| Literature DB >> 33756103 |
Todd Lencz1, Jin Yu2, Raiyan Rashid Khan3, Erin Flaherty4, Shai Carmi5, Max Lam2, Danny Ben-Avraham6, Nir Barzilai6, Susan Bressman7, Ariel Darvasi8, Judy H Cho9, Lorraine N Clark10, Zeynep H Gümüş11, Joseph Vijai12, Robert J Klein13, Steven Lipkin14, Kenneth Offit15, Harry Ostrer16, Laurie J Ozelius17, Inga Peter11, Anil K Malhotra18, Tom Maniatis19, Gil Atzmon20, Itsik Pe'er21.
Abstract
The identification of rare variants associated with schizophrenia has proven challenging due to genetic heterogeneity, which is reduced in founder populations. In samples from the Ashkenazi Jewish population, we report that schizophrenia cases had a greater frequency of novel missense or loss of function (MisLoF) ultra-rare variants (URVs) compared to controls, and the MisLoF URV burden was inversely correlated with polygenic risk scores in cases. Characterizing 141 "case-only" genes (MisLoF URVs in ≥3 cases with none in controls), the cadherin gene set was associated with schizophrenia. We report a recurrent case mutation in PCDHA3 that results in the formation of cytoplasmic aggregates and failure to engage in homophilic interactions on the plasma membrane in cultured cells. Modeling purifying selection, we demonstrate that deleterious URVs are greatly overrepresented in the Ashkenazi population, yielding enhanced power for association studies. Identification of the cadherin/protocadherin family as risk genes helps specify the synaptic abnormalities central to schizophrenia.Entities:
Keywords: cadherins; exome; founder population; rare variants; schizophrenia
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Year: 2021 PMID: 33756103 PMCID: PMC8177045 DOI: 10.1016/j.neuron.2021.03.004
Source DB: PubMed Journal: Neuron ISSN: 0896-6273 Impact factor: 17.173