Nitric oxide therapy can cure obesity and type 2 diabetes, study finds
[Sept 1, 2022: Jeffrey Hansen, University of Alabama at Birmingham]
A novel therapy developed at the University of Alabama at Birmingham ameliorates obesity and Type 2 diabetes. (CREDIT: iStock Photo)
A novel therapy developed at the University of Alabama at Birmingham ameliorates obesity and Type 2 diabetes in mice fed a high-fat diet. The therapy acts through sustained release of nitric oxide, a gaseous signaling chemical whose most important function in the body is relaxing the inner muscles of blood vessels.
“Because reduced bioavailability of nitric oxide is the hallmark of cardiometabolic syndrome, supplying exogenous nitric oxide at a sustained level may be an efficient way of treating the cardiometabolic syndrome,” said Jeonga Kim, Ph.D., leader of the UAB study. “The strategy of reducing body weight by the local delivery of nitric oxide may be a novel, efficient and safe way to prevent and treat multiple metabolic diseases.”
This study, published in the journal ACS Applied Materials & Interfaces, used an ingenious self-assembling, nanomatrix gel capable of releasing a burst of nitric oxide in the first 24 hours, followed by sustained nitric oxide release for four weeks. The gel was developed by UAB researchers Ho-Wook Jun, Ph.D., and Brigitta Brott, M.D., and it is licensed through the UAB Harbert Institute for Innovation and Entrepreneurship by their UAB spinoff company, Endomimetics LLC.
The gel was injected subcutaneously into 8-week-old mice every two weeks for 12 weeks. Gel-injected mice and control mice were fed a high-fat diet, known to induce obesity and insulin resistance.
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At the end of 12 weeks, the nitric oxide-mice had gained 17 percent less body weight, compared to controls, and that weight difference was due mainly to decreased fat, not lean mass or water content. The researchers saw increased phosphorylation of the enzyme hormone-sensitive lipase and a reduction in the size of fat cells in epididymal white adipose tissue, or eWAT. Increased lipolysis may explain the reduced body weight, Kim says.
The nitric oxide-mice also showed improved glucose tolerance, and decreases in fasting serum insulin and leptin levels.
Kim and colleagues found wide-ranging changes in measures of inflammation and metabolism in the nitric-oxide mice, compared to controls. The expression of four inflammatory genes, including a marker for macrophages, was reduced in eWAT.
The PANO gel-injected mice gained less body weight, improved glucose tolerance, and decreased fasting serum insulin and leptin levels compared with the PA gel-injected mice. (CREDIT: Jeonga Kim)
The nitric oxide gel also appeared to stimulate the browning of adipose tissue, through increased gene expression of uncoupled protein 1 in brown adipose tissue and beige adipose tissue. Nitric oxide is known to increase mitochondrial biogenesis, a mechanism for the conversion of white adipocytes to beige adipocytes. Brown adipose tissue, or brown fat, produces heat to maintain body temperature in cold conditions. The fat cells in brown adipose tissue and in inguinal adipose tissue from the nitric oxide-mice were also smaller than cells from controls.
The nitric oxide gel also protected against non-alcoholic fatty liver disease, as seen by lower liver weight, reduced triglycerides in the liver, and reduced triglycerides and cholesterol in blood serum. The nitric oxide gel also improved insulin sensitivity, as measured by increased expression of five insulin-signaling molecules in skeletal muscle, liver or eWAT.
The mice that received the nitric oxide gel also had improved cerebral blood flow, and they showed significantly improved spatial learning ability, as measured by the Morris water maze test. It is unknown whether those changes were a direct effect of nitric oxide or were mediated through the neuroprotective effects of adipocyte beiging.
Co-authors with Kim, Jun and Brott in the study, “Subcutaneous administration of nitric oxide-releasing nanomatrix gel ameliorates obesity and insulin resistance in high fat diet-induced obese mice,” are Guang Ren and Sushant Bhatnagar, UAB Department of Medicine, Division of Endocrinology, Diabetes and Metabolism; Patrick Tae Joon Hwang and Reid Millican, Endomimetics, LLC, Birmingham, Alabama; Juhee Shin, UAB Department of Biomedical Engineering; Brigitta C. Brott and Martin E. Young, UAB Department of Medicine, Division of Cardiovascular Disease; and Thomas van Groen and Craig M. Powell, UAB Department of Neurobiology.
At UAB, Kim is an associate professor in the UAB Department of Medicine, Division of Endocrinology, Diabetes and Metabolism, and she is a scientist in the UAB Comprehensive Diabetes Center.
Support came from UAB and from National Institutes of Health grants DK079626, HL128695, HL163802, AG058078, DK95975-03, DK120684-01, DK109789 and NS047466.
The departments of Medicine and Neurobiology are in the Marnix E. Heersink School of Medicine at UAB. Biomedical Engineering is a joint department of the Heersink School of Medicine and the UAB School of Engineering.
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Note: Materials provided above by University of Alabama at Birmingham. Content may be edited for style and length.
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