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Researchers identify key player that helps prevent ‘insulin shock’

Researchers identify key player that helps prevent 'insulin shock'

New York, April 23 (SocialNews.XYZ) A team of scientists at the University of California San Diego School of Medicine has identified a key player that helps prevent "insulin shock" and may lead to a therapeutic alternative to the hormone used by millions of persons with diabetes.

Although insulin is one of the most essential hormones, whose insufficiency can result in death, too much insulin can also be deadly.

 

"Patients who are treated with insulin or drugs that stimulate insulin secretion often experience hypoglycemia, a condition that if gone unrecognised and untreated can result in seizures, coma and even death, which collectively define a condition called insulin shock," explained Michael Karin, distinguished professor of pharmacology and pathology at UC San Diego School of Medicine.

In the study, published in the online edition of journal Cell Metabolism, Karin and Li Gu, a postdoctoral scholar in Karin's lab, and colleagues described "the body's natural defense or safety valve" that reduces the risk of insulin shock.

That valve is a metabolic enzyme called fructose-1,6-bisphosphate phosphatase or FBP1, which acts to control gluconeogenesis, a process in which the liver synthesises glucose.

Some anti-diabetic drugs, such as metformin, inhibit gluconeogenesis but without apparent ill effect.

Children born with a rare, genetic disorder in which they do not produce sufficient FBP1 can also remain healthy and live long lives.

But in other cases, when the body is starved for glucose or carbohydrates, an FBP1 deficiency can result in severe hypoglycemia.

Without a glucose infusion, convulsions, coma and possibly death can ensue.

To better understand the roles of FBP1, researchers created a mouse model with liver specific FBP1 deficiency, accurately mimicking the human condition.

Like FBP1-deficient children, the mice appeared normal and healthy until fasted, which quickly resulted in the severe hypoglycemia and the liver abnormalities and hyperlipidemia.

FBP1 has multiple roles. Beyond playing a part in the conversion of fructose to glucose, FBP1 had a second non-enzymatic but critical function: It inhibited the protein kinase AKT, which is the primary conduit of insulin activity.

"Basically, FBP1 keeps AKT in check and guards against insulin hyper-responsiveness, hypoglycemic shock and acute fatty liver disease," said first author Gu.

Working with Yahui Zhu, a visiting scientist from Chongqing University in China and second author of the study, Gu developed a peptide (a string of amino acids nicknamed E7) derived from FBP1 that disrupted the association of FBP1 with AKT and another protein that inactivates AKT.

"This peptide works like an insulin mimetic, activating AKT," said Karin.

The researchers would like to further develop E7 as a clinically useful alternative to insulin "because we have every reason to believe that it is unlikely to cause insulin shock."

Source: IANS

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Researchers identify key player that helps prevent 'insulin shock'

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