Variations in the G6PC2/ABCB11 genomic region are associated with fasting glucose levels

Wei‐Min Chen; Michael R. Erdos; Anne Jackson; Richa Saxena; Serena Sanna; Kristi D. Silver; Nicholas J. Timpson; Torben Hansen; Marco Orrù; Maria Grazia Piras; Lori L. Bonnycastle; Cristen J. Willer; Valeriya Lyssenko; Haiqing Shen; Johanna Kuusisto; Shah Ebrahim; Natascia Sestu; William L. Duren; Maria Cristina Spada; Heather M. Stringham; Laura J. Scott; Nazario Olla; Amy J. Swift; Samer S. Najjar; Braxton D. Mitchell; Debbie A. Lawlor; George Davey Smith; Yoav Ben‐Shlomo; Gitte Andersen; Knut Borch‐Johnsen; Torben Jørgensen; Jouko Saramies; Timo T. Valle; Thomas A. Buchanan; Alan R. Shuldiner; Edward G. Lakatta; Richard N. Bergman; Manuela Uda; Jaakko Tuomilehto; Oluf Pedersen; Antonio Cao; Leif Groop; Karen L. Mohlke; Markku Laakso; David Schlessinger; Francis S. Collins; David Altshuler; Gonçalo R. Abecasis; Michael Boehnke; Angelo Scuteri; Richard M. Watanabe

doi:10.1172/jci34566

Variations in the G6PC2/ABCB11 genomic region are associated with fasting glucose levels

Wei‐Min Chen(University of Virginia), Michael R. Erdos(National Institutes of Health), Anne Jackson(University of Michigan), Richa Saxena(Broad Institute), Serena Sanna(National Academies of Sciences, Engineering, and Medicine), Kristi D. Silver(University of Maryland, Baltimore), Nicholas J. Timpson(University of Bristol), Torben Hansen(Steno Diabetes Centers), Marco Orrù(National Academies of Sciences, Engineering, and Medicine), Maria Grazia Piras(National Academies of Sciences, Engineering, and Medicine), Lori L. Bonnycastle(National Institutes of Health), Cristen J. Willer(University of Michigan), Valeriya Lyssenko(Malmö University), Haiqing Shen(University of Maryland, Baltimore), Johanna Kuusisto(University of Eastern Finland), Shah Ebrahim(University of London), Natascia Sestu(National Institutes of Health), William L. Duren(University of Michigan), Maria Cristina Spada(National Academies of Sciences, Engineering, and Medicine), Heather M. Stringham(University of Michigan), Laura J. Scott(University of Michigan), Nazario Olla(National Academies of Sciences, Engineering, and Medicine), Amy J. Swift(National Institutes of Health), Samer S. Najjar(National Institutes of Health), Braxton D. Mitchell(University of Maryland, Baltimore), Debbie A. Lawlor(University of Bristol), George Davey Smith(University of Bristol), Yoav Ben‐Shlomo(University of Bristol), Gitte Andersen(Steno Diabetes Centers), Knut Borch‐Johnsen(Steno Diabetes Centers), Torben Jørgensen(University of Copenhagen), Jouko Saramies(Save the Children), Timo T. Valle(University of Helsinki), Thomas A. Buchanan(University of Southern California), Alan R. Shuldiner(University of Maryland, Baltimore), Edward G. Lakatta(National Institutes of Health), Richard N. Bergman(University of Southern California), Manuela Uda(National Academies of Sciences, Engineering, and Medicine), Jaakko Tuomilehto(University of Helsinki), Oluf Pedersen(Steno Diabetes Centers), Antonio Cao(National Academies of Sciences, Engineering, and Medicine), Leif Groop(Malmö University), Karen L. Mohlke(University of North Carolina at Chapel Hill), Markku Laakso(University of Eastern Finland), David Schlessinger(National Institutes of Health), Francis S. Collins(National Institutes of Health), David Altshuler(Broad Institute), Gonçalo R. Abecasis(University of Michigan), Michael Boehnke(University of Michigan), Angelo Scuteri(National Institutes of Health), Richard M. Watanabe(University of Southern California)

Journal of Clinical Investigation

June 1, 2008

10.1172/jci34566

Cited by 178Open Access

Full Text

Abstract

Identifying the genetic variants that regulate fasting glucose concentrations may further our understanding of the pathogenesis of diabetes. We therefore investigated the association of fasting glucose levels with SNPs in 2 genome-wide scans including a total of 5,088 nondiabetic individuals from Finland and Sardinia. We found a significant association between the SNP rs563694 and fasting glucose concentrations (P = 3.5 x 10(-7)). This association was further investigated in an additional 18,436 nondiabetic individuals of mixed European descent from 7 different studies. The combined P value for association in these follow-up samples was 6.9 x 10(-26), and combining results from all studies resulted in an overall P value for association of 6.4 x 10(-33). Across these studies, fasting glucose concentrations increased 0.01-0.16 mM with each copy of the major allele, accounting for approximately 1% of the total variation in fasting glucose. The rs563694 SNP is located between the genes glucose-6-phosphatase catalytic subunit 2 (G6PC2) and ATP-binding cassette, subfamily B (MDR/TAP), member 11 (ABCB11). Our results in combination with data reported in the literature suggest that G6PC2, a glucose-6-phosphatase almost exclusively expressed in pancreatic islet cells, may underlie variation in fasting glucose, though it is possible that ABCB11, which is expressed primarily in liver, may also contribute to such variation.

Related Papers

No related papers found

Powered by citation graph analysis