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Gene Defect Would Prevent Insulin From Ever Reaching Bloodstream

Gene defect prevents insulin from ever reaching bloodstream

Researchers from the University of Illinois at Chicago College of Medicine have found that dysfunction in a single gene in mice causes fasting hyperglycemia, one of the major symptoms of type 2 diabetes. Their findings were reported online in the journal Diabetes.

If a gene called MADD is not functioning properly, insulin is not released into the bloodstream to regulate blood sugar levels, says Bellur S. Prabhakar, professor and head of microbiology and immunology at UIC and lead author of the paper.

Type 2 diabetes affects roughly 8 percent of Americans and more than 366 million people worldwide. It can cause serious complications, including cardiovascular disease, kidney failure, loss of limbs and blindness.

In a healthy person, beta cells in the pancreas secrete the hormone insulin in response to increases in blood glucose after eating. Insulin allows glucose to enter cells where it can be used as energy, keeping glucose levels in the blood within a narrow range. People with type 2 diabetes don't produce enough insulin or are resistant to its effects. They must closely monitor their blood glucose throughout the day and, when medication fails, inject insulin.

In previous work, Prabhakar isolated several genes from human beta cells, including MADD, which is also involved in certain cancers. Small genetic variations found among thousands of human subjects revealed that a mutation in MADD was strongly associated with type 2 diabetes in Europeans and Han Chinese.

People with this mutation had high blood glucose and problems of insulin secretion - the "hallmarks of type 2 diabetes," Prabhakar said. But it was unclear how the mutation was causing the symptoms, or whether it caused them on its own or in concert with other genes associated with type 2 diabetes.

To study the role of MADD in diabetes, Prabhakar and his colleagues developed a mouse model in which the MADD gene was deleted from the insulin-producing beta cells. All such mice had elevated blood glucose levels, which the researchers found was due to insufficient release of insulin.

Source: http://www.news-medical.net/news/20140105/Dysfunction-in-MADD-gene-in-mice-causes-fasting-hyperglycemia.aspx
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Dysfunction in MADD Gene in Mice Causes Fasting Hyperglycemia