Faculty, Staff and Student Publications

Language

English

Publication Date

1-1-2026

Journal

Genes Chromosomes Cancer

DOI

10.1002/gcc.70106

PMID

41562193

PMCID

PMC12820907

PubMedCentral® Posted Date

1-21-2026

PubMedCentral® Full Text Version

Post-print

Abstract

Wellcome Trust scientists have shown that “mutational signatures” in specific nucleotide contexts accumulate in genomes of mammalian tissues, providing clues to underlying causes of specific signatures. Analysis of cancer genomes has identified more than 50 single‐base substitution (SBS) signatures, with SBS1, SBS5, and SBS40 linked to aging and present in normal tissues. SBS1 results from cytosine demethylation, whereas SBS5 and SBS40 arise from unknown endogenous mechanisms. We hypothesized that loss of fragile‐site genes drives these two signatures. FHIT, located at FRA3B, is frequently deleted in cancers, and Fhit‐deficient mouse tissues exhibit a mutation profile resembling human SBS5. Data mining of cancer genome sequences showed that FHIT/Fra3B was the gene loss most significantly correlated with human SBS5 mutations, likely representing the endogenous molecular process determining SBS5 mutations in soma, germ cells, and cancers, and inversely associated with lifespan in mammals. Exome sequences of Fhit knockout tissues revealed ~1000 SBS1 and ~4000 SBS5 mutations per sample, compared to markedly fewer in wild‐type controls. Using SigProfilerAssignment, similar analyses performed with Fhit ko samples where Wwox is also frequently lost identified SBS40c. These findings implicate fragile‐site gene inactivation as a major source of clock‐like mutational signatures, contributing to lifelong mutation accumulation and potentially influencing aging, evolution, and speciation.

Keywords

Animals, Mice, Humans, Acid Anhydride Hydrolases, Mutation, Neoplasm Proteins, Neoplasms, Chromosome Fragile Sites, Mice, Knockout, aging, cancer signatures, Fhit, fragile sites, germline, mutational signatures, Wwox

Published Open-Access

yes

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