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[3H]-DOB(4-bromo-2,5-dimethoxyphenylisopropylamine) and [3H] ketanserin label two affinity states of the cloned human 5-hydroxytryptamine2 receptor.

T. Branchek, N. Adham, M. Macchi, H. Kao, Paul R. Hartig

Molecular Pharmacology November 1, 1990 DOI: 10.1016/s0026-895x(25)09519-7 via Semantic Scholar

Summary

A single human 5-HT2 receptor gene, when expressed in monkey kidney or mouse fibroblast cells, produces both [3H]DOB and [3H]ketanserin binding sites that match those in brain tissue. Adding a GTP analog converts two-site agonist binding to a single low-affinity state and reduces high-affinity DOB sites by 50% without changing their affinity. These results demonstrate that DOB and ketanserin bind to different conformations of the same receptor protein, supporting the classical two-state model of agonist and antagonist affinity states over the hypothesis of a separate 5-HT2A receptor subtype.

Study at a glance

Characteristics Laboratory experiment Peer reviewed
Population Monkey kidney Cos-7 cells and mouse fibroblast L-M(TK-) cells transfected with human 5-HT2 receptor cDNA
Keywords Medicine Chemistry
Citations 77
Key finding A single human 5-HT2 receptor cDNA produces both [3H]DOB and [3H]ketanserin binding sites, supporting the two-state model of agonist and antagonist conformations over the two-receptor model.

Abstract

The binding properties of the 5-hydroxytryptamine2 (5-HT2) receptor have been the subject of much interest and debate in recent years. The hallucinogenic amphetamine derivative 4-bromo-2,5-dimethoxyphenylisopropylamine (DOB) has been shown to bind to a small number of binding sites with properties very similar to [3H]ketanserin-labeled 5-HT2 receptors, but with much higher agonist affinities. Some researchers have interpreted this as evidence for the existence of a new subtype of 5-HT2 receptor (termed 5-HT2A), whereas others have interpreted these data as indicative of agonist high affinity and agonist low affinity states for the 5-HT2 receptor. In this investigation, a cDNA clone encoding the serotonin 5-HT2 receptor was transiently transfected into monkey kidney Cos-7 cells and stably transfected into mouse fibroblast L-M(TK-) cells. In both systems, expression of this single serotonin receptor cDNA led to the appearance of both [3H]DOB and [3H]ketanserin binding sites with properties that matched their binding characteristics in mammalian brain homogenates. Addition of guanosine 5'-(beta, gamma-imido) triphosphate [Gpp(NH)p] to this system caused a rightward shift and steepening of agonist competition curves for [3H] ketanserin binding, converting a two-site binding curve to a single low affinity binding state. Gpp(NH)p addition also caused a 50% decrease in the number of high affinity [3H]DOB binding sites, with no change in the dissociation constant of the remaining high affinity states. These data on a single human 5-HT2 receptor cDNA expressed in two different transfection host cells indicate that [3H]DOB and [3H]ketanserin binding reside on the same gene product, apparently interacting with agonist and antagonist conformations of a single human 5-HT2 receptor protein. These observations are consistent with the classical view of interconvertible agonist affinity states of GTP-binding protein-coupled receptors and strongly support the "two state" over the "two receptor" model for DOB binding to the 5-HT2 receptor.

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