Litcius/Paper detail

Genome-wide CRISPR screening of chondrocyte maturation newly implicates genes in skeletal growth and height-associated GWAS loci

John M. Baronas, Eric Bartell, Anders Eliasen, John G. Doench, Loïc Yengo, Sailaja Vedantam, Eirini Marouli, Henry M. Kronenberg, Joel N. Hirschhorn, Nora E. Renthal

2023Cell Genomics19 citationsDOIOpen Access PDF

Abstract

Alterations in the growth and maturation of chondrocytes can lead to variation in human height, including monogenic disorders of skeletal growth. We aimed to identify genes and pathways relevant to human growth by pairing human height genome-wide association studies (GWASs) with genome-wide knockout (KO) screens of growth-plate chondrocyte proliferation and maturation in vitro. We identified 145 genes that alter chondrocyte proliferation and maturation at early and/or late time points in culture, with 90% of genes validating in secondary screening. These genes are enriched in monogenic growth disorder genes and in KEGG pathways critical for skeletal growth and endochondral ossification. Further, common variants near these genes capture height heritability independent of genes computationally prioritized from GWASs. Our study emphasizes the value of functional studies in biologically relevant tissues as orthogonal datasets to refine likely causal genes from GWASs and implicates new genetic regulators of chondrocyte proliferation and maturation.

Topics & Concepts

Genome-wide association studyCRISPRBiologyGeneticsGeneGenomeComputational biologySingle-nucleotide polymorphismGenotypeCancer-related molecular mechanisms researchinterferon and immune responsesRNA Research and Splicing