Lipid produced by organism helps control blood sugar
September 25, 2019
Agência FAPESP – Researchers based in Brazil, the United States and Germany have discovered that 12-HEPE, a lipid produced in response to cold by brown adipose tissue in the human body, helps reduce blood sugar. The results of their experiments with mice pave the way for new treatments for diabetes.
The group also observed that a drug used to treat urinary dysfunction increases the amount of 12-HEPE released into the bloodstream in human patients.
The research was conducted as part of his postdoctoral fellowship at the same university’s School of Medical Sciences (FCM-UNICAMP) during a research internship at Dr. Yu-Hua Tseng Lab at the Joslin Diabetes Center, an independent institution affiliated with Harvard Medical School in the US, with support from FAPESP and the American Diabetes Association.
Currently, Leiria has a research grant from the FAPESP Young Investigator Grants (YIG) program.
White adipose tissue, one of the two types of adipose tissue in mammals, including humans, stores excess energy as fat. The other kind is brown adipose tissue, which converts energy from food into heat and contributes to thermal regulation. Brown adipose tissue produces several kinds of lipids in response to cold. One of these lipids is 12-HEPE, whose function was unknown until the group discovered that blood sugar was reduced more efficiently in obese mice treated with 12-HEPE than in untreated mice after they were injected with a concentrated glucose solution.
According to a published paper, the beneficial effect of 12-HEPE on glucose tolerance in obese mice was due to its promotion of glucose uptake into both skeletal muscle and brown adipose tissue.
Studies conducted with patients pointed to a possible physiological role for 12-HEPE. The volunteers were divided into three groups: lean and healthy, overweight, and obese. An analysis of blood samples showed that the lean group had more 12-HEPE in their blood than the overweight group and much more than the obese group.
The explanation may be that the proportion of brown fat mass is lower in obese individuals than in lean individuals. Moreover, the lack of brown fat in obese individuals may account for their obesity and even for their increased risk of diabetes.
In vitro assays with human cells showed that 12-HEPE increased glucose uptake by adipose cells, suggesting that 12-HEPE contributes to the process of adaptation to cold as well as the possibility that a drastic reduction in the levels of the lipid in the bloodstream of obese individuals may account, at least partly, for their increased blood sugar.
The discovery lays a foundation for the development of new drugs to combat diabetes and possible new treatments with currently available drugs.
During the study, another group of healthy lean volunteers received doses of mirabegron, a drug that is normally prescribed as a medication to treat a urinary syndrome known as overactive bladder but can also activate brown adipose tissue. The control group was given only a placebo.
The patients who received the drug were found to have increased plasma levels of 12-HEPE. This suggests that the drug could be prescribed as a treatment for diabetes in the future.
“Mirabegron has several effects, some of which are undesirable. It activates the release of various other lipids and does not specifically target glucose reduction. An omega-3 lipid such as 12-HEPE would have a far more desirable toxicological profile,” Leiria said.
US researchers are currently conducting tests to measure the effects of relatively low doses of the drug on blood sugar levels.
The next step is to determine which receptor 12-HEPE bonds to in order to promote glucose uptake, enabling scientists to develop novel molecules that stimulate the receptor in question.
The article “12-lipoxygenase regulates cold adaptation and glucose metabolism by producing the omega-3 lipid 12-HEPE from brown fat” (doi: 10.1016/j.cmet.2019.07.001) by Luiz Osório Leiria, Chih-Hao Wang, Matthew D. Lynes, Kunyan Yang, Farnaz Shamsi, Mari Sato, Satoru Sugimoto, Emily Y. Chen, Valerie Bussberg, Niven R. Narain, Brian E. Sansbury, Justin Darcy, Tian Lian Huang, Sean D. Kodani, Masaji Sakaguchi, Andréa L. Rocha, Tim J. Schulz, Alexander Bartelt, Gökhan S. Hotamisligil, Michael F. Hirshman, Klausvan Leyen, Laurie J. Goodyear, Matthias Blüher, Aaron M. Cypess, Michael A. Kiebish, Matthew Spite and Yu-Hua Tseng can be retrieved from: www.sciencedirect.com/science/article/abs/pii/S1550413119303742.
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