Analysis of Genetic Variation in Akt2/PKB-[beta] in Severe Insulin Resistance, Lipodystrophy, Type 2 Diabetes, and Related Metabolic Phenotypes

Analysis of Genetic Variation in Akt2/PKB-[beta] in Severe Insulin Resistance, Lipodystrophy, Type 2 Diabetes, and Related Metabolic Phenotypes

We previously reported a family in which a heterozygous missense mutation in Akt2 led to a dominantly inherited syndrome of insulin-resistant diabetes and partial lipodystrophy. To determine whether genetic variation in AKT2 plays a broader role in human metabolic disease, we sequenced the entire co...

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Bibliographic Details
Published in:Diabetes (New York, N.Y.) Vol. 56; no. 3; pp. 714 - 719
Main Authors: Tan, Karen, Kimber, Wendy A, Luan, Jian'an, Soos, Maria A
Format: Journal Article
Language:English
Published: New York American Diabetes Association 01-03-2007
Subjects:
Diabetes
Glucose
Insulin resistance
Kinases
Metabolism
Mutation
Peptides
Phosphorylation
Polymorphism
Research design
United Kingdom > UK
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Summary:We previously reported a family in which a heterozygous missense mutation in Akt2 led to a dominantly inherited syndrome of insulin-resistant diabetes and partial lipodystrophy. To determine whether genetic variation in AKT2 plays a broader role in human metabolic disease, we sequenced the entire coding region and splice junctions of AKT2 in 94 unrelated patients with severe insulin resistance, 35 of whom had partial lipodystrophy. Two rare missense mutations (R208K and R467W) were identified in single individuals. However, insulin-stimulated kinase activities of these variants were indistinguishable from wild type. In two large case-control studies (total number of participants 2,200), 0 of 11 common single nucleotide polymorphism (SNPs) in AKT2 showed significant association with type 2 diabetes. In a quantitative trait study of 1,721 extensively phenotyped individuals from the U.K., no association was found with any relevant intermediate metabolic trait. In summary, although heterozygous loss-of- function mutations in AKT2 can cause a syndrome of severe insulin resistance and lipodystrophy in humans, such mutations are uncommon causes of these syndromes. Furthermore, genetic variation in and around the AKT2 locus is unlikely to contribute significantly to the risk of type 2 diabetes or related intermediate metabolic traits in U.K. populations.
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ISSN:0012-1797
1939-327X