Changes in the activity of a single gene in the brain can lead to metabolic changes that cause mice to develop symptoms associated with type 2 diabetes, as well as trigger anxious behavior.
These findings, discovered by Weizmann Institute of Science researchers, were published online this week in the Proceedings of the National Academy of Sciences (PNAS).
The constant stress many are exposed to in our modern society may thus be taking a heavy toll: Anxiety disorders and depression, as well as metabolic disorders such as obesity, type 2 diabetes and arteriosclerosis, have all been linked to stress.
These problems are reaching epidemic proportions. Type 2 diabetes alone is expected to affect some 360 million people around the world in 20 years.
The connection between stress, changes in appetite and anxiety-related behavior was recently proven scientifically, but the exact reasons for this were not clear until Dr. Alon Chen of the Rehovot institute’s neurobiology department and colleagues made their gene discovery.
They found that all the body’s systems are involved in the stress response, which evolved to deal with threats and danger. Behavioral changes tied to stress include heightened anxiety and concentration, while other changes in the body include heat-generation, changes in the metabolism of various substances and even changes in food preferences.
The Weizmann team suspected that a protein known as Urocortin-3 (Ucn3) was involved in tying all of these together. Produced in certain brain cells – especially in times of stress – it is known to play a role in regulating the body’s stress response.
These nerve cells have extensions that act as “highways” to speed Ucn3 on to two other sites in the brain: One, in the hypothalamus – the brain’s center for hormonal regulation of basic bodily functions – oversees, among other things, substance exchange and feelings of hunger and satiety; the other is involved in regulating behavior, including anxiety levels...