Logo

Logo

Heart disease preventing gene identified in Greeks

Scientists have discovered a genetic variant that protects the heart against cardiovascular diseases and is unique to an isolated Greek…

Heart disease preventing gene identified in Greeks

(Getty Images)

Scientists have discovered a genetic variant that protects the heart against cardiovascular diseases and is unique to an isolated Greek population.

The cardioprotective variant — rs145556679 — was found in the people living in Mylopotamos, northern Crete, who are known to live long and healthy lives despite having a diet rich in animal fat.

"We have discovered a medically relevant genetic variant for traits related to cardiovascular disease, the most common cause of death worldwide," said lead author Eleftheria Zeggini, professor at the Wellcome Trust Sanger Institute in England.

Advertisement

"By studying isolated populations, we are able to identify those genetic variants that are at a higher frequency compared to cosmopolitan populations and this in turn increases our power to detect if these variants are disease causing," added Lorraine Southam, from the Wellcome Trust Sanger Institute. 

For the study, reported in the journal Nature Communications, the scientists made a genetic portrait of the population by sequencing the entire genome of 250 individuals to get an in-depth view. 

The team then used the results to give a more detailed view of approximately 3,200 people for whom previous genetic information was known.

The variant was associated with lower levels of both 'bad' natural fats – triglycerides – and 'bad' cholesterol – very low density lipoprotein cholesterol (VLDL) — factors which lowers the risk of cardiovascular disease.

In addition, analysing the genetics of 1700 people in in the Pomak region of northern Greece, the team discovered four separate genetic variants that affect diastolic blood pressure, fasting glucose levels, white blood cell count and haemoglobin levels.

"With isolated populations, we can get a unique view into rare genetic variants that play important roles in complex human diseases," Southam added.
 

Advertisement