FANCD2 tunes the UPR preventing mitochondrial stress-­induced common fragile site instability

Abstract: 38Common fragile sites (CFSs) are genomic regions frequently involved in cancer-associated 39 rearrangements. Most CFSs lie within large genes, and their instability relies on 40 transcription-and replication-dependent mechanisms. Here, we uncover a role for the 41 UBL5-dependent branch of the unfolded protein response pathway (UPR) in the 42 maintenance of CFS stability. We show that genetic or pharmacological UPR activation 43 induces CFS gene expression and concomitant relocalization of FANCD2, a master 44 … Show more

“…Furthermore, a functional FANC pathway is important to protect specific regions of the genome called common fragile sites (CFSs) where large genes are located [86,87] Fig. 4 Repair of stalled forks by the FANC/BRCA pathway due to ICL.…”

“…Furthermore, a functional FANC pathway is important to protect specific regions of the genome called common fragile sites (CFSs) where large genes are located [ 86 , 87 ], by managing conflict between transcription and replication because it protects cells from unscheduled accumulation of R-loops (DNA:RNA hybrid) [ 88 ]. In addition, FANCJ, with a helicase function is involved in maintenance of genome stability by recognition of specific DNA structure named G-quadruplexes (G4) which interfere with DNA replication, repair and mRNA transcription [ 89 ].…”

“…Moreover, via the FANCC-Parkin interaction, the FANC pathway appears to be involved in mitochondria turn-over, and its loss-of-function leads to alterations in the process of mitophagy, which is responsible for the clearance of damaged mitochondria [ 108 ]. Recently, it has been demonstrated that FANCD2 modulates mitochondrial stress response to prevent common fragile site instability [ 87 ]. Recent observations have indicated that at least FANCA and FANCI are involved in ribosome biogenesis and mRNA translation with still unappreciated consequences on the metabolism of FA cells and development of the clinical traits of the syndrome [ 109 ].…”

“…Moreover, via the FANCC-Parkin interaction, the FANC pathway appears to be involved in mitochondria turn-over, and its loss-of-function leads to alterations in the process of mitophagy, which is responsible for the clearance of damaged mitochondria [ 108 ]. Recently, it has been demonstrated that FANCD2 modulates mitochondrial stress response to prevent common fragile site instability [ 87 ].…”

Beyond DNA repair and chromosome instability—Fanconi anaemia as a cellular senescence-associated syndrome

“…Furthermore, a functional FANC pathway is important to protect specific regions of the genome called common fragile sites (CFSs) where large genes are located [86,87] Fig. 4 Repair of stalled forks by the FANC/BRCA pathway due to ICL.…”

“…Furthermore, a functional FANC pathway is important to protect specific regions of the genome called common fragile sites (CFSs) where large genes are located [ 86 , 87 ], by managing conflict between transcription and replication because it protects cells from unscheduled accumulation of R-loops (DNA:RNA hybrid) [ 88 ]. In addition, FANCJ, with a helicase function is involved in maintenance of genome stability by recognition of specific DNA structure named G-quadruplexes (G4) which interfere with DNA replication, repair and mRNA transcription [ 89 ].…”

“…Moreover, via the FANCC-Parkin interaction, the FANC pathway appears to be involved in mitochondria turn-over, and its loss-of-function leads to alterations in the process of mitophagy, which is responsible for the clearance of damaged mitochondria [ 108 ]. Recently, it has been demonstrated that FANCD2 modulates mitochondrial stress response to prevent common fragile site instability [ 87 ]. Recent observations have indicated that at least FANCA and FANCI are involved in ribosome biogenesis and mRNA translation with still unappreciated consequences on the metabolism of FA cells and development of the clinical traits of the syndrome [ 109 ].…”

“…Moreover, via the FANCC-Parkin interaction, the FANC pathway appears to be involved in mitochondria turn-over, and its loss-of-function leads to alterations in the process of mitophagy, which is responsible for the clearance of damaged mitochondria [ 108 ]. Recently, it has been demonstrated that FANCD2 modulates mitochondrial stress response to prevent common fragile site instability [ 87 ].…”

Beyond DNA repair and chromosome instability—Fanconi anaemia as a cellular senescence-associated syndrome

“…This evidence indicates that UPR mt participates to CFS expression and that FACND2 opposes this mechanism. As high CFS translation increases the risk of CFS breakage, this mechanism indicates that UPR mt connect mitochondrial stress to genomic instability induced by replication stress at preferential sites [ 89 ]. In agreement, elevated UPR mt response was recently associated with higher tumor aggressiveness and poor patient survival [ 19 ].…”

Mitochondrial Control of Genomic Instability in Cancer