Multitrait genome-wide analyses identify new susceptibility loci and candidate drugs to primary sclerosing cholangitis.
Younghun HanJinyoung ByunCatherine ZhuRyan SunJulia Y RohHeather J CordellHyun-Sung LeeVikram R ShawSung Wook KangJavad RazjouyanMatthew A CooleyManal M HassanKatherine A SiminovitchTrine FolseraasDavid EllinghausAnnika BergquistSimon M RushbrookAndre FrankeTom Hemming KarlsenKonstantinos N Lazaridisnull nullKatherine A McGlynnLewis Rowland RobertsChristopher Ian AmosPublished in: Nature communications (2023)
Primary sclerosing cholangitis (PSC) is a rare autoimmune bile duct disease that is strongly associated with immune-mediated disorders. In this study, we implemented multitrait joint analyses to genome-wide association summary statistics of PSC and numerous clinical and epidemiological traits to estimate the genetic contribution of each trait and genetic correlations between traits and to identify new lead PSC risk-associated loci. We identified seven new loci that have not been previously reported and one new independent lead variant in the previously reported locus. Functional annotation and fine-mapping nominated several potential susceptibility genes such as MANBA and IRF5. Network-based in silico drug efficacy screening provided candidate agents for further study of pharmacological effect in PSC.