RATIONALE: The psychotomimetic effects of cannabis are believed to be mediated via cannabinoid CB1 receptors. Furthermore, studies have implicated CB1 receptors in the pathophysiology of schizophrenia. OBJECTIVE: These studies investigated the effects of the CB1 receptor antagonist, AVE1625, in acute pharmacological and neurodevelopmental models of schizophrenia. AVE1625 was administered to rodents alone or as a co-treatment with clinically used antipsychotic drugs (APDs). METHODS: The antipsychotic potential of AVE1625 was tested using psychotomimetic-induced hyperactivity and latent inhibition (LI) deficit models. The procognitive profile was assessed using hole board, novel object recognition, auditory evoked potential, and LI techniques. In addition, the side-effect profile was established by measuring catalepsy, antipsychotic-induced weight gain, plasma levels of prolactin, and anxiogenic potential. RESULTS: AVE1625 (1, 3, and 10 mg/kg ip), reversed abnormally persistent LI induced by MK-801 or neonatal nitric oxide synthase inhibition in rodents, and improved both working and episodic memory. AVE1625 was not active in positive symptom models but importantly, it did not diminish the efficacy of APDs. It also decreased catalepsy and weight gain induced by APDs, suggesting that it may decrease APD-induced extrapyramidal side effects (EPS) and compliance. Unlike other CB1 antagonists, AVE1625 did not produce anxiogenic-like effects. CONCLUSIONS: These preclinical data suggest that AVE1625 may be useful to treat the cognitive deficits in schizophrenia and as a co-treatment with currently available antipsychotics. In addition, an improved side-effect profile was seen, with potential to ameliorate the EPS and weight gain issues with currently available treatments.
RATIONALE: The psychotomimetic effects of cannabis are believed to be mediated via cannabinoid CB1 receptors. Furthermore, studies have implicated CB1 receptors in the pathophysiology of schizophrenia. OBJECTIVE: These studies investigated the effects of the CB1 receptor antagonist, AVE1625, in acute pharmacological and neurodevelopmental models of schizophrenia. AVE1625 was administered to rodents alone or as a co-treatment with clinically used antipsychotic drugs (APDs). METHODS: The antipsychotic potential of AVE1625 was tested using psychotomimetic-induced hyperactivity and latent inhibition (LI) deficit models. The procognitive profile was assessed using hole board, novel object recognition, auditory evoked potential, and LI techniques. In addition, the side-effect profile was established by measuring catalepsy, antipsychotic-induced weight gain, plasma levels of prolactin, and anxiogenic potential. RESULTS:AVE1625 (1, 3, and 10 mg/kg ip), reversed abnormally persistent LI induced by MK-801 or neonatal nitric oxide synthase inhibition in rodents, and improved both working and episodic memory. AVE1625 was not active in positive symptom models but importantly, it did not diminish the efficacy of APDs. It also decreased catalepsy and weight gain induced by APDs, suggesting that it may decrease APD-induced extrapyramidal side effects (EPS) and compliance. Unlike other CB1 antagonists, AVE1625 did not produce anxiogenic-like effects. CONCLUSIONS: These preclinical data suggest that AVE1625 may be useful to treat the cognitive deficits in schizophrenia and as a co-treatment with currently available antipsychotics. In addition, an improved side-effect profile was seen, with potential to ameliorate the EPS and weight gain issues with currently available treatments.
Authors: Deepak Cyril D'Souza; Walid Michel Abi-Saab; Steven Madonick; Kimberlee Forselius-Bielen; Anne Doersch; Gabriel Braley; Ralitza Gueorguieva; Thomas B Cooper; John Harrison Krystal Journal: Biol Psychiatry Date: 2005-03-15 Impact factor: 13.382
Authors: Wutian Wu; Linxi Li; Leung-Wah Yick; Hong Chai; Yuanyun Xie; Yi Yang; David M Prevette; Ronald W Oppenheim Journal: J Neurotrauma Date: 2003-06 Impact factor: 5.269
Authors: Robert B Laprairie; Kiran Vemuri; Edward L Stahl; Anisha Korde; Jo-Hao Ho; Travis W Grim; Tian Hua; Yiran Wu; Raymond C Stevens; Zhi-Jie Liu; Alexandros Makriyannis; Laura M Bohn Journal: Mol Pharmacol Date: 2019-09-12 Impact factor: 4.436
Authors: Tian Hua; Kiran Vemuri; Mengchen Pu; Lu Qu; Gye Won Han; Yiran Wu; Suwen Zhao; Wenqing Shui; Shanshan Li; Anisha Korde; Robert B Laprairie; Edward L Stahl; Jo-Hao Ho; Nikolai Zvonok; Han Zhou; Irina Kufareva; Beili Wu; Qiang Zhao; Michael A Hanson; Laura M Bohn; Alexandros Makriyannis; Raymond C Stevens; Zhi-Jie Liu Journal: Cell Date: 2016-10-20 Impact factor: 41.582
Authors: Atsushi Saito; Michael D L Ballinger; Mikhail V Pletnikov; Dean F Wong; Atsushi Kamiya Journal: Neurobiol Dis Date: 2012-12-07 Impact factor: 5.996