Authors
Nicolas C Hoch, Hana Hanzlikova, Stuart L Rulten, Martine Tétreault, Emilia Komulainen, Limei Ju, Peter Hornyak, Zhihong Zeng, William Gittens, Stephanie A Rey, Kevin Staras, Grazia MS Mancini, Peter J McKinnon, Zhao-Qi Wang, Justin D Wagner, Care4Rare Canada Consortium Boycott Kym 10 MacKenzie Alex 10 Majewski Jacek 11 Brudno Michael 12 Bulman Dennis 10 Dyment David 10, Grace Yoon, Keith W Caldecott
Publication date
2017/1/5
Journal
Nature
Volume
541
Issue
7635
Pages
87-91
Publisher
Nature Publishing Group UK
Description
XRCC1 is a molecular scaffold protein that assembles multi-protein complexes involved in DNA single-strand break repair,. Here we show that biallelic mutations in the human XRCC1 gene are associated with ocular motor apraxia, axonal neuropathy, and progressive cerebellar ataxia. Cells from a patient with mutations in XRCC1 exhibited not only reduced rates of single-strand break repair but also elevated levels of protein ADP-ribosylation. This latter phenotype is recapitulated in a related syndrome caused by mutations in the XRCC1 partner protein PNKP,, and implicates hyperactivation of poly(ADP-ribose) polymerase/s as a cause of cerebellar ataxia. Indeed, remarkably, genetic deletion of Parp1 rescued normal cerebellar ADP-ribose levels and reduced the loss of cerebellar neurons and ataxia in Xrcc1-defective mice, identifying a molecular mechanism by which endogenous single-strand breaks trigger …
Scholar articles
NC Hoch, H Hanzlikova, SL Rulten, M Tétreault… - Nature, 2017