BACKGROUND: Somatostatin regulates numerous endocrine processes, including glucose homeostasis. The contribution and effects of the 5 somatostatin receptors are still unclear, in part due to the lack of suitable subtype specific receptor antagonists. We explored the effects of two novel, non-peptidic, orally bioavailable somatostatin receptor subtype 5 antagonists named Compound A and Compound B on glycemia in animal models of type 2 diabetes after an initial in vitro characterization. METHODS AND RESULTS: Compound A led to a dose-dependent decrease in glucose and insulin excursions during an OGTT in Zucker (fa/fa) rats after single treatment by up to 17% and 49%, respectively. Diet-induced obese mice showed after three weeks treatment with compounds A and B a dose-dependent decrease of the glucose excursion of up to 45% and 37%, respectively. In contrast to the acute effect observed in Zucker rats, Compound A showed a dose-dependent insulin increase by up to 72%, whereas body weight, liver triglycerides, ALT and AST were dose-dependently decreased. CONCLUSIONS: SSTR5 antagonists have the potential for short- and long-term improvements of the glucose homeostasis in rodent models of type 2 diabetes. Further work on the mechanism and the relevance for human disease is warranted.
BACKGROUND: Somatostatin regulates numerous endocrine processes, including glucose homeostasis. The contribution and effects of the 5 somatostatin receptors are still unclear, in part due to the lack of suitable subtype specific receptor antagonists. We explored the effects of two novel, non-peptidic, orally bioavailable somatostatin receptor subtype 5 antagonists named Compound A and Compound B on glycemia in animal models of type 2 diabetes after an initial in vitro characterization. METHODS AND RESULTS: Compound A led to a dose-dependent decrease in glucose and insulin excursions during an OGTT in Zucker (fa/fa) rats after single treatment by up to 17% and 49%, respectively. Diet-induced obesemice showed after three weeks treatment with compounds A and B a dose-dependent decrease of the glucose excursion of up to 45% and 37%, respectively. In contrast to the acute effect observed in Zucker rats, Compound A showed a dose-dependent insulin increase by up to 72%, whereas body weight, liver triglycerides, ALT and AST were dose-dependently decreased. CONCLUSIONS:SSTR5 antagonists have the potential for short- and long-term improvements of the glucose homeostasis in rodent models of type 2 diabetes. Further work on the mechanism and the relevance for human disease is warranted.
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Authors: C E Moss; W J Marsh; H E Parker; E Ogunnowo-Bada; C H Riches; A M Habib; M L Evans; F M Gribble; F Reimann Journal: Diabetologia Date: 2012-08-08 Impact factor: 10.122
Authors: Weiguo Liu; Zahid Hussain; Yi Zang; Ramzi F Sweis; F Anthony Romero; Paul E Finke; Remond Moningka; Jianming Bao; Michael A Plotkin; Jin Shang; Karen H Dingley; Gino Salituro; Beth Ann Murphy; Andrew D Howard; Feroze Ujjainwalla; Harold B Wood; Joseph L Duffy Journal: ACS Med Chem Lett Date: 2018-10-05 Impact factor: 4.345
Authors: Sara L Jepsen; Kaare V Grunddal; Nicolai J Wewer Albrechtsen; Maja S Engelstoft; Maria B N Gabe; Elisa P Jensen; Cathrine Ørskov; Steen S Poulsen; Mette M Rosenkilde; Jens Pedersen; Fiona M Gribble; Frank Reimann; Carolyn F Deacon; Thue W Schwartz; Andreas D Christ; Rainer E Martin; Jens J Holst Journal: Am J Physiol Endocrinol Metab Date: 2019-09-10 Impact factor: 4.310
Authors: Sara L Jepsen; Nicolai J Wewer Albrechtsen; Johanne A Windeløv; Katrine D Galsgaard; Jenna E Hunt; Thomas B Farb; Hannelouise Kissow; Jens Pedersen; Carolyn F Deacon; Rainer E Martin; Jens J Holst Journal: JCI Insight Date: 2021-02-22