Author
Listed:
- Pallavi Kompella
(Dell Pediatric Research Institute)
- Guliang Wang
(Dell Pediatric Research Institute)
- Russell E. Durrett
(The University of Texas at Austin)
- Yanhao Lai
(Florida International University)
- Celeste Marin
(Florida International University)
- Yuan Liu
(Florida International University)
- Samy L. Habib
(South Texas Veterans Health Care System)
- John DiGiovanni
(Dell Pediatric Research Institute)
- Karen M. Vasquez
(Dell Pediatric Research Institute)
Abstract
Obesity is associated with increased cancer risk, yet the underlying mechanisms remain elusive. Obesity-associated cancers involve disruptions in metabolic and cellular pathways, which can lead to genomic instability. Repetitive DNA sequences capable of adopting alternative DNA structures (e.g., H-DNA) stimulate mutations and are enriched at mutation hotspots in human cancer genomes. However, it is not known if obesity impacts DNA repeat-mediated endogenous mutation hotspots. We address this gap by measuring mutation frequencies in obese and normal-weight transgenic reporter mice carrying either a control human B-DNA- or an H-DNA-forming sequence (from a translocation hotspot in c-MYC in Burkitt lymphoma). Here, we discover that H-DNA-induced DNA damage and mutations are elevated in a tissue-specific manner, and DNA repair efficiency is reduced in obese mice compared to those on the control diet. These findings elucidate the impact of obesity on cancer-associated endogenous mutation hotspots, providing mechanistic insight into the link between obesity and cancer.
Suggested Citation
Pallavi Kompella & Guliang Wang & Russell E. Durrett & Yanhao Lai & Celeste Marin & Yuan Liu & Samy L. Habib & John DiGiovanni & Karen M. Vasquez, 2024.
"Obesity increases genomic instability at DNA repeat-mediated endogenous mutation hotspots,"
Nature Communications, Nature, vol. 15(1), pages 1-18, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50006-8
DOI: 10.1038/s41467-024-50006-8
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