Polygenic Regression Uncovers Trait-relevant Cellular Contexts Through Pathway Activation Transformation of Single-cell RNA Sequencing Data

Overview

Journal Cell Genom

Date 2023 Sep 18

PMID 37719150

Authors

Yunlong Ma

Chunyu Deng

Yijun Zhou

Yaru Zhang

Fei Qiu

Dingping Jiang

Gongwei Zheng

Jingjing Li

Jianwei Shuai

Yan Zhang

Jian Yang

Jianzhong Su

Affiliations

Soon will be listed here.

Abstract

Advances in single-cell RNA sequencing (scRNA-seq) techniques have accelerated functional interpretation of disease-associated variants discovered from genome-wide association studies (GWASs). However, identification of trait-relevant cell populations is often impeded by inherent technical noise and high sparsity in scRNA-seq data. Here, we developed scPagwas, a computational approach that uncovers trait-relevant cellular context by integrating pathway activation transformation of scRNA-seq data and GWAS summary statistics. scPagwas effectively prioritizes trait-relevant genes, which facilitates identification of trait-relevant cell types/populations with high accuracy in extensive simulated and real datasets. Cellular-level association results identified a novel subpopulation of naive CD8 T cells related to COVID-19 severity and oligodendrocyte progenitor cell and microglia subsets with critical pathways by which genetic variants influence Alzheimer's disease. Overall, our approach provides new insights for the discovery of trait-relevant cell types and improves the mechanistic understanding of disease variants from a pathway perspective.

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