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Scientists unveil promising new approach to diabetes prevention

Experimental compound protects obese mice from diabetes-like metabolic changes

Date:
February 1, 2022
Source:
Scripps Research Institute
Summary:
A team of scientists has conducted promising early tests of a new strategy that might one day be used to prevent or treat type 2 diabetes. The scientists tested an experimental compound called IXA4 in obese mice. They showed that the compound activates a natural signaling pathway that protects the animals from harmful, obesity-driven metabolic changes that would normally lead to diabetes.
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A team of scientists from Scripps Research has conducted promising early tests of a new strategy that might one day be used to prevent or treat type 2 diabetes.

The scientists, whose results are reported inNature Communications, tested an experimental compound called IXA4 in obese mice. They showed that the compound activates a natural signaling pathway that protects the animals from harmful, obesity-driven metabolic changes that would normally lead to diabetes.

"We were able to activate this pathway in both the liver and the pancreas with this one compound, and that added up to a significant overall improvement in metabolic health of obese animals," says Scripps Research's Luke Wiseman, PhD.

"This is the first time anyone has shown that a small molecule activating this pathway in this manner works to treat disease in a live animal," adds Enrique Saez, PhD.

The study was a collaboration between the laboratories of Saez and Wiseman, who are both professors in the Department of Molecular Medicine at Scripps Research and co-senior authors on the new paper.

Type 2 diabetes remains a major public health problem: about 30 million people are estimated to have it in the U.S. alone. Driven largely by overweight and obesity, it features the loss of normal blood sugar regulation, and brings a multitude of health issues including higher risks of heart disease, stroke, kidney disease, nerve damage, retinal degeneration, and some cancers. There are many drugs for treating type 2 diabetes, but none that works well for every patient.

For several years, Wiseman's lab has been studying a signaling pathway involving two proteins called IRE1 and XBP1s. When activated by a certain type of cellular stress, IRE1 activates XBP1s, which in turn alters the activity of a host of genes, including many metabolic genes, in an effort to reduce the cellular stress. Prior studies suggest that the activity of this pathway, at least in the short-term, can protect liver and fat cells from stresses caused by obesity -- stresses that can harm these cells in ways that promote diabetes.

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IRE1 / XBP1s途径并不是一个简单的diabetes drug target, however. Past research has shown that keeping IRE1/XBP1 switched on chronically ends up harming cells, triggering inflammation and worsening overall metabolic dysfunction.

"IRE1/XBP1s signaling is a response to cellular stress, and keeping it on all the time essentially tells the cell that the stress can't be resolved -- so the cell in effect kills itself," Wiseman says.

In the new study, the researchers showed that a compound they identified a few years ago, IXA4, activates IRE1/XBP1s for just a few hours at a time. Because it otherwise allows IRE1 to turn off, it can in principle be given daily without triggering the deleterious signaling seen with constant IRE1 activation, making it a promising candidate to explore for human treatments.

The team used IXA4 to treat mice that were obese from a high-fat, high-calorie diet. After just eight weeks, the treated mice had improved glucose metabolism and insulin activity, less fat buildup and inflammation in the liver, and no loss of insulin-producing cells in the pancreas, compared to untreated obese mice.

IXA4 can reach only a limited set of tissues including the liver and pancreas, and so the team is now developing other compounds that can get into a broader set of cells including fat cells.

"We're also continuing to work with IXA4 as a potential treatment for other metabolic disorders such as fatty liver disease," Saez says.

The study's first authors were Aparajita Madhavan, PhD, then a graduate student in the Wiseman lab, and Bernard Kok, PhD, a postdoctoral research associate in the Saez lab.

IXA4 was developed in collaboration with the laboratory of Jeffery Kelly, PhD, Lita Annenberg Hazen Professor of Chemistry at Scripps Research.

The work was funded by the National Institutes of Health (AG046495, DK123038, DK114785).

Story Source:

Materialsprovided byScripps Research Institute.Note: Content may be edited for style and length.


Journal Reference:

  1. Aparajita Madhavan, Bernard P. Kok, Bibiana Rius, Julia M. D. Grandjean, Adekunle Alabi, Verena Albert, Ara Sukiasyan, Evan T. Powers, Andrea Galmozzi, Enrique Saez, R. Luke Wiseman.药理学IRE1 / XBP1s激活促进体制mic adaptive remodeling in obesity.Nature Communications, 2022; 13 (1) DOI:10.1038/s41467-022-28271-2

Cite This Page:

斯克里普斯研究所。“科学家们公布职业mising new approach to diabetes prevention: Experimental compound protects obese mice from diabetes-like metabolic changes." ScienceDaily. ScienceDaily, 1 February 2022. /releases/2022/02/220201144001.htm>.
斯克里普斯研究所。(2022, February 1). Scientists unveil promising new approach to diabetes prevention: Experimental compound protects obese mice from diabetes-like metabolic changes.ScienceDaily. Retrieved September 4, 2023 from www.koonmotors.com/releases/2022/02/220201144001.htm
斯克里普斯研究所。“科学家们公布职业mising new approach to diabetes prevention: Experimental compound protects obese mice from diabetes-like metabolic changes." ScienceDaily. www.koonmotors.com/releases/2022/02/220201144001.htm (accessed September 4, 2023).

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