Generative prediction of causal gene sets responsible for complex traits.

Authors

Benjamin Kuznets-Speck, Buduka K Ogonor, Thomas P Wytock, Adilson E Motter

Published in

Proceedings of the National Academy of Sciences of the United States of America. Volume 122. Issue 24. Pages e2415071122. Jun 17, 2025. Epub Jun 12, 2025.

Abstract

The relationship between genotype and phenotype remains an outstanding question for organism-level traits because these traits are generally complex. The challenge arises from complex traits being determined by a combination of multiple genes (or loci), which leads to an explosion of possible genotype-phenotype mappings. The primary techniques to resolve these mappings are genome/transcriptome-wide association studies, which are limited by their lack of causal inference and statistical power. Here, we develop an approach that combines transcriptional data endowed with causal information and a generative machine learning model designed to strengthen statistical power. Our implementation of the approach-dubbed transcriptome-wide conditional variational autoencoder (TWAVE)-includes a variational autoencoder trained on human transcriptional data, which is incorporated into an optimization framework. Given a trait phenotype, TWAVE generates expression profiles, which we dimensionally reduce by identifying independently varying generalized pathways (eigengenes). We then conduct constrained optimization to find causal gene sets that are the gene perturbations whose measured transcriptomic responses best explain trait phenotype differences. By considering several complex traits, we show that the approach identifies causal genes that cannot be detected by the primary existing techniques. Moreover, the approach identifies complex diseases caused by distinct sets of genes, meaning that the disease is polygenic and exhibits distinct subtypes driven by different genotype-phenotype mappings. We suggest that the approach will enable the design of tailored experiments to identify multigenic targets to address complex diseases.

PMID:
40504147
Bibliographic data and abstract were imported from PubMed on 12 Jun 2025.

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