Scientists design combination of three metabolically active substance
Hormone Triplet offers Hope for Obesity and Diabetes
The team headed by physician scientist Prof. Matthias Tschöp (Helmholtz Diabetes Center at HMGU and Metabolic Diseases Chair at TUM) and peptide chemist Richard DiMarchi (Indiana University, USA) has been cooperating for almost a decade to invent improved therapeutics for type 2 diabetes and obesity. One of their novel approaches is to design molecules that combine the effects of specific metabolic hormones.
In recent years, the scientists succeeded in developing hormone-like molecular structures that incorporate efficacy of two such messengers. Previous hormone duos combined the effects of the insulin-stimulating intestinal hormones GLP-1 and GIP or GLP-1 and the pancreatic hormone glucagon or GLP-1 and the steroid hormone oestrogen. They can consequently trigger more significant metabolic improvements than was previously possible with known medicinal approaches.
Triple hormone reduces body weight and improves insulin sensitivity
The interdisciplinary team led by Tschöp and DiMarchi is now presenting a triple hormone that dramatically reduces blood glucose, appetite, and body fat in animal models while also improving fat content in the liver, cholesterol levels and calorie burning even more effectively than with previously available single action or dual action molecules. The tri-agonist can reduce body weight by around 30 percent, roughly twice as much as a dual co-agonist at the same dose, while massively improving insulin sensitivity, essentially curing the rodents of obesity and diabetes.
Effect on receptors of GLP-1, GIP and glucagon
The triple hormone specifically and equally targets three receptors of GLP-1 (Glucagon like Peptide 1), GIP (Gastric Inhibitory Peptide or Glucose-dependent Insulinotropic Polypeptide) and glucagon. GLP-1 and GIP predominantly contribute to improved insulin release and a reduction of blood glucose levels. GLP-1 additionally curbs appetite. The third hormone, glucagon, primarily increases the long-term rate at which calories are burned and improves liver function. "This triple hormone effect in a single molecule shows results never achieved before. A number of metabolic control centers are influenced simultaneously, namely in the pancreas, liver, fat depots and brain," explains first author Brian Finan, who works as a chemist and pharmacologist at the Helmholtz Diabetes Center.
"This latest breakthrough shows us that we are on the right path to designing better treatments in the fight against obesity and diabetes," reports Tschöp. "Now the most important steps are clinical studies. In parallel, we are working on personalized medicines for individual patient needs, combining four, five, or more hormone components."
Originalpublikation
Finan B., Yang B., Ottaway N., Smiley D. L., Ma T., Clemmensen C., Chabenne J., Zhang L., Habegger K. M., Fischer K., Campbell J. E., Sandoval D., Seeley R. J., Bleicher K., Uhles S., Riboulet W., Funk J., Hertel C., Belli S., Sebokova E., Conde-Knape K., Konkar A., Drucker D. J., Gelfanov V., Pfluger P. T., Müller T. D., Perez-Tilve D., DiMarchi R. D. and M. H. Tschöp, A rationally designed monomeric peptide triagonist corrects obesity and diabetes in rodents, Nature Medicine, 2014.
DOI: 10.1038/nm.3761
Kontakt
Prof. Dr. Matthias Tschöp
Chair of the Department of Metabolic Diseases / Technische Universität München
Institute for Diabetes and Obesity / Helmholtz Zentrum München
Tel.: + 49 (0)89 3187-2103
matthias.tschoep
@helmholtz-muenchen.de
Further information
Institute for Obesity and Diabetes
Press Releas of the Helmholtz Zentrum München
Video about Matthias Tschöp from Alexander von Humboldt Foundation
Technical University of Munich
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- Dr. Nadja Becker (HMGU) / Dr. Vera Siegler (TUM)
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