Abstract
The range of genetic variation with potential clinical implications in schizophrenia, beyond rare copy number variants (CNVs), remains uncertain. We therefore analyzed genome sequencing data for 259 unrelated adults with schizophrenia from a well-characterized community-based cohort previously examined with chromosomal microarray for CNVs (none with 22q11.2 deletions). We analyzed these genomes for rare high-impact variants considered causal for neurodevelopmental disorders, including single-nucleotide variants (SNVs) and small insertions/deletions (indels), for potential clinical relevance based on findings for neurodevelopmental disorders. Also, we investigated a novel variant type, tandem repeat expansions (TREs), in 45 loci known to be associated with monogenic neurological diseases. We found several of these variants in this schizophrenia population suggesting that these variants have a wider clinical spectrum than previously thought. In addition to known pathogenic CNVs, we identified 11 (4.3%) individuals with clinically relevant SNVs/indels in genes converging on schizophrenia-relevant pathways. Clinical yield was significantly enriched in females and in those with broadly defined learning/intellectual disabilities. Genome analyses also identified variants with potential clinical implications, including TREs (one in DMPK; two in ATXN8OS) and ultra-rare loss-of-function SNVs in ZMYM2 (a novel candidate gene for schizophrenia). Of the 233 individuals with no pathogenic CNVs, we identified rare high-impact variants (i.e., clinically relevant or with potential clinical implications) for 14 individuals (6.0%); some had multiple rare high-impact variants. Mean schizophrenia polygenic risk score was similar between individuals with and without clinically relevant rare genetic variation; common variants were not sufficient for clinical application. These findings broaden the individual and global picture of clinically relevant genetic risk in schizophrenia, and suggest the potential translational value of genome sequencing as a single genetic technology for schizophrenia.
Highlights
Schizophrenia is a serious and disabling neuropsychiatric disorder that affects about 1% of the general population
Given the evidence for genetic overlap between schizophrenia and other major neurodevelopmental disorders (NDDs), we conservatively considered only loci and genes as potentially associated with schizophrenia if they had been implicated in any NDD (e.g., intellectual disability (ID) or autism spectrum disorder (ASD)), and their implicated pathways (Supplementary information)[7,8,25,26,27,28,29,30,31,32,33,34,35,36,37,38]
To assess research-based single-nucleotide variants (SNVs) findings, we examined our cohort for all types of rare SNVs in ten genes reported to meet genome-wide significance for schizophrenia from recent meta-analysis results of exome sequencing data from the Schizophrenia Exome Sequencing Meta-analysis (SCHEMA) consortium[40]
Summary
Schizophrenia is a serious and disabling neuropsychiatric disorder that affects about 1% of the general population. Recent technical advances in WGS techniques and analyses allow for the genotyping of more complex genetic variation, such as tandem repetitive DNA elements, throughout the genome, not readily detectable using other sequencing techniques[12]. The pathogenicity of large expansions of tandem DNA (in particular trinucleotide) repeats, has been extensively studied in over 40 genetic disorders, most of which are neurological but sometimes include psychosis[13]. Clinical observations of increased severity and/or younger age at the onset across successive generations historically suggested anticipation in schizophrenia, supporting the possible involvement of repeat expansions[14,15]. The technologies and methodologies available to detect such repetitive DNA elements before now were limited
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