Pharmacological Characterization of an Adenylyl Cyclase-Coupled 5-HT Receptor in Aplysia: Comparison With Mammalian 5-HT Receptors

doi:10.1152/jn.01004.2002

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Pharmacological Characterization of an Adenylyl CyclaseCoupled 5-HT Receptor in Aplysia: Comparison With Mammalian 5-HT Receptors

Jonathan E. Cohen,¹ Chiadi U. Onyike,³ Virginia L. McElroy,¹ Allison H. Lin,¹ and Thomas W. Abrams¹^,²

Departments of ¹Pharmacology and ²Anesthesiology, University of Maryland School of Medicine, BRB 4-002, Baltimore 21201-1559; and ³Division of Geriatric Psychiatry and Neuropsychiatry, Johns Hopkins Medical School, Baltimore, Maryland 21287

Cohen, Jonathan E., Chiadi U. Onyike, Virginia L. McElroy, Allison H. Lin, and Thomas W. Abrams. Pharmacological Characterization of an Adenylyl CyclaseCoupled 5-HT Receptor in Aplysia: Comparison With Mammalian 5-HT Receptors. J. Neurophysiol. 89: 1440-1455, 2003. We attempted to identify compounds that are effective in blocking the serotonin (5-hydroxytryptamine, 5-HT) receptor(s) thatactivate adenylyl cyclase (AC) in Aplysia CNS. We call this classof receptor 5-HT_apAC. Eight of the 14 antagonists tested wereeffective against 5-HT_apAC in CNS membranes with the followingrank order of potency: methiothepin > metergoline ~ fluphenazine> clozapine > cyproheptadine ~ risperidone ~ ritanserin > NAN-190.GR-113808, olanzapine, Ro-04-6790, RS-102221, SB-204070, and spiperonewere inactive. Methiothepin completely blocked 5-HT stimulationof AC with a K_b of 18 nM. Comparison of the pharmacological profileof the 5-HT_apAC receptor with those of mammalian 5-HT receptorsubtypes suggested it most closely resembles the 5-HT₆ receptor.AC stimulation in Aplysia sensory neuron (SN) membranes was alsoblocked by methiothepin. Methiothepin substantially inhibitedtwo effects of 5-HT on SN firing properties that are mediatedby a cAMP-dependent reduction in S-K⁺ current: spike broadening in tetraethylammonium/nifedipine andincreased excitability. Consistent with cyproheptadine blocking5-HT stimulation of AC, cyproheptadine also blocked the 5-HT-inducedincrease in SN excitability. Methiothepin was less effective inblocking AC-mediated modulatory effects of 5-HT in electrophysiologicalexperiments on SNs than in blocking AC stimulation in CNS or SNmembranes. This reduction in potency appears to be due to effectsof the high ionic strength of physiological saline on the bindingof this antagonist to the receptor. Methiothepin also antagonizedAC-coupled dopamine receptors but not AC-coupled small cardioactivepeptide receptors. In conjunction with other pharmacological probes,this antagonist should be useful in analyzing the role of 5-HTin various forms of neuromodulation in Aplysia.

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