BACKGROUND AND PURPOSE: Small molecule glucokinase activators (GKAs) have been associated with potent antidiabetic efficacy and hepatic steatosis in rodents. This study reports the discovery of S 50131 and S 51434, two novel GKAs with an original scaffold and an atypical pharmacological profile. EXPERIMENTAL APPROACH: Activity of the compounds was assessed in vitro by measuring activation of recombinant glucokinase, stimulation of glycogen synthesis in rat hepatocytes and increased insulin secretion from rat pancreatic islets of Langerhans. Efficacy and safety in vivo were evaluated after oral administration in db/db mice by measuring glycaemia, HbA1c and dyslipidaemia-associated events. KEY RESULTS: S 50131 and S 51434 activated GK and stimulated glycogen synthesis in hepatocytes and insulin secretion from pancreatic islets. Unexpectedly, while both compounds effectively lowered glycaemia after acute oral administration, they did not decrease HbA1c after a 4-week treatment in db/db mice. This lack of antidiabetic efficacy was associated with increased plasma free fatty acids (FFAs), contrasting with the effect of GKA50 and N00236460, two GKAs with sustained HbA1c lowering activity but neutral regarding plasma FFAs. S 50131, but not S 51434, also induced hepatic steatosis, as did GKA50 and N00236460. However, a shorter, 4-day treatment resulted in increased hepatic triglycerides without changing the plasma FFA levels, demonstrating dynamic alterations in the lipid profile over time. CONCLUSIONS AND IMPLICATIONS: In addition to confirming the occurrence of dyslipidaemia with GKAs, these findings provide new insights into understanding how such compounds may sustain or lose efficacy over time.
BACKGROUND AND PURPOSE: Small molecule glucokinase activators (GKAs) have been associated with potent antidiabetic efficacy and hepatic steatosis in rodents. This study reports the discovery of S 50131 and S 51434, two novel GKAs with an original scaffold and an atypical pharmacological profile. EXPERIMENTAL APPROACH: Activity of the compounds was assessed in vitro by measuring activation of recombinant glucokinase, stimulation of glycogen synthesis in rat hepatocytes and increased insulin secretion from ratpancreatic islets of Langerhans. Efficacy and safety in vivo were evaluated after oral administration in db/db mice by measuring glycaemia, HbA1c and dyslipidaemia-associated events. KEY RESULTS: S 50131 and S 51434 activated GK and stimulated glycogen synthesis in hepatocytes and insulin secretion from pancreatic islets. Unexpectedly, while both compounds effectively lowered glycaemia after acute oral administration, they did not decrease HbA1c after a 4-week treatment in db/db mice. This lack of antidiabetic efficacy was associated with increased plasma free fatty acids (FFAs), contrasting with the effect of GKA50 and N00236460, two GKAs with sustained HbA1c lowering activity but neutral regarding plasma FFAs. S 50131, but not S 51434, also induced hepatic steatosis, as did GKA50 and N00236460. However, a shorter, 4-day treatment resulted in increased hepatic triglycerides without changing the plasma FFA levels, demonstrating dynamic alterations in the lipid profile over time. CONCLUSIONS AND IMPLICATIONS: In addition to confirming the occurrence of dyslipidaemia with GKAs, these findings provide new insights into understanding how such compounds may sustain or lose efficacy over time.
Authors: Darren McKerrecher; Joanne V Allen; Peter W R Caulkett; Craig S Donald; Mark L Fenwick; Emma Grange; Keith M Johnson; Craig Johnstone; Clifford D Jones; Kurt G Pike; John W Rayner; Rolf P Walker Journal: Bioorg Med Chem Lett Date: 2006-02-28 Impact factor: 2.823
Authors: Maria F Pino; Kyoung-Ah Kim; Kathy D Shelton; Jill Lindner; Stella Odili; Changhong Li; Heather W Collins; Masakazu Shiota; Franz M Matschinsky; Mark A Magnuson Journal: J Biol Chem Date: 2007-03-12 Impact factor: 5.157
Authors: M Wabitsch; G Lahr; M Van de Bunt; C Marchant; M Lindner; J von Puttkamer; A Fenneberg; K M Debatin; R Klein; S Ellard; A Clark; A L Gloyn Journal: Diabet Med Date: 2007-11-01 Impact factor: 4.359
Authors: Richa Saxena; Benjamin F Voight; Valeriya Lyssenko; Noël P Burtt; Paul I W de Bakker; Hong Chen; Jeffrey J Roix; Sekar Kathiresan; Joel N Hirschhorn; Mark J Daly; Thomas E Hughes; Leif Groop; David Altshuler; Peter Almgren; Jose C Florez; Joanne Meyer; Kristin Ardlie; Kristina Bengtsson Boström; Bo Isomaa; Guillaume Lettre; Ulf Lindblad; Helen N Lyon; Olle Melander; Christopher Newton-Cheh; Peter Nilsson; Marju Orho-Melander; Lennart Råstam; Elizabeth K Speliotes; Marja-Riitta Taskinen; Tiinamaija Tuomi; Candace Guiducci; Anna Berglund; Joyce Carlson; Lauren Gianniny; Rachel Hackett; Liselotte Hall; Johan Holmkvist; Esa Laurila; Marketa Sjögren; Maria Sterner; Aarti Surti; Margareta Svensson; Malin Svensson; Ryan Tewhey; Brendan Blumenstiel; Melissa Parkin; Matthew Defelice; Rachel Barry; Wendy Brodeur; Jody Camarata; Nancy Chia; Mary Fava; John Gibbons; Bob Handsaker; Claire Healy; Kieu Nguyen; Casey Gates; Carrie Sougnez; Diane Gage; Marcia Nizzari; Stacey B Gabriel; Gung-Wei Chirn; Qicheng Ma; Hemang Parikh; Delwood Richardson; Darrell Ricke; Shaun Purcell Journal: Science Date: 2007-04-26 Impact factor: 47.728
Authors: Gregory R Bebernitz; Valerie Beaulieu; Bethany A Dale; Richard Deacon; Alokesh Duttaroy; Jiaping Gao; Melissa S Grondine; Ramesh C Gupta; Mesut Kakmak; Michael Kavana; Louise C Kirman; Jinsheng Liang; Wieslawa M Maniara; Siralee Munshi; Sunil S Nadkarni; Herbert F Schuster; Travis Stams; Irene St Denny; Paul M Taslimi; Brian Vash; Shari L Caplan Journal: J Med Chem Date: 2009-10-08 Impact factor: 7.446
Authors: M C T Fyfe; J R White; A Taylor; R Chatfield; E Wargent; R L Printz; T Sulpice; J G McCormack; M J Procter; C Reynet; P S Widdowson; P Wong-Kai-In Journal: Diabetologia Date: 2007-04-06 Impact factor: 10.122