Vitamin complex (ascorbic acid, alpha-tocopherol and beta-carotene) induces micronucleus formation in PBMNC unrelated to ROS production.

OBJECTIVES: To evaluate the correlation between reactive oxygen species (ROS) production and micronucleus formation induced by a vitamin complex in peripheral blood mononuclear cells from healthy people aged between 40 and 85 years old. METHODS: Peripheral blood mononuclear cells (PBMNCs) were purified utilizing ficoll-hypaque gradient. ROS production by PBMNCs was quantified by luminol-dependent chemiluminescence in the presence or in the absence of the vitamin complex. DNA damage in PBMNC by the vitamin complex was detected by the micronucleus technique. Statistical analyses were made with the Student's 't' test and the Pearson correlation. P < 0.05 was considered significant. RESULTS: The vitamin complex induced MN formation in PBMNC but did not augment ROS production. There was no correlation between ROS production and MN formation either in the presence or in the absence of the vitamin complex. DISCUSSION: There was no increase in the ROS production in the presence of the vitamin complex. The vitamin complex induced an augmentation in the MN formation. There was no correlation between ROS production and the induction of MN formation. Since no association could be detected between ROS production and MN formation, additional studies are required in order to investigate the possible mechanism of vitamin-induced MN formation.

The role of oxidative stress in the aging process.

The aging of organisms is characterized by a gradual functional decline of all organ systems. An appropriate theory must explain four main characteristics of aging: it is progressive, endogenous, irreversible, and deleterious for the individual. The aging of the immune system, or immunosenescence, is manifested by an increased susceptibility to infections with increased morbidity and mortality. Phagocytic capacity, synthesis of reactive oxygen intermediaries, and the intracellular killing efficiency of neutrophils are impaired in the elderly. Among all aging theories, the most updated one describes the free radicals. It implies that progressive aging is associated with higher levels of oxidative biomolecules reacted with free radicals. Although reactive oxygen species (ROS) are predominantly implicated in causing cell damage, they also play a major physiological role in several aspects of intracellular signaling and regulation. ROS include a number of chemically reactive molecules derived from oxygen. Not only oxygen, but also nitrogen can be deleterious species. The overproduction of reactive nitrogen species (RNS) is called nitrosative stress. ROS/RNS are known to play a dual role in biological systems since they can be either harmful or beneficial to living systems.

Determination of the antioxidant status of plasma from type 2 diabetic patients.

An increase in oxidizing response above a certain threshold produces, in the absence of a concomitant rise in antioxidant/reducing response, oxidative stress that is associated with complications in diabetes. A simple technique involving reduction of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) dye has been developed in order to determine quantitatively the antioxidant status of plasma. MTT (50microL; 5.0mg/mL in PBS) was incubated with plasma (100microL) in PBS for 30, 60 or 120min at 37 degrees C, the reaction terminated by addition of 1.0mL of 0.04M hydrochloric acid in isopropanol and the absorbance measured at 570nm. The modulation by plasma of the generation of reactive oxygen species (ROS) in 12,13-phorbol dibutyrate (PDB)-stimulated granulocytes was evaluated using a chemiluminescence luminol-dependent assay. Plasma from healthy subjects (n=15) showed significantly higher antioxidant status (p<0.05) over all time periods studied compared with plasma from diabetic patients (n=27). MTT was directly reduced by plasma although platelets were not involved. Moreover, the reduction of MTT by bovine serum albumin at levels equivalent to the concentration of human serum albumin in plasma was much lower. The antioxidant status of plasma, as evaluated by MTT dye reduction, may reflect an antioxidant response since ROS generation in PDB-stimulated granulocytes was rapidly down-regulated by the presence of plasma (3.3-fold in diabetic patients and 5.8-fold in healthy subjects) confirming the lower antioxidant activity of plasma from diabetic patients. The results demonstrate that extracellular reduction of MTT by plasma may occur via enzymatic and non-enzymatic processes.