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Diabetes gene traced back to Neanderthals

06 January 2014

By Dr Charlotte Warren-Gash

Appeared in BioNews 736

A gene variant increases the risk of type 2 diabetes in Latin American populations, according to a study in Nature.

The risk gene was discovered when researchers tested samples from over 8,000 Mexican and other Latin American individuals, of whom nearly half had type 2 diabetes.

The findings may help to explain why nearly one in six Mexicans has diabetes, whereas the figure is less than one in ten for people from the USA, despite both populations having similar levels of obesity. The research suggests that the new gene variant could account for up to 20 percent of the increased prevalence of type 2 diabetes in Latin Americans.

'To date, genetic studies have largely used samples from people of European or Asian ancestry, which makes it possible to miss culprit genes that are altered at different frequencies in other populations', said Dr José Florez, co-author of the SIGMA Type 2 Diabetes Consortium study, from Harvard Medical School.

'By expanding our search to include samples from Mexico and Latin America, we've found one of the strongest genetic risk factors discovered to date, which could illuminate new pathways to target with drugs and a deeper understanding of the disease', he added.

Known as SLC16A11, the gene variant is present in half of samples from Native Americans and ten percent from East Asians, but is rare in Europeans and Africans. This frequency pattern is unusual: humans as a species are thought to have arisen out of Africa so nearly all common human genetic variants are present in African populations.

The SLC16A11 gene risk variant was also found in a newly sequenced Neanderthal genome in Siberia by researchers from the Max Planck Institute for Evolutionary Anthropology. Further analysis suggests that the SLC16A11 risk variant was introduced into early modern humans by interbreeding with Neanderthals.

Professor David Altshuler, co-senior author and Harvard Medical School Professor, said: 'One of the most exciting aspects of this work is that we've uncovered a new clue about the biology of diabetes. We are now hard at work trying to figure out what is being transported, how this influences triglyceride metabolism and what steps lead to the development of type 2 diabetes'.

Ultimately, the researchers hope that this discovery will lead to improved risk assessment and possibly therapies for type 2 diabetes.

SOURCES & REFERENCES
BBC News | 25 December 2013
 
Science Daily (press release) | 26 December 2013
 
Nature | 25 December 2013
 
The Economist | 04 January 2014
 

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