Locomotor activity detects subunit-selective effects of agonists and decahydroisoquinoline antagonists at AMPA/kainic acid ionotropic glutamate receptors in adult rats.

Rationale: In vitro studies have identified a series of decahydroisoquinoline compounds with differential selectivity for the subunits that comprise AMPA/kainic acid receptors. Compounds have been identified that have preferential activity at AMPA receptors (LY302679), whereas others (LY377770) have affinity for GluR5-kainic acid preferring subunit, which is activated by ATPA and kainic acid.

Objectives: These studies set out to determine if locomotor activity could differentiate these profiles in vivo.

Methods: Locomotor activity was assessed in photocell drums in male Lister Hooded rats.

Results: AMPA, kainic acid and the GluR5 selective agonist ATPA, all suppressed spontaneous locomotor activity (SLA) in rats at doses of 1.0, 5.0 and 20 mg/kg resp. All three agonists achieve micromolar concentrations measured in whole brain after dosing with 10 mg/kg SC. The decahydroisoquinoline antagonist compounds, LY302679 (GluR2), LY293558 (GluR2, 5) and LY377770 (GluR5) all decreased SLA in rats (ED(min) 2.5, 5.0 and 20 mg/kg respectively). The rank order of potency at GluR2 subunits (LY302679>LY293558>LY377770) was reflected in the same rank order of activity for suppression of SLA. LY293558 reversed the suppression of SLA induced by all three agonists (0.62--2.5 mg/kg). LY377770 reversed the effects of ATPA only (ED(min) 1.0 mg/kg), LY302679 (ED(min) 2.5 mg/kg) attenuated the effect of kainic acid but was ineffective against AMPA and ATPA.

Conclusions: Both agonist and antagonist suppression of SLA is associated with greater affinity for the GluR2 subunit, while compounds with affinity for the GluR5 subunit were less potent in suppressing SLA.