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deCODE Discovers Major Genetic Risk Factor for Type 2 Diabetes

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News

deCODE Discovers Major Genetic Risk Factor for Type 2 Diabetes

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A team of scientists from deCODE genetics and colleagues have reported the discovery of a variant in a gene on chromosome 10 that represents significant genetic risk factor for type 2 diabetes (T2D) found to date.

The paper is published in one of the online edition of Nature Genetics, and will appear in the journal’s February print edition.

"This is a milestone in human genetics. A common gene variant conferring elevated risk of T2D has been earnestly sought by the genetics community for many years," said Kari Stefansson, CEO of deCODE and senior author on the study.

"We have found such a variant, which we estimate accounts for about 20% of T2D cases. This discovery sheds new light on the biological causes of the disease."

"Importantly, virtually all of this risk can be captured by looking at a single-letter change in DNA - ideal for the development of a genetic test for assessing individual risk and developing more personalized and effective prevention strategies."

"This is also an exciting starting point for the discovery of new drugs, and we are actively pursuing the development of both diagnostic and therapeutic products to better prevent and treat T2D."

The variant is located in a gene encoding a protein called transcription factor 7-like 2 (TCF7L2).

deCODE isolated the gene by following up on the results of a population-based, genome-wide linkage scan in Iceland that identified a promising region on chromosome 10.

The deCODE team genotyped 228 microsatellite markers - polymorphic signposts along the genome - in this region in a total of 2000 patients and controls.

Analysis of the frequency of different alleles, or versions, of these markers pinpointed a version of one marker within the gene encoding TCF7L2 that is approximately 1.5 times more common in patients than in controls.

This corresponds to a 50% increase in risk of T2D per copy carried (there are two copies of each chromosome in every cell).

This finding was replicated in Danish and U.S . cohorts, where the at-risk version of the marker was found to confer an increased risk of 41% and 85%, respectively, per copy carried.

For all of the cohorts combined, the at-risk allele confers an increase in risk of approximately 45% for those carrying one copy, and a 141% increase in risk for individuals carrying two copies.

Utilizing data from the HapMap project, a SNP was found that correlates nearly perfectly with the at-risk microsatellite.

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