Document Type
Article
Publication Date
2017
Publication Title
Scientific Reports
Volume
7
Pages
1-12
DOI
10.1038/srep43309
Abstract
Cells are often subjected to the effect of reactive oxygen species (ROS) as a result of both intracellular metabolism and exposure to exogenous factors. ROS-dependent oxidative stress can induce 8-oxodG within the GGG triplet found in the G-rich human telomeric sequence (TTAGGG), making telomeres highly susceptible to ROS-induced oxidative damage. Telomeres are nucleoprotein complexes that protect the ends of linear chromosomes and their dysfunction is believed to affect a wide range of cellular and/or organismal processes. Acute oxidative stress was shown to affect telomere integrity, but how prolonged low level oxidative stress, which may be more physiologically relevant, affects telomeres is still poorly investigated. Here, we explored this issue by chronically exposing human primary fibroblasts to a low dose of hydrogen peroxide. We observed fluctuating changes in telomere length and fluctuations in the rates of chromosome instability phenotypes, such that when telomeres shortened, chromosome instability increased and when telomeres lengthened, chromosome instability decreased. We found that telomere length fluctuation is associated with transient activation of an alternative lengthening of telomere (ALT) pathway, but found no evidence of cell death, impaired proliferation, or cell cycle arrest, suggesting that ALT activation may prevent oxidative damage from reaching levels that threaten cell survival.
Original Publication Citation
Coluzzi, E., Buonsante, R., Leone, S., Asmar, A. J., Miller, K. L., Cimini, D., & Sgura, A. (2017). Transient ALT activation protects human primary cells from chromosome instability induced by low chronic oxidative stress. Scientific Reports, 7, 1-12. doi: 10.1038/srep43309
Repository Citation
Coluzzi, Elisa; Buonsante, Rossella; Leone, Stefano; Asmar, Anthony J.; Miller, Kelley L.; Cimini, Daniela; and Sgura, Antonella, "Transient ALT Activation Protects Human Primary Cells From Chromosome Instability Induced by Low Chronic Oxidative Stress" (2017). Bioelectrics Publications. 125.
https://digitalcommons.odu.edu/bioelectrics_pubs/125
ORCID
0000-0002-4843-0785 (Asmar)
Included in
Bioelectrical and Neuroengineering Commons, Biology Commons, Cellular and Molecular Physiology Commons