Abstract
Neurological and psychiatric disorders, including substance use disorders, share a range of symptoms, which could be the result of shared genetic background. Many genetic loci have been identified for these disorders using genome-wide association studies, but conclusive evidence about cell types wherein these loci are active is lacking. We aimed to uncover implicated brain cell types in neuropsychiatric traits and to assess consistency in results across RNA datasets and methods. We therefore comprehensively employed cell type enrichment methods by integrating single-cell transcriptomic data from mouse brain regions with an unprecedented dataset of 42 human genome-wide association study results of neuropsychiatric, substance use and behavioral/quantitative brain-related traits (n = 12,544,007 individuals). Single-cell transcriptomic datasets from the Karolinska Institute and 10x Genomics were used. Cell type enrichment was determined using Linkage Disequilibrium Score Regression, Multi-marker Analysis of GenoMic Annotation, and Data-driven Expression Prioritized Integration for Complex Traits. We found the largest degree of consistency across methods for implication of pyramidal cells in schizophrenia and cognitive performance. For other phenotypes, such as bipolar disorder, two methods implicated the same cell types, i.e., medium spiny neurons and pyramidal cells. For autism spectrum disorders and anorexia nervosa, no consistency in implicated cell types was observed across methods. We found no evidence for astrocytes being consistently implicated in neuropsychiatric traits. In conclusion, we provide comprehensive evidence for a subset of neuronal cell types being consistently implicated in several, but not all psychiatric disorders, while non-neuronal cell types seem less implicated.
Highlights
It is well documented that several neuropsychiatric disorders, including substance use disorders (SUDs), share symptoms, which could be the result of shared genetic underpinnings [1, 2]
Cell type-specific gene expression in the 10x Genomics dataset In the quality control of a randomized representative subset (n = 108,844) of the 10x Genomics dataset, 8408 cells and 6419 nonexpressed genes were removed from further analyses
The parameters described in the Methods section “Cell type enrichment using LDSC” provided cell type enrichment results that were most consistent with driven Expression Prioritized Integration for Complex Traits (DEPICT) and marker Analysis of GenoMic Annotation (MAGMA)
Summary
It is well documented that several neuropsychiatric disorders, including substance use disorders (SUDs), share symptoms, which could be the result of shared genetic underpinnings [1, 2]. One reason is missing heritability, meaning the gap between twin-based and single-nucleotide polymorphism (SNP)-based h2 estimates, which may result from limited statistical power, phenotypic heterogeneity, clinical misclassification, GWASs not probing associations with rare variants, epigenetics, genomic interactions, and structural genomic alterations [6]. Due to missing heritability, underlying causal genetic contributors might remain undetected. This impedes the translation of GWAS associations into their functional effects. Another reason explaining why elucidating disease mechanisms in neuropsychiatric disorders has remained challenging is that over 90% of identified variants are located within non-coding regions of the genome, indicating that regulatory elements—e.g., promoters, enhancers, and insulators—may explain part of the underlying genetic mechanisms in some polygenic disorders [4, 7]. Due to extensive linkage disequilibrium (LD), it is challenging to identify a causal variant within a given associated locus [4]
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