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Four genes indentified that influence levels of ‘bad’ cholesterol

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Four genes indentified that influence levels of ‘bad’ cholesterol

“Our findings are important because they provide new targets for the development of novel drugs to reduce heart disease risk in humans,” said Laura Cox, Ph.D., a Texas Biomed geneticist. “Since these genes have previously been associated with cancer, our findings suggest that genetic causes of heart disease may overlap with causes of some types of cancer.” The new study, funded by the National Institutes of Health (NIH), is published online and will appear in the July print issue of the Journal of Lipid Research. Texas Biomed scientists screened their baboon colony of 1,500 animals to find three half-siblings with low levels of low density lipoprotein (LDL), or “bad,”‘ cholesterol, and three half-siblings with high levels of LDL. In the study, these animals were fed a high-cholesterol, high-fat diet for seven weeks. Scientists then used gene array technology and high throughput sequencers to home in on the genes expressed in the two groups and differentiate those in the low LDL groups from those in the high LDL group. They discovered that four genes (named TENC1, ERBB3, ACVR1B, and DGKA) influence LDL levels. Interestingly, these four genes are part of a signaling pathway important for cell survival and disruption of this pathway promotes some types of cancer. It is well-known that a high level of LDL is a major risk factor for heart disease. Despite concerted efforts for the past 25 years to manage cholesterol levels through changes in lifestyle and treatment with medications, heart disease remains the leading cause of death and mortality in the United States and around the world. It will account for one out of four U.S. deaths in 2013, according to the American Heart Association. Heart disease is a complex disorder thought to be a result of interactions between genetic and environmental factors, which occur primarily through diet. To understand why humans have different levels of LDL and thus variation in risk for heart disease, the genetic factors causing these differences need to be understood. However, these studies are difficult to do in humans because it’s practically impossible to control what people eat. Instead, Texas Biomed scientists are using baboons, which are similar to humans in their physiology and genetics, to identify genes that influence heart disease risk. The new research also suggests that knowing many of the genes responsible for heart disease may be necessary to devise effective treatments. For example, several genes may need to be targeted at once to control risk. The next step in this research is to find the mechanism by which these genes influence LDL cholesterol. “That starts to give us the specific targets for new therapies.” Cox said. If all goes well, this information may be available within two years.

Read more at: http://medicalxpress.com/news/2013-05-genes-indentified-bad-cholesterol.html#jCp

Cercetatorii de la Texas Biomedical Research Institute in San Antonio au descoperit 4 gene noi care regleaza nivelul colesterolului rau din sange. Descoperirea este valoroasa pentru ca poate duce la descoperirea unor noi medicamente care reduce riscul cardiovascular.

Laura Cox, Ph.D., a Texas Biomed geneticist, a spus ca cercetarile lor sunt foarte importante pentru ca deschide calea spre noi medicamente care reduc riscul cardiovascular. In plus, ea a adaugat ca din moment ce aceste gene au fost implicate in patologia cancerului, studiul sugereaza ca cauzele genetice ale bolii cardiovasculare se suprapun cu cauzele de anumite tipuri de cancer. Ceea ce au facut Texas Biomed scientists a fost sa faca screeningul in al lor baboon colony of 1,500 animals pentru a gasi three half-siblings cu nivel scazut de colesterol rau, sau LDL colesterol, trei half siblings cu nivelul crescut de colesterol. Trebuie spus ca cu sapte saptamani inainte aceste animale cu fost hranite cu dieta foarte grasa. Cercetatorii au folosit apoi  pentru a descoperi care gene sunt implicate in grupul cu low LDL colesterol si care sunt implicate in grupul cu high LDL colesterol. Asa au descoperit ca patru gene influenteaza nivelul colesterolului rau: TENC1, ERBB3, ACVR1B, and DGKA. Ceea ce este interesant  este ca aceste gene sunt implicate in