The R215W mutation in NBS1 impairs γ-H2AX binding and affects DNA repair: molecular bases for the severe phenotype of 657del5/R215W Nijmegen breakage syndrome patients
- 作者:Aless ; ra di Masi ; Mara Viganotti ; Fabio Polticelli ; Paolo Ascenzi ; Caterina Tanzarella ; Antonio Antoccia
- 关键词:BRCT tandem domains ; DNA repair ; Double strand break ; NBS1 ; Nijmegen breakage syndrome ; R215W mutation ; γ ; -H2AX
- 刊名:Biochemical and Biophysical Research Communications
- 出版年:2008
- 期刊代码:159_0006291x
- 类别:bio
- 出版时间:9 May 2008
- 卷:369
- 期:3
- 页码:835-840
- 文件大小:574 K
摘要
Nijmegen breakage syndrome (NBS) is a genetic disorder characterized by chromosomal instability and hypersensitivity to ionising radiation. Compound heterozygous 657del5/R215W NBS patients display a clinical phenotype more severe than the majority of NBS patients homozygous for the 657del5 mutation. The NBS1 protein, mutated in NBS patients, contains a FHA/BRCT domain necessary for the DNA-double strand break (DSB) damage response. Recently, a second BRCT domain has been identified, however, its role is still unknown. Here, we demonstrate that the R215W mutation in NBS1 impairs histone γ-H2AX binding after induction of DNA damage, leading to a delay in DNA-DSB rejoining. Molecular modelling reveals that the 215 residue of NBS1 is located between the two BRCT domains, affecting their relative orientation that appears critical for γ-H2AX binding. Present data represent the first evidence for the role of NBS1 tandem BRCT domains in γ-H2AX recognition, and could explain the severe phenotype observed in 657del5/R215W NBS patients.