Connecting genetic risk to disease end points through the human blood plasma proteome

Karsten Suhre; Matthias Arnold; Aditya Bhagwat; Richard Cotton; Rudolf Engelke; Johannes Raffler; Hina Sarwath; Gaurav Thareja; Annika Wahl; Robert Kirk DeLisle; Larry Gold; Marija Pezer; Gordan Lauc; Mohammed A. El-Din Selim; Dennis O. Mook‐Kanamori; Eman Al‐Dous; Yasmin A. Mohamoud; Joel A. Malek; Konstantin Strauch; Harald Grallert; Annette Peters; Gabi Kastenmüller; Christian Gieger; Johannes Graumann

doi:10.1038/ncomms14357

Connecting genetic risk to disease end points through the human blood plasma proteome

Karsten Suhre(Weill Cornell Medical College in Qatar), Matthias Arnold(Helmholtz Zentrum München), Aditya Bhagwat(Weill Cornell Medical College in Qatar), Richard Cotton(Weill Cornell Medical College in Qatar), Rudolf Engelke(Weill Cornell Medical College in Qatar), Johannes Raffler(Helmholtz Zentrum München), Hina Sarwath(Weill Cornell Medical College in Qatar), Gaurav Thareja(Weill Cornell Medical College in Qatar), Annika Wahl(Helmholtz Zentrum München), Robert Kirk DeLisle(SomaLogic (United States)), Larry Gold(SomaLogic (United States)), Marija Pezer(Genos (Croatia)), Gordan Lauc(Genos (Croatia)), Mohammed A. El-Din Selim(Hamad Medical Corporation), Dennis O. Mook‐Kanamori(Leiden University), Eman Al‐Dous(Weill Cornell Medical College in Qatar), Yasmin A. Mohamoud(Weill Cornell Medical College in Qatar), Joel A. Malek(Weill Cornell Medical College in Qatar), Konstantin Strauch(Zimmer Biomet (Netherlands)), Harald Grallert(Helmholtz Zentrum München), Annette Peters(Helmholtz Zentrum München), Gabi Kastenmüller(Helmholtz Zentrum München), Christian Gieger(Helmholtz Zentrum München), Johannes Graumann(Weill Cornell Medical College in Qatar)

Nature Communications

February 27, 2017

10.1038/ncomms14357

Cited by 841Open Access

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Abstract

Genome-wide association studies (GWAS) with intermediate phenotypes, like changes in metabolite and protein levels, provide functional evidence to map disease associations and translate them into clinical applications. However, although hundreds of genetic variants have been associated with complex disorders, the underlying molecular pathways often remain elusive. Associations with intermediate traits are key in establishing functional links between GWAS-identified risk-variants and disease end points. Here we describe a GWAS using a highly multiplexed aptamer-based affinity proteomics platform. We quantify 539 associations between protein levels and gene variants (pQTLs) in a German cohort and replicate over half of them in an Arab and Asian cohort. Fifty-five of the replicated pQTLs are located in trans. Our associations overlap with 57 genetic risk loci for 42 unique disease end points. We integrate this information into a genome-proteome network and provide an interactive web-tool for interrogations. Our results provide a basis for novel approaches to pharmaceutical and diagnostic applications.

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