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Regulation of Redox Profile and Genomic Instability by Physical Exercise Contributes to Neuroprotection in Mice with Experimental Glioblastoma

Authors :
Pinho, Luis F. B. Marqueze
Amanda K. Costa
Giulia S. Pedroso
Franciane F. Vasconcellos
Bruna I. Pilger
Schellen Kindermann
Vanessa M. Andrade
Ana C. B. Alves
Tatyana Nery
Aderbal A. Silva
Stephanie R. S. Carvalhal
Matheus F. Zazula
Katya Naliwaiko
Luiz C. Fernandes
Zsolt Radak
Ricardo A.
Source :
Antioxidants; Volume 12; Issue 7; Pages: 1343
Publication Year :
2023
Publisher :
Multidisciplinary Digital Publishing Institute, 2023.

Abstract

Glioblastoma (GBM) is an aggressive, common brain cancer known to disrupt redox biology, affecting behavior and DNA integrity. Past research remains inconclusive. To further understand this, an investigation was conducted on physical training’s effects on behavior, redox balance, and genomic stability in GBMA models. Forty-seven male C57BL/6J mice, 60 days old, were divided into GBM and sham groups (n = 15, n = 10, respectively), which were further subdivided into trained (Str, Gtr; n = 10, n = 12) and untrained (Sut, Gut; n = 10, n = 15) subsets. The trained mice performed moderate aerobic exercises on a treadmill five to six times a week for a month while untrained mice remained in their enclosures. Behavior was evaluated using open-field and rotarod tests. Post training, the mice were euthanized and brain, liver, bone marrow, and blood samples were analyzed for redox and genomic instability markers. The results indicated increased latency values in the trained GBM (Gtr) group, suggesting a beneficial impact of exercise. Elevated reactive oxygen species in the parietal tissue of untrained GBM mice (Gut) were reduced post training. Moreover, Gtr mice exhibited lower tail intensity, indicating less genomic instability. Thus, exercise could serve as a promising supplemental GBM treatment, modulating redox parameters and reducing genomic instability.

Details

Language :
English
ISSN :
20763921
Database :
OpenAIRE
Journal :
Antioxidants; Volume 12; Issue 7; Pages: 1343
Accession number :
edsair.multidiscipl..ef88098f1bdb7e1287bf33c6e9f5d606
Full Text :
https://doi.org/10.3390/antiox12071343