Prolyl isomerization of FAAP20 catalyzed by PIN1 regulates the Fanconi anemia pathway.
Jingming WangBryan ChanMichael TongYiTing PaungUkhyun JoDwight MartinMarkus A SeeligerJohn D HaleyHyungjin KimPublished in: PLoS genetics (2019)
The Fanconi Anemia (FA) pathway is a multi-step DNA repair process at stalled replication forks in response to DNA interstrand cross-links (ICLs). Pathological mutation of key FA genes leads to the inherited disorder FA, characterized by progressive bone marrow failure and cancer predisposition. The study of FA is of great importance not only to children suffering from FA but also as a model to study cancer pathogenesis in light of genome instability among the general population. FANCD2 monoubiquitination by the FA core complex is an essential gateway that connects upstream DNA damage signaling to enzymatic steps of repair. FAAP20 is a key component of the FA core complex, and regulated proteolysis of FAAP20 mediated by the ubiquitin E3 ligase SCFFBW7 is critical for maintaining the integrity of the FA complex and FA pathway signaling. However, upstream regulatory mechanisms that govern this signaling remain unclear. Here, we show that PIN1, a phosphorylation-specific prolyl isomerase, regulates the integrity of the FA core complex, thus FA pathway activation. We demonstrate that PIN1 catalyzes cis-trans isomerization of the FAAP20 pSer48-Pro49 motif and promotes FAAP20 stability. Mechanistically, PIN1-induced conformational change of FAAP20 enhances its interaction with the PP2A phosphatase to counteract SCFFBW7-dependent proteolytic signaling at the phosphorylated degron motif. Accordingly, PIN1 deficiency impairs FANCD2 activation and the DNA ICL repair process. Together, our study establishes PIN1-dependent prolyl isomerization as a new regulator of the FA pathway and genomic integrity.
Keyphrases
- dna damage
- dna repair
- bone marrow
- multiple sclerosis
- gene expression
- transcription factor
- young adults
- papillary thyroid
- oxidative stress
- dna methylation
- genome wide
- molecular dynamics
- squamous cell carcinoma
- drug induced
- hydrogen peroxide
- room temperature
- smoking cessation
- copy number
- iron deficiency
- bioinformatics analysis