Scientists have identified two genes behind heart defect in people suffering from the Down syndrome. The genes, when produced at elevated levels, work together to disrupt cardiac function.
Scientists have identified two genes behind heart defect in people suffering from the Down syndrome. The genes, when produced at elevated levels, work together to disrupt cardiac development and function, the study shows. Down syndrome occurs when individuals have three, instead of the usual two, copies of human chromosome 21.
“Chromosome 21 is the shortest human chromosome and intensive genetic mapping studies in people with Down syndrome have identified a small region of this chromosome that plays a critical role in causing congenital heart defects,” said Ethan Bier, a biology professor at UC San Diego and one of the principal authors of the study. “This Down syndrome region for congenital heart disease, called the ‘DS-CHD critical region,’ contains several genes that are active in the heart which our collaborator, Julie Korenberg, had suspected of interacting with each other to disrupt cardiac development or function when present in three copies. But exactly which of these half dozen or so genes are the culprits?”
“Identifying the genes within the DS-CHD critical region contributing to congenital heart defects is challenging to address using traditional mammalian experimental models, such as mice,” added Bier, “since the number of possible genetic combinations that would need to be generated and tested is very large.”
To simplify their search, the scientists turned to fruit flies, a simpler and rapidly reproducing biological system with many of the same genes as mice and humans. With help from collaborators Amir Gamliel,Geoff Rosenfeld and Kirk Peterson at the UC San Diego School of Medicine, Rolf Bodmer and Karen Ocorr at the Sanford-Burnham Medical Research Institute, and Julie R. Korenberg at the University of Utah, biologist Tamar Grossman in Bier’s lab devised a sequential genetic approach to untangle the problem.
“First, fruit flies were used to test for all possible pairwise genetic interactions between these genes that might disrupt the function of the simple fluid pumping fly heart,” said Bier.” These comprehensive genetic studies pointed to a particular pair of genes known as DSCAM and COL6A2 that resulted in the most severe defects when over-produced together.”
Then the researchers tested the effects of increasing the levels of these genes in the hearts of experimental mice. They first generated genetic lines of mice having elevated activity of each of these genes in the heart and then genetically crossed these mice to create offspring that over-produced both genes together. The parental mice as well as their offspring were then tested for heart function and visible heart defects.
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“Such thickening of the heart wall greatly reduces heart function and can lead to fatal heart attacks, which indeed was observed among some of the more seriously affected DSCAM and COL6A2 over-producing mice.
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The findings are published in the November 3 issue of the open access journal PLoS Genetics.
Source-Medindia