RATIONALE: CRF(1) antagonists may be effective in the treatment of anxiety disorders while having fewer side effects compared with classical benzodiazepines. OBJECTIVES: The effects of a small molecule selective CRF(1) antagonist DMP696 on anxiety-like behaviors and stress-induced increases in corticosterone in rats exposed to a novel environment and on locomotor activity and motor coordination were determined in rats. These effects of DMP696 were compared with those produced by the classical benzodiazepine chlordiazepoxide (CDP). METHODS: DMP696 or CDP were administered PO, 60 minutes before behavioral testing in rats. Their effects on latency to exit a dark chamber and stress-induced increase in corticosterone in the Defensive Withdrawal test (an animal model of anxiety), locomotor activity, and rotorod performance (measure of ataxia) were determined. RESULTS: DMP696 significantly reduced exit latency and reversed the stress-induced increase in corticosterone in the Defensive Withdrawal test at doses of 3.0-10 mg/kg and higher. In contrast, CDP significantly decreased exit latency at 10 and 30 mg/kg, but not at 100 mg/kg, due to concurrent non-specific side effects. Unlike DMP696, CDP had no effect on the stress-induced increase in corticosterone at lower doses, but resulted in a significant increase at higher doses. DMP696 did not reduce locomotor activity or impair motor coordination at doses up to 30-fold higher than doses effective in the Defensive Withdrawal model. In contrast, CDP produced significant sedation and ataxia at the same doses that were effective in reducing exit latency. CONCLUSIONS: These data suggest that the CRF(1) antagonist DMP696 might retain the therapeutic benefits of classical benzodiazepines but have fewer motoric side effects.
RATIONALE: CRF(1) antagonists may be effective in the treatment of anxiety disorders while having fewer side effects compared with classical benzodiazepines. OBJECTIVES: The effects of a small molecule selective CRF(1) antagonist DMP696 on anxiety-like behaviors and stress-induced increases in corticosterone in rats exposed to a novel environment and on locomotor activity and motor coordination were determined in rats. These effects of DMP696 were compared with those produced by the classical benzodiazepinechlordiazepoxide (CDP). METHODS:DMP696 or CDP were administered PO, 60 minutes before behavioral testing in rats. Their effects on latency to exit a dark chamber and stress-induced increase in corticosterone in the Defensive Withdrawal test (an animal model of anxiety), locomotor activity, and rotorod performance (measure of ataxia) were determined. RESULTS:DMP696 significantly reduced exit latency and reversed the stress-induced increase in corticosterone in the Defensive Withdrawal test at doses of 3.0-10 mg/kg and higher. In contrast, CDP significantly decreased exit latency at 10 and 30 mg/kg, but not at 100 mg/kg, due to concurrent non-specific side effects. Unlike DMP696, CDP had no effect on the stress-induced increase in corticosterone at lower doses, but resulted in a significant increase at higher doses. DMP696 did not reduce locomotor activity or impair motor coordination at doses up to 30-fold higher than doses effective in the Defensive Withdrawal model. In contrast, CDP produced significant sedation and ataxia at the same doses that were effective in reducing exit latency. CONCLUSIONS: These data suggest that the CRF(1) antagonist DMP696 might retain the therapeutic benefits of classical benzodiazepines but have fewer motoric side effects.
Authors: John B Hogan; Donald B Hodges; Snjezana Lelas; Paul J Gilligan; John F McElroy; Mark D Lindner Journal: Psychopharmacology (Berl) Date: 2004-10-14 Impact factor: 4.530
Authors: G B Varty; L A Hyde; R A Hodgson; S X Lu; M F McCool; T M Kazdoba; R A Del Vecchio; D H Guthrie; A J Pond; M E Grzelak; X Xu; W A Korfmacher; D Tulshian; E M Parker; G A Higgins Journal: Psychopharmacology (Berl) Date: 2005-09-29 Impact factor: 4.530
Authors: Heather N Richardson; Yu Zhao; Eva M Fekete; Cindy K Funk; Peter Wirsching; Kim D Janda; Eric P Zorrilla; George F Koob Journal: Pharmacol Biochem Behav Date: 2007-10-23 Impact factor: 3.533
Authors: Sheila E Specio; Sunmee Wee; Laura E O'Dell; Benjamin Boutrel; Eric P Zorrilla; George F Koob Journal: Psychopharmacology (Berl) Date: 2007-10-30 Impact factor: 4.530