Eighty-eight variants highlight the role of T cell regulation and airway remodeling in asthma pathogenesis

Thorunn A. Olafsdottir; Fannar Theódórs; Kristbjörg Bjarnadóttir; Unnur Steina Björnsdóttir; Arna B. Agustsdottir; Ólafur Andri Stefánsson; Erna V. Ivarsdottir; Jon K. Sigurdsson; Stefania Benónísdóttir; Guðmundur I. Eyjólfsson; Davíð Gíslason; Þórarinn Gíslason; Steinunn Guðmundsdóttir; Arnaldur Gylfason; Bjarni V. Halldórsson; Gísli H. Halldórsson; Thorhildur Juliusdottir; Anna M. Kristinsdottir; Dóra Lúðvíksdóttir; Björn R. Lúdvíksson; Gísli Másson; Kristján Norland; Páll T. Önundarson; Ísleifur Ólafsson; Ólöf Sigurðardóttir; Lilja Stefánsdóttir; Garðar Sveinbjörnsson; Vinicius Tragante; Daníel F. Guðbjartsson; Guðmar Þorleifsson; Patrick Sulem; Unnur Þorsteinsdóttir; Gudmundur L. Norddahl; Ingileif Jónsdóttir; Kāri Stefánsson

doi:10.1038/s41467-019-14144-8

Eighty-eight variants highlight the role of T cell regulation and airway remodeling in asthma pathogenesis

Thorunn A. Olafsdottir(deCODE Genetics (Iceland)), Fannar Theódórs(deCODE Genetics (Iceland)), Kristbjörg Bjarnadóttir(deCODE Genetics (Iceland)), Unnur Steina Björnsdóttir(National University Hospital of Iceland), Arna B. Agustsdottir(deCODE Genetics (Iceland)), Ólafur Andri Stefánsson(deCODE Genetics (Iceland)), Erna V. Ivarsdottir(deCODE Genetics (Iceland)), Jon K. Sigurdsson(deCODE Genetics (Iceland)), Stefania Benónísdóttir(deCODE Genetics (Iceland)), Guðmundur I. Eyjólfsson, Davíð Gíslason(National University Hospital of Iceland), Þórarinn Gíslason(University of Iceland), Steinunn Guðmundsdóttir(deCODE Genetics (Iceland)), Arnaldur Gylfason(deCODE Genetics (Iceland)), Bjarni V. Halldórsson(Reykjavík University), Gísli H. Halldórsson(deCODE Genetics (Iceland)), Thorhildur Juliusdottir(deCODE Genetics (Iceland)), Anna M. Kristinsdottir(deCODE Genetics (Iceland)), Dóra Lúðvíksdóttir(University of Iceland), Björn R. Lúdvíksson(University of Iceland), Gísli Másson(deCODE Genetics (Iceland)), Kristján Norland(deCODE Genetics (Iceland)), Páll T. Önundarson(University of Iceland), Ísleifur Ólafsson(National University Hospital of Iceland), Ólöf Sigurðardóttir(University of Iceland), Lilja Stefánsdóttir(deCODE Genetics (Iceland)), Garðar Sveinbjörnsson(deCODE Genetics (Iceland)), Vinicius Tragante(deCODE Genetics (Iceland)), Daníel F. Guðbjartsson(deCODE Genetics (Iceland)), Guðmar Þorleifsson(deCODE Genetics (Iceland)), Patrick Sulem(deCODE Genetics (Iceland)), Unnur Þorsteinsdóttir(deCODE Genetics (Iceland)), Gudmundur L. Norddahl(deCODE Genetics (Iceland)), Ingileif Jónsdóttir(deCODE Genetics (Iceland)), Kāri Stefánsson(deCODE Genetics (Iceland))

Nature Communications

January 20, 2020

10.1038/s41467-019-14144-8

Cited by 103Open Access

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Abstract

Asthma is one of the most common chronic diseases affecting both children and adults. We report a genome-wide association meta-analysis of 69,189 cases and 702,199 controls from Iceland and UK biobank. We find 88 asthma risk variants at 56 loci, 19 previously unreported, and evaluate their effect on other asthma and allergic phenotypes. Of special interest are two low frequency variants associated with protection against asthma; a missense variant in TNFRSF8 and 3' UTR variant in TGFBR1. Functional studies show that the TNFRSF8 variant reduces TNFRSF8 expression both on cell surface and in soluble form, acting as loss of function. eQTL analysis suggests that the TGFBR1 variant acts through gain of function and together with an intronic variant in a downstream gene, SMAD3, points to defective TGFβR1 signaling as one of the biological perturbations increasing asthma risk. Our results increase the number of asthma variants and implicate genes with known role in T cell regulation, inflammation and airway remodeling in asthma pathogenesis.

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