Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036341 (schizophrenia)
60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenylate cyclase (EC 4.6.1.1), selectively stimulated by low concentrations of dopamine, has been found in the olfactory tubercle, the nucleus accumbens, and the caudate nucleus of several mammalian species. Several different classes of drugs effective in the treatment of schizophrenia (antipsychotic drugs) were potent inhibitors of the stimulation by dopamine of the enzyme from these various regions. The drugs studied included representatives of the phenothiazine, butyrophenone, and dibenzodiazepine classes. The inhibition by these antipsychotic drugs was competitive with respect to dopamine. The most potent of the antipsychotic agents tested was fluphenazine, which had a calculated inhibition constant (K(i)) of about 5 x 10(-9) M. For each of several drugs tested, the K(i) for the enzyme from the olfactory tubercle was similar to that for the enzyme from the caudate nucleus. Several compounds closely related structurally to the psychoactive phenothiazines, but which have little or no antipsychotic or extrapyramidal actions clinically, had low relative potencies as inhibitors of dopamine-stimulated adenylate cyclase activity. The results, considered together with other data, raise the possibility that the therapeutic effects, as well as the extrapyramidal side effects, of these antipsychotic agents may be attributable, at least in part, to their ability to block the activation by dopamine of specific dopamine-sensitive adenylate cyclases in the human brain.
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PMID:Dopamine-sensitive adenylate cyclase in mammalian brain: a possible site of action of antipsychotic drugs. 415 17

1. Interpretation of neuroendocrine studies in schizophrenia requires consideration of (a) the large number of variables that affect drug-induced endocrine responses (b) the effect of prior neuroleptic therapy (c) heterogeneity of schizophrenia (d) heterogeneity of receptors (e) uniqueness of the hypothalamic-pituitary axis (f) selectivity and pharmacokinetics of administered drugs. 2. Apomorphine increases growth hormone secretion by an effect on dopamine receptors that are not linked to adenylate cyclase and which are located outside the blood brain barrier. 3. Hypothalamic-pituitary histaminergic H2 and alpha-adrenergic function are unchanged in chronic schizophrenia. 4. Schizophrenic symptoms persist despite complete blockade of dopamine receptors modulating prolactin secretion. 5. Studies on dopamine receptors modulating prolactin secretion are unlikely to shed light on the pathophysiology of schizophrenia. 6. Screening for drugs which block apomorphine-induced growth hormone secretion but do not increase prolactin may provide a way of detecting anti-schizophrenic drugs which are devoid of side effects associated with hyperprolactinemia and which do not induce parkinsonism or tardive dyskinesia.
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PMID:Drug-induced growth hormone and prolactin responses in schizophrenia research. 613 95

alpha-Adrenergic receptor function was assessed in platelets from drug-free schizophrenic patients and control subjects. The number of alpha-receptors was similar in platelet membranes from schizophrenic patients and control subjects. In intact platelets from schizophrenic male, but not female, patients, prostaglandin E1 (PGE1)-stimulated cyclic adenosine monophosphate (cAMP) level was less than in control subjects. This defect may be due, at least in part, to decreased adenylate cyclase activity. In platelet lysates from schizophrenic patients, but not from normal control subjects, adenylate cyclase activity was diminished and PGE1-stimulated adenylate cyclase activity could be restored partially by the addition of guanosine triphosphate. Treatment with neuroleptic drugs or lithium carbonate did not change alpha-receptor number or cAMP production in platelets from schizophrenic patients, but high doses of propranolol hydrochloride increased cAMP production without affecting the number of alpha-receptors. If the production of cAMP in neurons is similar to that in platelets, diminished cAMP production may be associated with a vulnerability to schizophrenia.
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PMID:alpha-Adrenergic receptor function in schizophrenia. Receptor number, cyclic adenosine monophosphate production, adenylate cyclase activity, and effect of drugs. 613 56

