Despite of DNA repair ability the Fanconi anemia mutant protein FANCGR22P destabilizes mitochondria and leads to genomic instability via FANCJ helicase

Abstract

SummaryFanconi anemia (FA) is a unique DNA damage repair pathway. Almost twenty-two genes have been identified which are associated with the FA pathway. Defect in any of those genes causes genomic instability, and the patients bear the mutation become susceptible to cancer. In our earlier work, we have identified that Fanconi anemia protein G (FANCG) protects the mitochondria from oxidative stress. In this report, we have identified eight patients having mutation (C.65G>C; p.Arg22Pro) in the N-terminal of FANCG. The mutant protein hFANCGR22P is able to repair the DNA and able to retain the monoubiquitination of FANCD2 in FANCGR22P/FGR22P cell. However, it lost mitochondrial localization and failed to protect mitochondria from oxidative stress. Mitochondrial instability in the FANCGR22P cell causes the transcriptional down-regulation of mitochondrial iron-sulphur cluster biogenesis protein Frataxin (FXN) and resulting iron deficiency of FA protein FANCJ, an iron-sulphur containing helicase involved in DNA repair.