ARL-15896, a NovelN-Methyl-D-aspartate Receptor Ion Channel Antagonist: Neuroprotection against Mitochondrial Metabolic Toxicity and Regional Pharmacology

Abstract

ARL-15896 [(+)-α-phenyl-2-pyridineethanamine], formerly known as FPL-15896, is a novelN-methyl-D-aspartate (NMDA) receptor ion channel antagonist. Using quantitative receptor autoradiography, we examined the regional binding characteristics of ARL-15896 and compared them to those of MK-801, the prototypical NMDA receptor channel blocker. The affinity of ARL-15896 was much lower (3000-fold) than that of MK-801 in all brain regions examined. In addition, in contrast to MK-801, which has a higher affinity in the forebrain than in the cerebellum (IC50of 10 nMvs 24 nM), ARL-15896 had a higher affinity in the cerebellum than in the forebrain (IC50of 17 μMvs 45 μM). The neuroprotective potential of ARL-15896 was investigated in a rat model of excitotoxicity, the intrastriatal injection of malonate. Malonate is a competitive inhibitor of succinate dehydrogenase, and its toxicity has been shown to be mediated largely by the NMDA receptor. Administration of ARL-15896 either intrastriatally (200 nmol) or subcutaneously (9.0 mg/kg) reduced the volume of the lesion produced by 1 μmol of malonate by 80%, a degree similar to that reported for MK-801. ARL-15896 was also protective when administered after the malonate injection. Furthermore, in contrast to MK-801, administration of ARL-15896 was not associated with any apparent behavioral side effects. This report is consistent with previous studies suggesting that drugs with regional pharmacological profiles similar to that of ARL-15896 have better clinical tolerability; it also indicates that ARL-15896 is an effective neuroprotective agent.