Title: Redox theory of aging: implications for health and disease.

Authors: Go, Young-Mi; Jones, Dean P

Published In Clin Sci (Lond), (2017 Jul 15)

Abstract: Genetics ultimately defines an individual, yet the phenotype of an adult is extensively determined by the sequence of lifelong exposures, termed the exposome. The redox theory of aging recognizes that animals evolved within an oxygen-rich environment, which created a critical redox interface between an organism and its environment. Advances in redox biology show that redox elements are present throughout metabolic and structural systems and operate as functional networks to support the genome in adaptation to environmental resources and challenges during lifespan. These principles emphasize that physical and functional phenotypes of an adult are determined by gene-environment interactions from early life onward. The principles highlight the critical nature of cumulative exposure memories in defining changes in resilience progressively during life. Both plasma glutathione and cysteine systems become oxidized with aging, and the recent finding that cystine to glutathione ratio in human plasma predicts death in coronary artery disease (CAD) patients suggests this could provide a way to measure resilience of redox networks in aging and disease. The emerging concepts of cumulative gene-environment interactions warrant focused efforts to elucidate central mechanisms by which exposure memory governs health and etiology, onset and progression of disease.

PubMed ID: 28667066

MeSH Terms: Aging/physiology*; Biomarkers/blood; Coronary Artery Disease/blood; Gene-Environment Interaction; Glutathione/blood; Humans; Metals/metabolism; Models, Biological; Oxidation-Reduction*; Oxidative Stress/physiology; Regenerative Medicine/methods; Salivary Cystatins/blood