High Insulin Levels Tied to Obesity Pathway
Targeted News Service
Researchers with UT Southwestern's Touchstone Diabetes Center found that giving mice high levels of insulin, which is typically done to counter the effects of diabetes or insulin resistance in Type 2 diabetes, also fosters processes that lead to obesity.
The discovery was made by studying mice engineered to lack receptors for a hormone called glucagon.
Glucagon spurs the liver's production of glucose into the bloodstream and thus maintains the fuel supply for the brain. Insulin blocks the secretion of glucagon, opposes glucagon action on the liver, and instructs the body to take up glucose from the blood. Type 2 diabetics cannot respond properly to insulin and have uncontrolled glucagon production, thereby causing their livers to overproduce glucose, contributing to high blood-sugar levels. Insulin is often given to people with type 2 diabetes to try to overcome insulin-resistance and lower the levels of glucose in the bloodstream.
But insulin also signals the body to produce fat, so when given the high levels of insulin needed to control excess glucose, mice become fat, explained corresponding author Dr.
"We found that mice lacking the receptor for glucagon cannot get fat unless they are given the high levels of insulin found in mice (and humans) that have type 2 diabetes," said
The findings suggest that physicians may need to reconsider use of intensive insulin therapy to control hyperglycemia (high blood-sugar levels) in obese, diabetic patients with hyperinsulinemia (overproduction of insulin). In addition, the findings suggest that suppressing glucagon action could prevent hyperinsulinemia, without causing diabetes. The research team found that suppressing glucagon in obese, insulin-resistant, type 2 diabetic mice reduced blood glucose back to normal levels.
Glucagon and insulin normally counteract each other as part of an ongoing effort to stabilize blood-sugar levels. The glucagon hormone is produced and released by the pancreas in response to low concentrations of insulin and, conversely, glucagon release is suppressed by high levels of insulin in the bloodstream. The balance between the two hormones is disrupted in type 2 diabetics by the insulin that is given to control high glucose levels. This excess insulin, in turn, causes the body to produce excess fat. The new findings lead the authors to suggest that the high insulin levels actually aggravate diabetes. The optimal therapy, they propose, should be diet restriction and reducing glucagon levels.
According to estimates of the
The work, published in the journal Proceedings of the
The current research was supported by grants from
Other researchers involved in the work include senior author Dr.
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