Most overweight individuals do not develop diabetes due to compensatory islet responses to restore glucose homeostasis. Therefore, regulatory pathways that promote β cell compensation are potential targets for treatment of diabetes. The transient receptor potential cation channel subfamily M member 7 protein (TRPM7), harboring a cation channel and a serine/threonine kinase, has been implicated in controlling cell growth and proliferation. Here, we report that selective deletion of Trpm7 in β cells disrupted insulin secretion and led to progressive glucose intolerance. We indicate that the diminished insulinotropic response in β cell-specific Trpm7-knockout mice was caused by decreased insulin production because of impaired enzymatic activity of this protein. Accordingly, high-fat-fed mice with a genetic loss of TRPM7 kinase activity displayed a marked glucose intolerance accompanied by hyperglycemia. These detrimental glucoregulatory effects were engendered by reduced compensatory β cell responses because of mitigated protein kinase B (AKT)/ERK signaling. Collectively, our data identify TRPM7 kinase as a potentially novel regulator of insulin synthesis, β cell dynamics, and glucose homeostasis under obesogenic diet.
- Khajavi, N.
- Beck, A.
- Riçku, K.
- Beyerle, P.
- Jacob, K.
- Syamsul, S. F.
- Belkacemi, A.
- Reinach, P. S.
- Schreier, P. C.
- Salah, H.
- Popp, T.
- Novikoff, A.
- Breit, A.
- Chubanov, V.
- Müller, T. D.
- Zierler, S.
- Gudermann, T.
Keywords
- Animals
- Mice
- Glucose
- *Glucose Intolerance
- Insulin/metabolism
- Mice, Knockout
- Obesity
- Protein Serine-Threonine Kinases/metabolism
- *TRPM Cation Channels/genetics/metabolism
- Beta cells
- Cell Biology
- Insulin
- Ion channels