The G protein-coupled receptor 52 (GPR52) is an orphan receptor that is selectively expressed in the striatum and regulates various brain functions through activation of cAMP-dependent pathways. GPR52 has been identified as a promising therapeutic target for central nervous system disorders including schizophrenia and substance use disorders. Here, a series of novel GPR52 agonists were designed, synthesized, and evaluated based on compound 4. Several potent and efficacious GPR52 agonists (12c, 23a, 23d, 23e, 23f, and 23h) were identified with nanomolar range potency based on a systematic structure-activity relationship exploration. Further studies of 12c indicate enhanced efficacy, excellent target selectivity, and pharmacokinetic properties including good brain permeability. In vivo proof-of-concept investigations revealed that 12c displayed antipsychotic-like activity by significantly inhibiting amphetamine-induced hyperlocomotor behavior in mice. Collectively, our findings have resulted in an efficacious, brain-penetrant GPR52 agonist as a valuable pharmacological tool for investigating the physiological and therapeutic potential of GPR52 activation.
The G protein-coupled receptor 52 (n class="Gene">GPR52) is an orphan receptor that is selectively expressed in the striatum and regulates various brain functions through activation of cAMP-dependent pathways. GPR52 has been identified as a promising therapeutic target for central nervous system disorders including schizophrenia and substance use disorders. Here, a series of novel GPR52 agonists were designed, synthesized, and evaluated based on compound 4. Several potent and efficacious GPR52 agonists (12c, 23a, 23d, 23e, 23f, and 23h) were identified with nanomolar range potency based on a systematic structure-activity relationship exploration. Further studies of 12c indicate enhanced efficacy, excellent target selectivity, and pharmacokinetic properties including good brain permeability. In vivo proof-of-concept investigations revealed that 12c displayed antipsychotic-like activity by significantly inhibiting amphetamine-induced hyperlocomotor behavior in mice. Collectively, our findings have resulted in an efficacious, brain-penetrant GPR52 agonist as a valuable pharmacological tool for investigating the physiological and therapeutic potential of GPR52 activation.
Authors: Zhiqing Liu; Yi Li; Haiying Chen; Hsien-Tsung Lai; Pingyuan Wang; Shwu-Yuan Wu; Eric A Wold; Paul G Leonard; Sarah Joseph; Haitao Hu; Cheng-Ming Chiang; Allan R Brasier; Bing Tian; Jia Zhou Journal: J Med Chem Date: 2022-01-04 Impact factor: 7.446