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Research for a Future
without Diabetes

10 years translational
Diabetes research at the DZD

„Research for a future without diabetes – this is the mission of the DZD that inspires and unites us.“

Prof. Martin Hrabě de Angelis, DZD board member

Research for a Future
without Diabetes

10 years translational
Diabetes research at the DZD

„The Germany-wide cooperation in the DZD ensures that multicenter studies can be carried out with the required number of participants.“

Prof. Michael Roden, DZD board member

Research for a Future
without Diabetes

10 years translational
Diabetes research at the DZD

„The DZD places particular importance on the fast transfer of lab results to patient care.“

Prof. Michele Solimena, DZD speaker

10 years translational
Diabetes research at the DZD

„The special feature of research at the DZD is the close interdisciplinary cooperation between different disciplines.“

Prof. Annette Schuermann, DZDSpeaker

DZD - German Center
for Diabetes Research

Potsdam-Rehbrücke, 11.03.2019

Insulin: Protective Adaptive Mechanism in the Brain

Insulin helps neurons produce a specific class of proteins that are important for brain health. This is the result of a study in mice by DZD scientists at DIfE published in the journal Molecular Metabolism: Animals administered the hormone through the nose expressed more of the protective proteins and ate less high-fat chow than mice that did not receive intranasal insulin.

Cells "respond" to stress by creating more protective molecules that counteract this stress. Among other things, these ensure that protein maturation is fast, precise and – as far as possible – error-free. Thus, the body adapts to extreme conditions that can arise if we constantly eat too much or too little. "Usually the term “stress” is associated with something negative. However, the cellular stress response is a process that ensures that the cells remain healthy – something positive in this context," said Dr. André Kleinridders, who is investigating the causes and consequences of insulin resistance in the brain at the German Institute of Human Nutrition Potsdam-Rehbruecke (DIfE) and the German Center for Diabetes Research (DZD). Insulin is responsible for the fine tuning of brain function in the central nervous system. It influences the reward center, food intake, cognition and behavior. Insulin resistance means that the hormone is no longer effective even though it is available in sufficient quantities.

Kleinridders and his team have now discovered that insulin in the brain causes the cell to produce more protective molecules, including the heat-shock proteins HSP10 and HSP60, which are indispensable for the assembly of proteins. Via this signaling pathway, insulin controls mitochondrial function in the hypothalamus – the brain region that regulates our eating behavior. The vital energy for the body is produced in these organelles of cellular respiration. This is why the mitochondria are referred to as the “power plants” of the cells. A defective stress response would result in mitochondrial dysfunction and thus lead to neuronal cell death. The loss of these molecules can be associated with both metabolic diseases such as type 2 diabetes and various neurodegenerative diseases.

More "stress", less hunger
Researchers already knew that intranasal insulin reduces hunger for high-sugar food in healthy people. When insulin is administered through the nose, for example with a spray, it bypasses the blood-brain barrier and reaches the brain directly. In the current study, researchers observed that healthy mice that "snuffed" insulin likewise ate less of the tasty chow on offer, but which in this experiment was not high in sugar, but rather a high-fat diet. The team of scientists also found that the mice increasingly formed the protective molecules mentioned above, which support the function of the mitochondria in the hypothalamus and thus neuronal health.

The research team also investigated diabetic mice that did not have endogenous insulin and mice that became resistant to the hormone due to high-fat foods. Both groups had a reduced stress response. By stimulating with insulin, the response could be normalized again. "We still do not know why diabetic patients are at an increased risk of developing Alzheimer's or Parkinson's. The insulin-dependent regulatory mechanism of the stress response provides important explanatory approaches that definitely should be pursued," said Kristina Wardelmann, doctoral student in the Junior Research Group and first author of the study.

Sustainable promotion of healthy aging
In addition to insulin, dietary components such as fat also seem to influence the stress response in the brain. "Presumably, the brain perceives increased levels of fatty acids and activates adaptive metabolic responses," said  Kleinridders. In the future, the group also wants to look for nutrients that have a similar positive effect as insulin on the function of the mitochondria and thus on the energy supply and metabolism. This knowledge could help to develop novel intervention strategies that sustainably promote healthy aging.
 

Original publication: Wardelmann K, Blümel S, Rath M, Alfine E, Chudoba C, Schell M1, Cai W, Hauffe 1, Warnke K, Flore T, Ritter K, Weiß J, Kahn CR, Kleinridders A. Insulin action in the brain regulates mitochondrial stress responses and reduces diet-induced weight gain. Molecular Metabolism (2019) [https://doi.org/10.1016/j.molmet.2019.01.001]

Corresponding article: Chudoba C, Wardelmann K, Kleinridders A. Molecular effects of dietary fatty acids on brain insulin action and mitochondrial function. Biological Chemistry (2019) [https://doi.org/10.1515/hsz-2018-0477]

 

German Institute of Human Nutrition Potsdam-Rehbruecke (DIfE)
DIfE is a member of the der Leibniz Association. It investigates the causes of diet-related diseases in order to develop new strategies for prevention and therapy and to provide dietary recommendations. Its research focus includes the causes and consequences of the metabolic syndrome, which is a combination of obesity, high blood pressure, insulin resistance and lipid metabolism disorder, as well as the role of diet in healthy aging and the biological basis of food choices and eating habits. In addition, the DIfE is a partner of the German Center for Diabetes Research (DZD), which was founded in 2009.

German Center for Diabetes Research (DZD)
The DZD is one of six German Centers for Health Research. It brings together experts in the field of diabetes research and integrates basic research, epidemiology, and clinical applications. By adopting an innovative, integrative approach to research, the DZD aims to make a substantial contribution to the successful personalized prevention diagnosis and treatment of diabetes mellitus. The members of the DZD are Helmholtz Zentrum München – German Research Center for Environmental Health, the German Diabetes Center (DDZ) in Düsseldorf, the German Institute of Human Nutrition (DIfE) in Potsdam-Rehbruecke, the Institute of Diabetes Research and Metabolic Diseases of Helmholtz Zentrum München at the University of Tübingen, the Paul Langerhans Institute Dresden of Helmholtz Zentrum München at the Carl Gustav Carus University Hospital of TU Dresden, associated partners at the universities in Heidelberg, Cologne, Leipzig, Lübeck and Munich, and other project partners.
 

Media Contacts
Dr. André Kleinridders

Head of the Junior Research Group Central Regulation of Metabolism
German Institute of Human Nutrition Potsdam-Rehbruecke (DIfE)
phone: +49 (0)33200 88-2428
e-mail: andre.kleinridders(at)dife.de 

Sonja Schäche
Press and Public Relations
German Institute of Human Nutrition Potsdam-Rehbruecke (DIfE)
phone: +49(0) 33200 88-2278
e-mail: sonja.schaeche(at)dife.de / presse(at)dife.de

 

Press contact

Birgit Niesing


+49 (0)89 3187-3971