James K. Wamsley scite author profile

The distribution of dopamine D-1 receptors has been determined in the rat brain by a quantitative in vitro light-microscopic autoradiographic method. The binding of [N-methyl-3H]-SCH 23390 to slide-mounted tissue sections takes place with characteristics expected of a substance that recognizes D-1 receptors. The binding is saturable, has high affinity, and exhibits an appropriate pharmacology and stereospecificity in several discrete microscopic brain regions as determined by quantitative autoradiography. The highest density of D-1 receptors occurs in the caudate-putamen, accumbens nucleus, olfactory tubercle, and the substantia nigra pars reticulata. High concentrations of D-1 receptors were associated with the intercalated and medial nuclei of the amygdala, entopeduncular nucleus, and major island of Calleja. Furthermore, moderate to low concentrations were observed in several other structures, such as the frontal cortex, subthalamic nucleus, and several thalamic, hypothalamic, and hippocampal areas. The distribution of D-1 receptors correlates very well with projection areas of dopaminergic pathways. This technique furnishes a powerful assay for the accumulation of detailed pharmacologic and anatomical data about D-1 receptors, and the results suggest possible CNS sites of action of D-1 dopamine receptor selective compounds.

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The distribution of histamine H1-receptors in the rat brain: An autoradiographic study

Palacios

1981

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Glycine receptor: light microscopic autoradiographic localization with [3H]strychnine

Zarbin¹,

Wamsley²,

Kuhar³

1981

J. Neurosci.

283

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Glycine receptors have been localized by autoradiography in the rat central nervous system (CNS) using [3H]strychnine. The gross distribution of receptors is in excellent accord with the distribution determined by filtration binding assays. Specifically, the density of glycine receptors is greatest in the gray matter of the spinal cord and decreases progressively in regions more rostral in the neuraxis. Glycine receptors were found to be associated with both sensory and motor systems in the CNS. Moreover, there is a striking correlation between areas of high strychnine binding site density and areas in which glycine has been found to be electrophysiologically active. Finally, the anatomic localization of strychnine binding sites may help explain many of the signs and symptoms of strychnine ingestion. For example, individuals consuming subconvulsive doses of strychnine frequently experience altered cutaneous and auditory sensation. We have localized strychnine receptors in areas of the acoustic system known to influence discriminative aspects of audition and in areas of the spinal cord and trigeminal nuclei which modulate discriminative aspects of cutaneous sensation. The alteration of visceral functions (e.g., blood pressure and respiratory rate) associated with strychnine ingestion may be accounted for in a similar manner.

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Dopamine deficiency in a genetic mouse model of Lesch-Nyhan disease

et al. 1994

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We have examined several aspects of neurotransmitter function in the brains of mice carrying a deletion mutation in the gene encoding the purine salvage enzyme hypoxanthine-guanine phosphoribosyltransferase (HPRT). During the first 6 weeks of postnatal development, dopamine levels in whole-brain extracts from the mutant mice (HPRT-) failed to increase at rates comparable to normal animals, resulting in 40% lower dopamine levels throughout adulthood. Regional analysis in adult animals showed the caudoputamen to be the most severely affected region, with dopamine deficits of 48–64%. Dopamine levels in other regions were normal or less severely affected. The decrease in dopamine was accompanied by a decrease in tyrosine hydroxylase (TH) activity, the rate-limiting step in dopamine synthesis. Kinetic analysis of TH extracted from the caudoputamen of normal and HPRT- mice demonstrated a 45% decrease in Vmax with an increased affinity for the tetrahydropterin cofactor in the mutants. Labeling of midbrain dopamine neurons using TH immunohistochemistry revealed no obvious deficits in the number of midbrain dopamine neurons, but quantitative autoradiographic studies revealed significant reductions in the binding of 3H-N-[1-(2-benzo(beta)thiophenyl)cyclohexyl]piperidine (3H-BTCP) to dopamine uptake sites in the forebrain of the mutants. In contrast to these abnormalities of the dopamine systems in the mutant mice, other neurotransmitter systems appeared relatively unaffected. Norepinephrine, 5-HT, tryptophan hydroxylase, and glutamic acid decarboxylase were present at normal levels in the brains of the mutants. ChAT activity was slightly lower than normal in the caudoputamen of the mutant animals, but was normal in all other brain regions examined. These results indicate that HPRT deficiency is associated with a relatively specific deficit in basal ganglia dopamine systems that emerges during the first 2 months of postnatal development.

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James K. Wamsley

D-1 dopamine receptors in the rat brain: a quantitative autoradiographic analysis

The distribution of histamine H1-receptors in the rat brain: An autoradiographic study

Glycine receptor: light microscopic autoradiographic localization with [3H]strychnine

Dopamine deficiency in a genetic mouse model of Lesch-Nyhan disease

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