Structure-Activity Relationship and Biological Investigation of SR18292 (), a Suppressor of Glucagon-Induced Glucose Production

Citation:

Hua Lin, Sharabi, Kfir , Lin, Li , Ruiz, Claudia , Zhu, Di , Cameron, Michael D, Novick, Scott J, Griffin, Patrick R, Puigserver, Pere , and Kamenecka, Theodore M. 2021. “Structure-Activity Relationship And Biological Investigation Of Sr18292 (), A Suppressor Of Glucagon-Induced Glucose Production”. J Med Chem. doi:10.1021/acs.jmedchem.0c01450.

Abstract:

Despite a myriad of available pharmacotherapies for the treatment of type 2 diabetes (T2D), challenges still exist in achieving glycemic control. Several novel glucose-lowering strategies are currently under clinical investigation, highlighting the need for more robust treatments. Previously, we have shown that suppressing peroxisome proliferator-activated receptor gamma coactivator 1-alpha activity with a small molecule (SR18292, ) can reduce glucose release from hepatocytes and ameliorate hyperglycemia in diabetic mouse models. Despite structural similarities in to known β-blockers, detailed structure-activity relationship studies described herein have led to the identification of analogues lacking β-adrenergic activity that still maintain the ability to suppress glucagon-induced glucose release from hepatocytes and ameliorate hyperglycemia in diabetic mouse models. Hence, these compounds exert their biological effects in a mechanism that does not include adrenergic signaling. These probe molecules may lead to a new therapeutic approach to treat T2D either as a single agent or in combination therapy.