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. 2017 Apr 21;12(4):e0173944.
doi: 10.1371/journal.pone.0173944. eCollection 2017.

Whole-genome sequencing suggests mechanisms for 22q11.2 deletion-associated Parkinson's disease

Nancy J Butcher  1   2   3 Daniele Merico  4 Mehdi Zarrei  4 Lucas Ogura  1 Christian R Marshall  4   5 Eva W C Chow  1   2   6 Anthony E Lang  3   7   8   9   10 Stephen W Scherer  3   4   5 Anne S Bassett  1   2   3   6   11   12   13   14
Affiliations

Whole-genome sequencing suggests mechanisms for 22q11.2 deletion-associated Parkinson's disease

Nancy J Butcher et al. PLoS One. .

Abstract

Objectives: To investigate disease risk mechanisms of early-onset Parkinson's disease (PD) associated with the recurrent 22q11.2 deletion, a genetic risk factor for early-onset PD.

Methods: In a proof-of-principle study, we used whole-genome sequencing (WGS) to investigate sequence variants in nine adults with 22q11.2DS, three with neuropathologically confirmed early-onset PD and six without PD. Adopting an approach used recently to study schizophrenia in 22q11.2DS, here we tested candidate gene-sets relevant to PD.

Results: No mutations common to the cases with PD were found in the intact 22q11.2 region. While all were negative for rare mutations in a gene-set comprising PD disease-causing and risk genes, another candidate gene-set of 1000 genes functionally relevant to PD presented a nominally significant (P = 0.03) enrichment of rare putatively damaging missense variants in the PD cases. Polygenic score results, based on common variants associated with PD risk, were non-significantly greater in those with PD.

Conclusions: The results of this first-ever pilot study of WGS in PD suggest that the cumulative burden of genome-wide sequence variants may contribute to expression of early-onset PD in the presence of threshold-lowering dosage effects of a 22q11.2 deletion. We found no evidence that expression of PD in 22q11.2DS is mediated by a recessive locus on the intact 22q11.2 chromosome or mutations in known PD genes. These findings offer initial evidence of the potential effects of multiple within-individual rare variants on the expression of PD and the utility of next generation sequencing for studying the etiology of PD.

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Conflict of interest statement

Competing Interests: Dr. Butcher received a training award from Brain Canada and Canadian Institutes of Health Research Frederick Banting and Charles Best Canada Graduate Scholarship. Dr. Merico receives Science and Technology Innovation Centre funding from Genome Canada/Ontario Genomics Institute. Dr. Zarrei reports no disclosures. Mr. Ogura reports no disclosures. Dr. Marshall reports no disclosures. Dr. Chow receives research support from the National Institutes of Health (NIH; 5U01MH101723-02). Dr. Lang receives research support from Brain Canada, Canadian Institutes of Health Research (CIHR), Edmond J. Safra Philanthropic Foundation, Michael J. Fox Foundation, National Parkinson Foundation, Ontario Brain Institute, Parkinson Society Canada, Tourette Syndrome Association, W. Garfield Weston Foundation; honoraria from Medtronic, Teva, UCB, AbbVie; royalties from Saunders, Wiley-Blackwell, Johns Hopkins Press, Cambridge University Press; and acted as an advisor to Abbvie, Allon Therapeutics, Avanir Pharmaceuticals, Biogen Idec, Boerhinger-Ingelheim, Bristol-Myers Squibb, Ceregene, Lilly, Medtronic, Merck, Novartis, Teva, and UCB and as an expert witness in cases related to the welding industry. Dr. Scherer serves on the Scientific Advisory Board of Population Diagnostics and is a co-founder of YouNique Genomics. Dr. Bassett receives research support from CIHR (MOP #97800, MOP #111238), the Canada Research Chairs in Schizophrenia Genetics and Genomic Disorders, the Dalgish Chair, the NIH (5U01MH101723-02), and the University of Toronto McLaughlin Centre (MC-2014-01). This does not alter our adherence to PLOS ONE policies on sharing data and materials.

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