, organisms are afected by imbalances in the oxidation-reduction reactions, not only on many of their metabolic reactions but also on external factors, such as microbial infections, xenobiotics, toxins from the diet, radiation, environmental pollution, and so on. "ll this in conjunction can contribute to the generation or aggravation of many diseases, such as cancer, diabetes, Parkinson and so on [ ]. Other authors theorize that this imbalance in redox reactions has worked as an evolving pressure in order to develop efective mechanisms to eliminate the oxygen toxicity; this allowed the evolution of higher forms of living organisms, which are much more specialized and protected a...
