Chronic stress appears to accelerate biological aging, and oxidative damage is an important potential mediator of this process. Many chronic diseases are accompanied by an increase in overall oxidation of genomic DNA. In course of exposure to daily environmental insults, DNA accumulates oxidative damage, which is, in part, repaired, while the cells with the most damaged DNA die either by necrosis or by apoptosis. The oxidized DNA released from the dying cells contributes to the pool of cell-free/extracellular DNA present in plasma and other biological fluids. This cell-free DNA contains a great deal of 8-oxodG bases. The ratio of 8-oxo-dG and unmodified guanine may serve as a cumulative biomarker of stress encountered by a human body within a previous 24 h-period. This true end-point biomarker may outperform other short-lived molecules that reflect only the most current state of oxidant stress. Patient-specific baselines for oxidative damage may be established by measuring of 8-oxo-dG in circulating DNA. Longitudinal profiling of oxiDNA may aid in reliable quantification of the effects of various self-administered nutraceutical and lifestyle based health interventions. Development of wearable electrochemical sensor patches that will quantify oxiDNA in near real-time is warranted to produce life- and health-modifying event awareness feedback.
Keywords: 8-oxo-dG; Biosensors; Electrochemical detection; Objective measurements of stress; Oxidative stress.