Acute administration of neuroleptic drugs causes blockade of cerebral dopamine receptors. It has been discovered that chronic administration of neuroleptic drugs may have different effects on cerebral dopamine systems. Initial antagonism of dopamine mediated behaviour, such as stereotypy, disappears and may be replaced by supersensitivity to dopamine agonists. Changes also occur in biochemical indices of dopamine receptors, such as in the number and affinity of specific binding sites identified by 3H-ligands labelling D-2 receptors, and in dopamine-stimulated adenylate cyclase activity. All these changes occur obviously in the striatum in response to chronic administration of a range of neuroleptic drugs. Lesser changes take place in the mesolimbic dopamine system. What happens in the mesocortical dopamine pathways is unknown. The consequence of such adaptive responses to chronic neuroleptic therapy may be of importance to understanding of tardive dyskinesia and schizophrenia.
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PMID:The effect of chronic neuroleptic administration on cerebral dopamine receptor function. 613 3

Chronic (12 days) administration of sulpiride (50 mg/kg, i.p.) in rats resulted in a significant (12%) increase in the glutamate contents of cerebrospinal fluid. Sulpiride had no effect on the GABA content of the brain areas investigated (frontal cortex, striatum, hippocampus and substantia nigra). Sulpiride is a neuroleptic drug which is believed to block especially the non-adenylate cyclase dopaminergic receptors which are supposed to be inhibitory axoaxonic receptors on glutamatergic corticostriatal terminals. The results are compatible with the hypothesis that glutamatergic hypofunction might be the primary defect in schizophrenia rather than hyperactivity of the dopamine synapses.
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PMID:Cerebral glutamate, neuroleptic drugs and schizophrenia: increase of cerebrospinal fluid glutamate levels and decrease of striate body glutamate levels following sulpiride treatment in rats. 613 56

Neuroleptic drugs are believed to control schizophrenia by blocking brain dopamine receptors, although most act also on a number of other neuronal systems in brain. Substituted benzamide drugs in general, are more specific for the dopamine system. Brain dopamine receptors, however, are not a single entity. They can be divided on the basis of their linkage to adenylate cyclase. Substituted benzamide drugs are selective antagonists of the adenylate cyclase independent dopamine receptor population. They may be selective antagonists of one sub-population of these adenylate cyclase independent receptors, for unlike typical neuroleptics the receptor interaction of substituted benzamide drugs with brain dopamine receptors depends upon the presence of sodium ions. The specificity of substituted benzamide drugs for brain dopamine receptors is reflected in their behavioural profile. Typical substituted benzamide drugs do not cause catalepsy and, in general, only weakly inhibit motor phenomena. This inability to act in vivo cannot be entirely explained by the poor penetration of these drugs into brain. The unique properties of the substituted benzamide drugs might explain their clinical value in the treatment of schizophrenia and in the treatment of dyskinesias.
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PMID:Multiple dopamine receptors in brain and the pharmacological action of substituted benzamide drugs. 614 87

Biological studies of the relationships between the schizoaffective disorders, the affective disorders, and schizophrenia suggest that no simple reductionist model is supported by currently available data. Thus, both affective and schizoaffective patients but not schizophrenics, manifest abnormalities such as decreased platelet serotonin (5-HT) uptake, blunted clonidine-induced increase in serum growth hormone, shortened latency of rapid eye movement (REM) sleep, and increased REM density. However, there are some types of studies which show greater similarity between schizoaffective and schizophrenic patients than between schizoaffectives and affectives--e.g., increased cerebrospinal fluid (CSF) norepinephrine levels, increased platelet 5-HT content, and decreased prostaglandin E1-stimulated adenylate cyclase activity. Other types of studies show abnormalities common to all three groups of psychoses--e.g., eye tracking dysfunction, elevated CSF concentration of gamma-aminobutyric acid, and neuromuscular abnormalities. There are also abnormalities that have been reported to be present in only one type of the psychoses. Although none of these findings have been so unequivocally demonstrated that they can be considered to be firmly established, they do suggest that it is premature to conclude that the schizoaffective disorders are subtypes of the affective disorders. The possibility of a continuum model of the psychiatric psychoses of unknown etiology merits further consideration. Further biological studies of a broad range of psychiatric psychoses with inclusion of the schizoaffective categories appear indicated.
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PMID:Biological studies of schizoaffective disorders. 642 46

