Tritiated haloperidol and tritiated dopamine label postsynaptic dopamine receptors in mammalian brain. Clinical potencies of butyrophenones, phenothiazines, and related drugs correlate closely with their ability to inhibit tritiated haloperidol binding. These binding methods provide a simple in vitro means for evaluating new drugs as potential antischizophrenic agents.
Amino-acid sequences derived from complementary DNAs encoding the alpha- and beta-subunits of the GABA/benzodiazepine receptor from bovine brain show homology with other ligand-gated receptor subunits, suggesting that there is a super-family of ion-channel-containing receptors. Co-expression of the in vitro-generated alpha-subunit and beta-subunit RNAs in Xenopus oocytes produces a functional receptor and ion channel with the pharmacological properties characteristic of the GABAA receptor.
When gamma-aminobutyric acid (GABA), the major inhibitory neurotransmitter in vertebrate brain, binds to its receptor it activates a chloride channel. Neurotransmitter action at the GABAA receptor is potentiated by both benzodiazepines and barbiturates which are therapeutically useful drugs (reviewed in ref. 1). There is strong evidence that this receptor is heterogeneous. We have previously isolated complementary DNAs encoding an alpha- and a beta-subunit and shown that both are needed for expression of a functional GABAA receptor. We have now isolated cDNAs encoding two additional GABAA receptor alpha-subunits, confirming the heterogeneous nature of the receptor/chloride channel complex and demonstrating a molecular basis for it. These alpha-subunits are differentially expressed within the CNS and produce, when expressed with the beta-subunit in Xenopus oocytes, receptor subtypes which can be distinguished by their apparent sensitivity to GABA. Highly homologous receptor subtypes which differ functionally seem to be a common feature of brain receptors.
Chronic treatment of rats with the neuroleptic drugs haloperidol, fluphenazine, and reserpine elicits a 20 to 25% increase in striatal dopamine receptor binding assayed with [3H]haloperidol. This increase in receptor sites may account for behavioral supersensitivity to dopamine receptor stimulants in such animals and for tardive dyskinesia in patients treated with these drugs.
GABAA receptors are GABA (gamma-aminobutyric acid)-gated chloride channels, which are major mediators of neuronal inhibition in the brain and are modulated by benzodiazepines, barbiturates, alcohol, and other important centrally acting drugs. Although previous pharmacological and biochemical data had suggested a degree of heterogeneity, recent cloning of at least 15 different receptor subunits, thought to be combined in groups of five, indicates that the brain may contain a truly astonishing variety of GABAA receptor subtypes. This review describes the little that is known about these subtypes, emphasizing possible molecular bases of receptor heterogeneity. We also discuss approaches to establishing the subunit composition of subtypes.
The binding of [3H]haloperidol to rat striatal dopamine receptors increases after lesion (made by injection of 6-hydroxydopamine) of the nigrostriatal dopamine pathway in those rats which are behaviorally supersensitive, as reflected by apomorphine-induced contralateral rotations. The enhanced binding is associated with an increased number of receptor sites with no change in their affinity.
gamma-Aminobutyric acidA (GABAA) receptors are multisubunit ligand-gated ion channels which mediate neuronal inhibition by GABA and are composed of at least four subunit types (alpha, beta, gamma, and delta). The gamma 2-subunit appears to be essential for benzodiazepine modulation of GABAA receptor function. In cloning murine gamma 2-subunits, we isolated cDNAs encoding forms of the subunit that differ by the insertion of eight amino acids. LLRMFSFK, in the major intracellular loop between proposed transmembrane domains M3 and M4. The two forms of the gamma 2-subunit are generated by alternative splicing, as demonstrated by cloning and partial sequencing of the corresponding gene. The eight-amino-acid insertion encodes a potential consensus serine phosphorylation site for protein kinase C. These results suggest a novel mechanism for the regulation of the GABAA receptor by protein phosphorylation.
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