A common Greenlandic TBC1D4 variant confers muscle insulin resistance and type 2 diabetes

An association mapping study of type-2-diabetes-related quantitative traits in the Greenlandic population identified a common variant in TBC1D4 that increases plasma glucose levels and serum insulin levels after an oral glucose load and type 2 diabetes risk, with effect sizes several times larger th...

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Vydané v:Nature (London) Ročník 512; číslo 7513; s. 190 - 193
Hlavní autori: Moltke, Ida, Grarup, Niels, Jørgensen, Marit E., Bjerregaard, Peter, Treebak, Jonas T., Fumagalli, Matteo, Korneliussen, Thorfinn S., Andersen, Marianne A., Nielsen, Thomas S., Krarup, Nikolaj T., Gjesing, Anette P., Zierath, Juleen R., Linneberg, Allan, Wu, Xueli, Sun, Guangqing, Jin, Xin, Al-Aama, Jumana, Wang, Jun, Borch-Johnsen, Knut, Pedersen, Oluf, Nielsen, Rasmus, Albrechtsen, Anders, Hansen, Torben
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: London Nature Publishing Group UK 14.08.2014
Nature Publishing Group
Predmet:
631/208/1516
631/208/205/2138
692/699/2743/137/773
Adult
Blood Glucose - analysis
Codon, Nonsense - genetics
Complications and side effects
Development and progression
Diabetes
Diabetes Mellitus, Type 2 - genetics
Gene Frequency
Genes
Genetic Variation
Genome-Wide Association Study
Genomics
Genotype
Genotypes
Glucose
Glucose metabolism
Greenland
GTPase-Activating Proteins - genetics
Humanities and Social Sciences
Humans
Insulin
Insulin - blood
Insulin resistance
Insulin Resistance - genetics
letter
Middle Aged
multidisciplinary
Muscle, Skeletal - metabolism
Muscles
Patient outcomes
Population genetics
Risk factors
Science
Type 2 diabetes
Greenland
Denmark
ISSN:0028-0836, 1476-4687, 1476-4687
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Shrnutí:An association mapping study of type-2-diabetes-related quantitative traits in the Greenlandic population identified a common variant in TBC1D4 that increases plasma glucose levels and serum insulin levels after an oral glucose load and type 2 diabetes risk, with effect sizes several times larger than any previous findings of large-scale genome-wide association studies for these traits. Diabetes-linked gene variant identified This systematic genetic association study of quantitative traits related to type 2 diabetes (T2D) has identified a nonsense variant in the gene TBC1D4 which is present in 17% of the Greenlandic population, known to be a small founder population with a high incidence of T2D. The gene variant increases the levels of plasma glucose, serum insulin, and dramatically increases T2D risk. It also modestly reduces the concentrations of fasting plasma and fasting serum insulin. This work illustrates the value of founder populations — or of small and historically isolated populations — in maximizing the effectiveness of genetic association studies of this type. The Greenlandic population, a small and historically isolated founder population comprising about 57,000 inhabitants, has experienced a dramatic increase in type 2 diabetes (T2D) prevalence during the past 25 years 1 . Motivated by this, we performed association mapping of T2D-related quantitative traits in up to 2,575 Greenlandic individuals without known diabetes. Using array-based genotyping and exome sequencing, we discovered a nonsense p.Arg684Ter variant (in which arginine is replaced by a termination codon) in the gene TBC1D4 with an allele frequency of 17%. Here we show that homozygous carriers of this variant have markedly higher concentrations of plasma glucose ( β = 3.8 mmol l −1 , P = 2.5 × 10 −35 ) and serum insulin ( β = 165 pmol l −1 , P = 1.5 × 10 −20 ) 2 hours after an oral glucose load compared with individuals with other genotypes (both non-carriers and heterozygous carriers). Furthermore, homozygous carriers have marginally lower concentrations of fasting plasma glucose ( β = −0.18 mmol l −1 , P = 1.1 × 10 −6 ) and fasting serum insulin ( β = −8.3 pmol l −1 , P = 0.0014), and their T2D risk is markedly increased (odds ratio (OR) = 10.3, P = 1.6 × 10 −24 ). Heterozygous carriers have a moderately higher plasma glucose concentration 2 hours after an oral glucose load than non-carriers ( β = 0.43 mmol l −1 , P = 5.3 × 10 −5 ). Analyses of skeletal muscle biopsies showed lower messenger RNA and protein levels of the long isoform of TBC1D4, and lower muscle protein levels of the glucose transporter GLUT4, with increasing number of p.Arg684Ter alleles. These findings are concomitant with a severely decreased insulin-stimulated glucose uptake in muscle, leading to postprandial hyperglycaemia, impaired glucose tolerance and T2D. The observed effect sizes are several times larger than any previous findings in large-scale genome-wide association studies of these traits 2 , 3 , 4 and constitute further proof of the value of conducting genetic association studies outside the traditional setting of large homogeneous populations.
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ISSN:0028-0836
1476-4687
1476-4687
DOI:10.1038/nature13425