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Date publication

décembre 2008

Auteurs

Membres identifiés du Cancéropôle Est :
Dr COIN Frédéric , Dr EGLY Jean-Marc


Tous les auteurs :
de Jesus BMB, Bjoras M, Coin F, Egly JM

Résumé

XPC is responsible for DNA damage sensing in nucleotide excision repair (NER). Mutations in XPC lead to a defect in NER and to xeroderma pigmentosum (XP-C). Here, we analyzed the biochemical properties behind mutations found within three patients: one amino acid substitution (P334H, XP1MI, and GM02096), one amino acid incorporation in a conserved domain (697insVal, XP8BE, and GM02249), and a stop mutation (R579St, XP67TMA, and GM14867). Using these mutants, we demonstrated that HR23B stabilizes XPC on DNA and protects it from degradation. XPC recruits the transcription/repair factor TFIIH and stimulates its XPB ATPase activity to initiate damaged DNA opening. In an effort to understand the severity of XP-C phenotypes, we also demonstrated that single mutations in XPC perturb other repair processes, such as base excision repair (e. g., the P334H mutation prevents the stimulation of Ogg1 glycosylase because it thwarts the interaction between XPC and Ogg1), thereby leading to a deeper understanding of the molecular repair defect of the XP-C patients.

Référence

Mol Cell Biol. 2008 Dec 1;28(23):7225-35