RESUMO
Herein, we report on the further chemical optimization of the first reported mGlu7 positive allosteric modulator (PAM), VU6027459. Replacement of the quinoline core by a cinnoline scaffold increased mGlu7 PAM potency by â¼ 10-fold, and concomitant introduction of a chiral tricyclic motif led to potent mGlu7 PAMs with enantioselective mGlu receptor selectivity profiles. Of these, VU6046980 emerged as a putative in vivo tool compound with excellent CNS penetration (Kp = 4.1; Kp,uu = 0.7) and efficacy in preclinical models. However, either off-target activity at the sigma-1 receptor or activity at a target not elucidated by large ancillary pharmacology panels led to sedation not driven by activation of mGlu7 (validated in Grm7 knockout mice). Thus, despite a significant advance, a viable mGlu7 PAM in vivo tool remains elusive.
Assuntos
Regulação Alostérica , Camundongos , AnimaisRESUMO
Further optimization of the VU0486321 series of highly selective and CNS-penetrant mGlu1 PAMs identified unique 'molecular switches' on the central aromatic ring that engendered positive cooperativity with multiple mGlu subtypes across the receptor family, resulting in compounds with comparable activity at Group I (mGlu1/5) and Group III (mGlu4/6/7/8) mGlu receptors, receptors. These exciting data suggests this PAM chemotype appears to bind to multiple mGlu receptors, and that subtype selectivity is dictated by the degree of cooperativity, not a subtype selective, unique allosteric binding site. Moreover, there is interesting therapeutic potential for mGlu1/4/7/8 PAMs, as well as the first report of a GPCR allosteric 'privileged structure'.