Trans-ancestry genome-wide study of depression identifies 697 associations implicating cell types and pharmacotherapies.

Overview of MD GWAS and downstream analysesFigure shows the 3 meta-analyses conducted (middle, deeper blue). Predictive testing using polygenic risk scores was conducted using both European and all ancestries GWAS summary statistics (left-hand side of the figure). Bioinformatic and mechanistic analyses were conducted using European-only GWAS summary statistics because many of the methods depend on a single suitable linkage equilibrium reference panel, and methods to generalize these approaches to trans-ancestry summary statistics were still in development at the time of submission.

Manhattan plot of GWAS meta-analysis of 688,808 MD cases and 4,364,225 controlsManhattan plot displaying the significance of each SNP’s association with MD across the genome (vertical axis shows −log10 p value). Chromosomal position of each SNP is shown on the horizontal axis. The horizontal line at 7.3 (−log10(5 × 10−8)) indicates the genome-wide statistical significance threshold.

Broad brain cell category enrichment analysisCell-type enrichment analysis. 20 categories of brain cell types are listed (from a total of 39 broad brain cell-type categories tested) along the vertical axis, and horizontal bar size represents the significance of the enrichment measured using MAGMA gene set enrichment test or partitioned LDSC. Color encodes results that were significant after false discovery rate correction. Bars in salmon color represent enrichments significant using both methods; green, MAGMA only; blue, partitioned LDSC only; and purple when neither method showed significant enrichment. 19 broad categories not displayed were not significant using either method. Columns represent the results of each test using summary statistics from MDD2013, MDD2018, and this study. The dotted line shows threshold of nominal (uncorrected) statistical significance.

MD polygenic score prediction into European ancestry studies(A) Comparison of liability R2 by input summary statistics by availability (full dataset with 23andMe versus public dataset without 23andMe, using p value clumping + thresholding at p ≤ 0.05 [P+CT]), PGS method (P+CT versus SBayesR), and discovery dataset (previous Howard et al.2 versus current MDD2024 SBayesR). The R2 are estimated across 42 cohorts with individual-level data. For the discovery panel, the R2 are estimated from the 20 cohorts with individual-level data contributed to the PGC after the Howard et al.2 study. The rl2 was calculated using a lifetime prevalence of 0.15.(B) Odds ratio by decile, with reference to decile 1, for clinical and community-ascertained studies (SBayesR). Bars reflecting the 95% confidence interval (CI) are based on estimates from the logistic regression.

Polygenic prediction of MD status from European and multi-ancestry GWAS into ancestrally diverse non-European studiesDetails of cohorts found in Table S1. The rl2 was calculated using a prevalence of 0.15 with the P+CT method. The error bars are confidence intervals calculated using bootstrap. The training data did not include 23andMe because of access limitations. AFR, African ancestry; AMR, Hispanic and Latin American ethnicities; EAS, East Asian ancestries; EUR, European ancestries; SAS, South Asian ancestries.