For this study, a technique of transplanting beta cells to the anterior chamber of the mouse eye was used. This technique was previously developed by Professor Per-Olof Berggren’s group at Karolinska Institutet. In the anterior chamber of the eye the beta cells receive a supply not only of blood vessels, but also of nerves from the sympathetic and parasympathetic system, which constitute the autonomic nervous system. Put simply, the sympathetic nervous system can be said to prepare us for flight; one way it does this is to boost our energy by reducing insulin release and increasing glycogen, and consequently blood glucose. The parasympathetic nervous system operates in the reverse direction when we are at rest.

Now, the teams from Karolinska Institutet and the University of Miami have shown for the first time how the autonomic nervous system controls the beta cells and influences the regulation of blood glucose in living animals.

Using fluorescent markers for different types of nerves in combination with advanced microscopy, the researchers were able to probe the animals’ eyes to study in detail the contact between the nerves and the beta cells. When the pupil contracted on exposure to light, the animals’ blood glucose levels plummeted as a direct result of the stimulation of the parasympathetic nervous system. Conversely, when the pupil dilated in darkness and activated the sympathetic nervous system, their blood glucose levels rose. They also managed to influence the animals’ blood glucose levels by inhibiting or stimulating each set of nerves with different substances applied directly into the eye.

“We now understand the fundamentals of how insulin secretion works and is affected by the autonomic nervous system,” says Per-Olof Berggren. “The next step is to see if it works in the same way in people with diabetes or if there are defects in the signalling relevant to the disease pathogenesis.”

The study was financed by grants the American Diabetes Research Institute Foundation, the National Institutes of Health (NIH), the Juvenile Diabetes Research Foundation (JDRF), the Swedish Research Council, the Novo Nordisk Foundation, Skandia, the Swedish Diabetes Association, the Erling–Persson Family Foundation, the Söderberg Foundations, the Stichting af Jochnick Foundation and the National Research Foundation of Korea.

Publication: “Noninvasive in vivo model demonstrating the effects of autonomic innervation on pancreatic islet function”, Rayner Rodriguez-Diaz, Stephan Speier, Ruth Damaris Molano, Alexander Formoso, Itai Gans, Midhat H. Abdulreda, Over Cabrera, Judith Molina, Alberto Fachado, Camillo Ricordi, Ingo Leibiger, Antonello Pileggi, Per-Olof Berggren and Alejandro Caicedo, Proceedings of the National Academy of Sciences (PNAS), Early Edition 10-14 December 2012.

For further information, please contact:
Per-Olof Berggren, Professor of experimental endocrinology
Department of Molecular Medicine and Surgery
Tel: +46 (0)70-729 57 31