Receptor binding studies with a variety of dopaminergic ligands have confirmed behavioral and biochemical findings that the central nervous system and peripheral nervous system contain several dopamine receptor subtypes. These subtypes can be discriminated on the basis of their agonist-antagonist pharmacological specificities, linkage to adenylate cyclase, cellular location, regulation by guanine neucleotides and ions, and involvement in several human diseases. Although questions remain unanswered, progress is rapidly being made in equating the subgroupings arrived at by these different experimental approaches. Dopamine receptors are regulated by a number of factors. Acutely, guanine nucleotides and some ions regulate agonist but not antagonist binding and are essential for receptor coupling with adenylate cyclase. Chronically, changes in the level of dopaminergic stimulation modulate the number of at least some receptor subtypes, resulting in "up or down regulation." An increase in receptor number appears central to the pathology of Parkinson's disease, tardive dyskinesia, and perhaps schizophrenia. Animal models indicate that it may be possible to exploit inherent capabilities for receptor modulation in clinical therapy. The therapeutic precedents set by the indentification of distinct subtypes of adrenoreceptors. histamine, and cholinergic receptors portends and exciting future for dopamine receptor research.
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PMID:Dopamine receptors: subtypes, localization and regulation. 700 83

Thirty-three years ago, Gaddum and Picarelli classified the serotonin (5-HT) receptors in the guinea-pig ileum into D and M types based on the activity of dibenzyline (D) and morphine (M) to block contractions of intestinal smooth muscles caused by 5-HT. The subsequent location of specific ligand binding sites for 5-HT in the brain has led to the identification of 10 5-HT receptor subtypes in rat brain. While there is some controversy over the functional importance of many of these receptor subtypes, there is evidence that they fall into two major groups according to the nature of their coupling to secondary messengers or ion channels. Thus the 5-HT1 and 5-HT2 receptors appear to occupy the G protein receptor subfamily which may be coupled either to adenylate cyclase (most 5-HT1 subtypes) or phosphatidyl inositol (5-HT2 subtypes). The central "M" receptors (now termed 5-HT3) appear to occupy a ligand-gated ion channel superfamily. The cloning of these receptor subtypes has been of importance in enabling them to be classified as specific protein molecules encoded by specific genes. A problem now arises with regard to the linking of the changes in the cellular activity of the various receptor subtypes with the plethora of behavioural changes that arise as a consequence of the actions of 5-HT in the brain. The present review summarizes the evidence implicating the role of specific 5-HT receptor subtypes in thermoregulation, modulation of cardiovascular function, eating disorders, sleep, sexual activity, anxiety states, aggression, schizophrenia and depression. A summary of the relationship between these receptor subtypes and their possible involvement in the aetiology of these diseases is also given.
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PMID:Serotonin receptors--where are they going? 802 39

The first indication that histamine might be important in the functioning of the brain was the finding that the centrally penetrating histamine H1 antagonists had marked sedative properties. Subsequently with the development of more specific compounds and drugs for the H1, H2 and H3 receptors a greater understanding of the neurotransmitter/modulator role of histamine in the CNS has been possible. Histamine is now associated with wakefulness, suppression of seizures, hypothermia and emesis. The histamine H1 antagonists have been shown to potentiate opioid-induced analgesia, and modify eating and drinking patterns as well as endocrine secretions from the pituitary gland. Additionally, clinically useful antidepressants have been shown to inhibit histamine-sensitive adenylate cyclase from the mammalian brain. Recently, a possible role for both histamine H1 and H2 receptors in schizophrenia has been reported. As more specific and centrally-penetrating histaminergic compounds are developed, so the roles of histamine as a neurotransmitter/modulator in the brain will be better understood.
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PMID:Histaminergic drugs as modulators of CNS function. 873 45


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