Exome sequencing of individuals with Huntington’s disease implicates FAN1 nuclease activity in slowing CAG expansion and disease onset

Branduff McAllister; Jasmine Donaldson; Caroline S. Binda; Sophie Powell; Uroosa Chughtai; Gareth Edwards; Joseph Stone; S. V. Lobanov; Linda Elliston; Laura-Nadine Schuhmacher; Elliott Rees; Georgina Menzies; Marc Ciosi; Alastair Maxwell; Michael J. Chao; Eun Pyo Hong; Diane Lucente; Vanessa C. Wheeler; Jong‐Min Lee; Marcy E. MacDonald; Jeffrey D. Long; Elizabeth Aylward; G. Bernhard Landwehrmeyer; Anne Rosser; REGISTRY Investigators of the European Huntington’s disease network; Jane S. Paulsen; PREDICT-HD Investigators of the Huntington Study Group; Nigel Williams; James F. Gusella; Darren G. Monckton; Nicholas D. Allen; Peter Holmans; Lesley Jones; Thomas H. Massey

doi:10.1038/s41593-022-01033-5

Exome sequencing of individuals with Huntington’s disease implicates FAN1 nuclease activity in slowing CAG expansion and disease onset

Branduff McAllister(Cardiff University), Jasmine Donaldson(Cardiff University), Caroline S. Binda(Cardiff University), Sophie Powell(Cardiff University), Uroosa Chughtai(Cardiff University), Gareth Edwards(Cardiff University), Joseph Stone(Cardiff University), S. V. Lobanov(Cardiff University), Linda Elliston(Cardiff University), Laura-Nadine Schuhmacher(Cardiff University), Elliott Rees(Cardiff University), Georgina Menzies(Cardiff University), Marc Ciosi(University of Glasgow), Alastair Maxwell(University of Glasgow), Michael J. Chao(Harvard University), Eun Pyo Hong(Harvard University), Diane Lucente(Harvard University), Vanessa C. Wheeler(Harvard University), Jong‐Min Lee(Broad Institute), Marcy E. MacDonald(Broad Institute), Jeffrey D. Long(University of Iowa), Elizabeth Aylward, G. Bernhard Landwehrmeyer(Universität Ulm), Anne Rosser(Cardiff University), REGISTRY Investigators of the European Huntington’s disease network(University of Wisconsin–Madison), Jane S. Paulsen(University of Wisconsin–Madison), PREDICT-HD Investigators of the Huntington Study Group(Broad Institute), Nigel Williams(University of Glasgow), James F. Gusella(Broad Institute), Darren G. Monckton(University of Glasgow), Nicholas D. Allen(UK Dementia Research Institute), Peter Holmans(Cardiff University), Lesley Jones(UK Dementia Research Institute), Thomas H. Massey(Cardiff University)

Nature Neuroscience

April 1, 2022

10.1038/s41593-022-01033-5

Cited by 86Open Access

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Abstract

The age at onset of motor symptoms in Huntington's disease (HD) is driven by HTT CAG repeat length but modified by other genes. In this study, we used exome sequencing of 683 patients with HD with extremes of onset or phenotype relative to CAG length to identify rare variants associated with clinical effect. We discovered damaging coding variants in candidate modifier genes identified in previous genome-wide association studies associated with altered HD onset or severity. Variants in FAN1 clustered in its DNA-binding and nuclease domains and were associated predominantly with earlier-onset HD. Nuclease activities of purified variants in vitro correlated with residual age at motor onset of HD. Mutating endogenous FAN1 to a nuclease-inactive form in an induced pluripotent stem cell model of HD led to rates of CAG expansion similar to those observed with complete FAN1 knockout. Together, these data implicate FAN1 nuclease activity in slowing somatic repeat expansion and hence onset of HD.

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