The FHIT gene is located at the fragile FRA3B locus where activation by carcinogen-induced and endogenous replication stress causes FHIT deletions even in normal cells over a lifetime. Our lab has shown that loss of FHIT expression causes genome instability and provides single-strand DNA substrates for APOBEC3B hypermutation, in line with evidence that FHIT locus deletions occur in many cancers. Based on these biological features, we hypothesized that FHIT loss drives development of COSMIC mutational signature 5 and here provide evidence, including data mining of >6,500 TCGA samples, that FHIT is the cancer-associated gene with copy number alterations correlating most significantly with signature 5 mutation rate. In addition, tissues of Fhit-deficient mice exhibit a mutational signature strongly resembling signature 5 (cosine similarity value = 0.89). We conclude that FHIT loss is a molecular determinant for signature 5 mutations, which occur in all cancer types early in cancer development, are clock-like, and accelerated by carcinogen exposure. Loss of FHIT caretaker function may be a predictive and preventive marker for cancer development.
Keywords: cancer genes; clock-like signatures; data mining; exome sequences; mutational signatures.