Predicted loss and gain of function mutations in ACO1 are associated with erythropoiesis

Gudjon R. Oskarsson(deCODE Genetics (Iceland)), Ásmundur Oddsson(deCODE Genetics (Iceland)), Magnús K. Magnússon(deCODE Genetics (Iceland)), Ragnar P. Kristjansson(deCODE Genetics (Iceland)), Gísli H. Halldórsson(deCODE Genetics (Iceland)), Egil Ferkingstad(deCODE Genetics (Iceland)), Florian Zink(deCODE Genetics (Iceland)), Anna Helgadóttir(deCODE Genetics (Iceland)), Erna V. Ivarsdottir(deCODE Genetics (Iceland)), Gudny A. Arnadottir(deCODE Genetics (Iceland)), Brynjar Ö. Jensson(deCODE Genetics (Iceland)), Hildigunnur Katrínardóttir(deCODE Genetics (Iceland)), Garðar Sveinbjörnsson(deCODE Genetics (Iceland)), Anna M. Kristinsdottir(deCODE Genetics (Iceland)), Amy L. Lee(deCODE Genetics (Iceland)), Jona Saemundsdottir(deCODE Genetics (Iceland)), Lilja Stefánsdóttir(deCODE Genetics (Iceland)), Jon K. Sigurdsson(deCODE Genetics (Iceland)), Olafur B. Davidsson(deCODE Genetics (Iceland)), Stefania Benónísdóttir(deCODE Genetics (Iceland)), Áslaug Jónasdóttir(deCODE Genetics (Iceland)), Aðalbjörg Jónasdóttir(deCODE Genetics (Iceland)), Stefan Jonsson(deCODE Genetics (Iceland)), Reynir L. Gudmundsson(deCODE Genetics (Iceland)), Folkert W. Asselbergs(Utrecht University), Vinicius Tragante(deCODE Genetics (Iceland)), Bjarni Gunnarsson(deCODE Genetics (Iceland)), Gísli Másson(deCODE Genetics (Iceland)), Guðmar Þorleifsson(deCODE Genetics (Iceland)), Þórunn Rafnar(deCODE Genetics (Iceland)), Hilma Hólm(deCODE Genetics (Iceland)), Ísleifur Ólafsson(National University Hospital of Iceland), Páll T. Önundarson(University of Iceland), Daníel F. Guðbjartsson(deCODE Genetics (Iceland)), Gudmundur L. Norddahl(deCODE Genetics (Iceland)), Unnur Þorsteinsdóttir(deCODE Genetics (Iceland)), Patrick Sulem(deCODE Genetics (Iceland)), Kāri Stefánsson(deCODE Genetics (Iceland))
Communications Biology
April 23, 2020
10.1038/s42003-020-0921-5
Cited by 42Open Access
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Abstract

Abstract Hemoglobin is the essential oxygen-carrying molecule in humans and is regulated by cellular iron and oxygen sensing mechanisms. To search for novel variants associated with hemoglobin concentration, we performed genome-wide association studies of hemoglobin concentration using a combined set of 684,122 individuals from Iceland and the UK. Notably, we found seven novel variants, six rare coding and one common, at the ACO1 locus associating with either decreased or increased hemoglobin concentration. Of these variants, the missense Cys506Ser and the stop-gained Lys334Ter mutations are specific to eight and ten generation pedigrees, respectively, and have the two largest effects in the study (Effect Cys506Ser = −1.61 SD, CI 95 = [−1.98, −1.35]; Effect Lys334Ter = 0.63 SD, CI 95 = [0.36, 0.91]). We also find Cys506Ser to associate with increased risk of persistent anemia (OR = 17.1, P = 2 × 10 −14 ). The strong bidirectional effects seen in this study implicate ACO1 , a known iron sensing molecule, as a major homeostatic regulator of hemoglobin concentration.

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