Metformin: Diabetic drug's surprising impact on brain For decades, metformin has been a cornerstone in managing type 2 diabetes, primarily known for its effects on the liver and gut. Now, groundbreaking research reveals a surprising role for the brain in metformin's action. Scientists have identified a specific protein, Rap1, in the brain's ventromedial hypothalamus, crucial for the drug's blood sugar-lowering capabilities. For 60 years, metformin has been the go-to medication to manage type 2 diabetes. It is known for lowering blood sugar, but there is no complete picture of how it really works. Scientists have now discovered its unexpected effect on the brain. Metformin works primarily by reducing glucose production in the liver and acting through the gut. However, researchers at Baylor College of Medicine and international collaborators have recognized a new player mediating clinically relevant effects of metformin: the brain. The findings are published in the journal Science Advances. "It’s been widely accepted that metformin lowers blood glucose primarily by reducing glucose output in the liver. Other studies have found that it acts through the gut. We looked into the brain as it is widely recognized as a key regulator of whole-body glucose metabolism. We investigated whether and how the brain contributes to the anti-diabetic effects of metformin," said corresponding author Dr. Makoto Fukuda, associate professor of pediatrics – nutrition at Baylor. The researchers focused on a small protein called Rap1, found in a specific part of the brain known as the ventromedial hypothalamus (VMH). They found that metformin’s ability to lower blood sugar at clinically relevant doses depends on turning off Rap1 in this brain region.#science_advances #baylor_college_of_medicine #ventromedial_hypothalamus #dr_makoto_fukuda #rap1
