Nigrostriatal damage preferentially decreases a subpopulation of alpha6beta2* nAChRs in mouse, monkey, and Parkinson's disease striatum.

Parkinson's disease is a neurodegenerative movement disorder characterized by a loss of substantia nigra dopamine neurons, and corresponding declines in molecular components present on striatal dopaminergic nerve terminals. These include the alpha6beta2(*) nicotinic acetylcholine receptors (nAChRs), which are localized exclusively on dopamine terminals in striatum ((*)denotes the presence of possible additional subunits). In this study, we used a novel alpha-conotoxin MII (alpha-CtxMII) analog E11A to further investigate alpha6beta2(*) nAChR subtypes in mouse, monkey, and human striatum. Receptor competition studies with (125)I-alpha-CtxMII showed that E11A inhibition curves were biphasic, suggesting the presence of two distinct alpha6beta2(*) nAChR subtypes. These include a very high (femtomolar) and a high (picomolar) affinity site, with approximately 40% of the sites in the very high affinity form. It is noteworthy that only the high-affinity form was detected in alpha4 nAChR-null mutant mice. Because (125)I-alpha-CtxMII binds primarily to alpha6alpha4beta2beta3 and alpha6beta2beta3 nAChR subtypes in mouse striatum, these data suggest that the population lost in the alpha4 knockout mice was the alpha6alpha4beta2beta3 subtype. We next investigated the effect of nigrostriatal lesioning on these two striatal alpha6beta2(*) populations in two animal models and in Parkinson's disease. There was a preferential loss of the very high affinity subtype in striatum of mice treated with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), monkeys treated with MPTP, and patients with Parkinson's disease. These data suggest that dopaminergic terminals expressing the alpha6alpha4beta2beta3 population are selectively vulnerable to nigrostriatal damage. This latter nAChR subtype, identified with alpha-CtxMII E11A, may therefore provide a unique marker for dopaminergic terminals particularly sensitive to nigrostriatal degeneration in Parkinson's disease.