Largest Bipolar Disorder GWAS Identifies 298 Risk Loci and Implicates GABAergic Interneurons
A multi-ancestry GWAS meta-analysis of 158,036 bipolar disorder cases identified 298 genome-wide significant loci, a fourfold increase over previous studies, with fine-mapping prioritizing 36 credible causal genes. Convergence between common and rare variant signals, along with cell-type enrichment in GABAergic interneurons and medium spiny neurons, provides biological insights into disease mechanisms. For diagnostic laboratories, this study advances the genetic architecture understanding needed for future polygenic risk scoring applications in psychiatry.
The original study
Genomics yields biological and phenotypic insights into bipolar disorder.
- Authors
- O'Connell KS, Koromina M, van der Veen T, Boltz T, David FS, Yang JMK, et al.
- Journal
- Nature
- Type
- Journal Article, Meta-Analysis
- PMID
- 39843750
Original abstract
Bipolar disorder is a leading contributor to the global burden of disease1. Despite high heritability (60-80%), the majority of the underlying genetic determinants remain unknown2. We analysed data from participants of European, East Asian, African American and Latino ancestries (n = 158,036 cases with bipolar disorder, 2.8 million controls), combining clinical, community and self-reported samples. We identified 298 genome-wide significant loci in the multi-ancestry meta-analysis, a fourfold increase over previous findings3, and identified an ancestry-specific association in the East Asian cohort. Integrating results from fine-mapping and other variant-to-gene mapping approaches identified 36 credible genes in the aetiology of bipolar disorder. Genes prioritized through fine-mapping were enriched for ultra-rare damaging missense and protein-truncating variations in cases with bipolar disorder4, highlighting convergence of common and rare variant signals. We report differences in the genetic architecture of bipolar disorder depending on the source of patient ascertainment and on bipolar disorder subtype (type I or type II). Several analyses implicate specific cell types in the pathophysiology of bipolar disorder, including GABAergic interneurons and medium spiny neurons. Together, these analyses provide additional insights into the genetic architecture and biological underpinnings of bipolar disorder.