The AMPK/cAMP Metabolic Signaling Axis as a Possible Therapeutic Target for Diabetes.

Diabetes is a complex disease, despite the availability of numerous treatments, its progression and complications can only be mitigated and managed to a certain extent. After the onset, diabetes cannot be reversed. Its global expansion makes it challenging for governments to control the considerable costs of treating people with diabetes. Many studies have been carried out by widely recognized pharmaceutical companies that are considering the development of new drugs for diabetic treatments. Diets, sedentary habits, and lifestyles that are currently prevalent have an enormous influence on the global spread of diabetes. The tools available to clinicians for therapy do not solve the problem. It is known that a patient, when diagnosed, would already have had diabetes for more than three years. Studies on diabetes signaling consider the effects of hyperglycemia but also highlight the roles of insulin receptor activation and resistance. Understanding the intricate signaling network and its interactions with hyperglycemiainduced pathways is crucial. In this context, the cyclic AMP/AMPK axis emerges as a promising therapeutic target for diabetes. However, there is a noticeable lack of literature exploring the metabolic network induced by hyperglycemia and its interconnected pathways. Therefore, investigating the cyclic cAMP/AMPK axis could provide valuable insights, given its complex connections with various metabolic pathways. This mini-review aims to delve into the metabolic signaling of the AMPK/cAMP axis in the context of diabetes, highlighting its metabolic interactions and potential implications.