Muscarinic acetylcholine receptor immunoreactivity after hippocampal commissural/associational pathway lesions: Evidence for multiple presynaptic receptor subtypes

Autor:	Allan I. Levey, Susan T. Rouse
Rok vydání:	1997
Předmět:	Muscarine General Neuroscience Dentate gyrus Hippocampal formation Biology Heteroreceptor Granule cell chemistry.chemical_compound medicine.anatomical_structure chemistry Postsynaptic potential Muscarinic acetylcholine receptor medicine Neuroscience Acetylcholine receptor
Zdroj:	The Journal of Comparative Neurology. 380:382-394
ISSN:	1096-9861 0021-9967
DOI:	10.1002/(sici)1096-9861(19970414)380:3<382::aid-cne7>3.0.co;2-z
Popis:	The present study addressed the hypothesis that differential localization of m1–m4 subtypes in the inner one-third of the dentate molecular layer is due to selective presynaptic expression of the receptor proteins on the hippocampal commissural/associational pathways. Physical and chemical lesions of the commissural and associational pathways were used to denervate afferent terminals in the inner one-third of the molecular layer, and fluid injections were used to lesion granule cells, their postsynaptic target. Immunocytochemistry utilizing muscarine acetylcholine receptor (mAChR) subtype-specific antibodies was used to identify changes in expression patterns in the molecular layer postlesion. m1 immunoreactivity in the molecular layer did not change after commissural/associational pathway lesions. m2 immuno-reactivity in the inner one-third of the molecular layer was attenuated only after lesions involving the associational pathway. In contrast, m3 and m4 immunoreactivity in the inner one-third of the molecular layer was almost completely abolished by lesions of both pathways simultaneously. Granule cell lesions greatly attenuated m1 and m3 immunoreactivity in the molecular layer, with little to no diminution of m2 and m4 immunoreactivity. The results indicate that, in the inner one-third of the molecular layer, m1 and m3 are mainly postsynaptic on granule cells, whereas m2 and m4 are presynaptic on the commissural/associational pathways. This study provides direct anatomical evidence for the diversity of molecular subtypes presynaptically on the commissural/associational pathways. J. Comp. Neurol. 380:382–394, 1997. © 1997 Wiley-Liss, Inc.
Databáze:	OpenAIRE
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