Effects of Antioxidant Gene Overexpression on Stress Resistance and Malignization In Vitro and In Vivo: A Review

Reactive oxygen species (ROS) are normal products of a number of biochemical reactions and are important signaling molecules. However, at the same time, they are toxic to cells and have to be strictly regulated by their antioxidant systems. The etiology and pathogenesis of many diseases are associat...

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Bibliographic Details
Published in:Antioxidants 2022-11, Vol.11 (12), p.2316
Main Authors: Tavleeva, Marina M, Belykh, Elena S, Rybak, Anna V, Rasova, Elena E, Chernykh, Aleksey A, Ismailov, Zaur B, Velegzhaninov, Ilya O
Format: Article
Language:English
Subjects:
antioxidant genes
Antioxidants
Carcinogenesis
Cellular stress response
Cytokines
Defense
Disease
Etiology
Gene expression
gene therapy
Genetic engineering
Genotoxicity
Hydrogen peroxide
Mitochondria
oncosuppression
Organisms
overexpression
Oxidative stress
Physiological aspects
Physiology
Proteins
Radiation therapy
Reactive oxygen species
Review
stress resistance
Tumors
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Summary:Reactive oxygen species (ROS) are normal products of a number of biochemical reactions and are important signaling molecules. However, at the same time, they are toxic to cells and have to be strictly regulated by their antioxidant systems. The etiology and pathogenesis of many diseases are associated with increased ROS levels, and many external stress factors directly or indirectly cause oxidative stress in cells. Within this context, the overexpression of genes encoding the proteins in antioxidant systems seems to have become a viable approach to decrease the oxidative stress caused by pathological conditions and to increase cellular stress resistance. However, such manipulations unavoidably lead to side effects, the most dangerous of which is an increased probability of healthy tissue malignization or increased tumor aggression. The aims of the present review were to collect and systematize the results of studies devoted to the effects resulting from the overexpression of antioxidant system genes on stress resistance and carcinogenesis in vitro and in vivo. In most cases, the overexpression of these genes was shown to increase cell and organism resistances to factors that induce oxidative and genotoxic stress but to also have different effects on cancer initiation and promotion. The last fact greatly limits perspectives of such manipulations in practice. The overexpression of and encoding secreted proteins seems to be the "safest" among the genes that can increase cell resistance to oxidative stress. High efficiency and safety potential can also be found for overexpression in combinations with or and for similar combinations that lead to no significant changes in H O levels. Accumulation, systematization, and the integral analysis of data on antioxidant gene overexpression effects can help to develop approaches for practical uses in biomedical and agricultural areas. Additionally, a number of factors such as genetic and functional context, cell and tissue type, differences in the function of transcripts of one and the same gene, regulatory interactions, and additional functions should be taken into account.
ISSN:2076-3921
2076-3921
DOI:10.3390/antiox11122316