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)

1. Some recent research on the behavioural effects of phenylethylamine and some recent data implicating the trace amines in schizophrenia, agoraphobia and aggression are briefly outlined. 2. Phenylethylamine produces in mice a distinctive hyperactivity syndrome consisting of two phases; it appears to act via dopamine and 5-hydroxytryptamine on different components of these stereotypies. 3. Urinary unconjugated tryptamine, and meta- and para-tyramine appear to be excreted in reduced amounts in schizophrenia and bipolar depression. 4. The blood levels of the trace acids phenylacetic and meta- and para-hydroxyphenylacetic are reduced in schizophrenia. 5. Blood levels of conjugated phenylacetic and unconjugated para-hydroxyphenylacetic acid are reduced in violent as opposed to non-violent offenders. 6. The neuromodulatory role of the trace amines and their possible involvement in components of behaviour and certain mental disorders are discussed.
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PMID:Some aspects of basic psychopharmacology: the trace amines. 629 92

When amphetamines are administered to humans every few hours for several days, either during the 'speed runs' of addicts or in controlled laboratory settings, the psychosis which reliably results is similar to paranoid schizophrenia in a number of important aspects. This unique regimen of drug intake, which involves the continuous presence of stimulants over a prolonged period of time, can be simulated in animals using subcutaneously implanted slow-release silicone pellets containing d-amphetamine base. Monkeys and rats implanted with these pellets develop stages of behavioural alterations which are somewhat similar in sequence to those observed in humans who have received frequent doses of amphetamine. An initial period of hyperactivity and exploratory behaviour is followed by the gradual development of motor stereotypies which become virtually incessant. A period of relative inactivity then appears which is followed, at 4-5 days after pellet implantation, by a late stage. This final stage is characterized by 'wet-dog' shakes, parasitotic-like grooming episodes, and a variety of other forms of hallucinatory-like behaviour. At about the same time there are distinctive and partially irreversible alterations in dopaminergic innervations of the caudate nucleus, but not in mesolimbic dopamine innervation of the nucleus accumbens or in several other neurotransmitter systems. Continuous amphetamine administration may reproduce some aspects of the prolonged excitation which accompanies an acute psychotic episode and may be a fruitful model for the clarification of the dopamine theory of schizophrenia.
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PMID:Continuous amphetamine intoxication: an animal model of the acute psychotic episode. 632 Feb 47

While one of the original underpinnings of the dopamine theory of schizophrenia was the paranoid psychosis which often develops during the binges or speed runs of chronic amphetamine addicts (and, more recently, in cocaine addicts), neurochemical studies of such drug abusers or from animals given continuous stimulants in an effort to model stimulant psychoses have not played a major role in the further evolution of this theory. One clear persisting alteration produced by continuous amphetamine is a neurotoxicity to dopaminergic innervations in caudate. Yet continuous cocaine administration apparently does not induce a similar neurotoxicity and this makes this effect a poor candidate for an underpinning of stimulant psychoses. However, it has recently been found that both continuous amphetamine and cocaine induce a strong pattern of degeneration which is highly confined to the lateral habenula and its principal output pathway, fasciculus retroflexus. This finding has led to a reconsideration of the role of these structures in psychoses. The habenula, as the chief relay nucleus of the descending dorsal diencephalic system (consisting of stria medullaris, habenula and fasciculus retroflexus), is an important link between limbic and striatal forebrain and lower diencephalic and mesencephalic centers. Studies of glucose utilization have consistently shown the habenula to be highly sensitive to dopamine agonists and antagonists. Lesions of habenula produce a wide variety of behavioral alterations. The dorsal diencephalic system has major and predominantly inhibitory connections onto dopamine-containing cells and it mediates part of the negative feedback from dopamine receptors onto dopamine cell bodies. It represents one of the major inputs in brain to the raphe nuclei and has anatomical and functional connections to modulate important functions such as sensory gating through thalamus, pain gating through central gray and raphe and motor stereotypies and reward mechanisms through substantia nigra and the ventral tegmental area. It is argued that alterations in these pathways are ideal candidates for producing the behaviors which occur during psychosis and that future considerations of the circuitry underlying psychoses need to include this highly important but relatively neglected system.
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PMID:Stimulant-induced psychosis, the dopamine theory of schizophrenia, and the habenula. 791 93

Progress toward understanding the role of the 5-hydroxytryptamine (5-HT)2 receptor in the therapy for schizophrenia has been hampered by the lack of highly selective antagonists. We now report on the effects of MDL 100,907 [R(+)-alpha-(2,3-dimethoxyphenyl)-1- [2-(4-fluorophenylethyl)]-4-piperidine-methanol], a highly selective and potent 5-HT2 receptor antagonist, in behavioral, electrophysiological and neurochemical models of antipsychotic activity and extrapyramidal side-effect liability. In mice, MDL 100,907 blocked amphetamine-stimulated locomotion at doses that did not significantly affect apomorphine-stimulated climbing behavior. Neither MDL 100,907 nor clozapine reduced apomorphine-induced stereotypies or produced catalepsy in rats. MDL 100,907 blocked the slowing of ventral tegmental area (A10) dopaminergic neurons by amphetamine but, like clozapine, produced only small increases in the number of active substantia nigra zona compacta (A9) and A10 dopamine neurons after acute administration. When administered chronically, MDL 100,907 and clozapine selectively reduced the number of spontaneously active A10 neurons, whereas haloperidol reduced activity in both the A9 and A10 regions. Consistent with their acute effect on A9 and A10 activity, neither MDL 100,907 nor clozapine increased dopamine metabolism in the striatum or nucleus accumbens, whereas acute haloperidol accelerated dopamine turnover in both regions. The administration of the dopamine uptake blocker amfonelic acid with haloperidol produced a massive increase in DA metabolism characteristic of typical antipsychotics. In contrast, MDL 100,907 and clozapine were without effect on dopamine turnover when given in the presence of amfonelic acid. These data indicate that MDL 100,907 has a clozapine-like profile of potential antipsychotic activity with low extrapyramidal sid-effect liability.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of the 5-HT2 receptor antagonist MDL 100907 as a putative atypical antipsychotic: behavioral, electrophysiological and neurochemical studies. 810 46

Results of recent studies in pharmacotherapy in autism are presented. Haloperidol, fenfluramine and naltrexone have been the most extensively studied drugs in systematic research. Haloperidol appeared to decrease levels of hyperactivity, stereotypies, emotional lability but also abnormal object relations and social withdrawal. However, the therapeutic effect was generally modest and long term administration was associated with dyskinesias in autistic children. The frequent hyperserotonemia in autism has suggested the use of fenfluramine, an antiserotoninergic agent. Although the initial reports were optimistic, more recent carefully designed studies often failed to show that fenfluramine was superior to placebo. Naltrexone, a potent opiate antagonist, was explored following the opioid hypothesis based on the similarity between autistic symptomatology and abnormal behaviors observed in opiate addicts and in laboratory animals administered opiates and on the abnormalities of endogenous opioids that exit in a subgroup of autistic children. However, the current studies do not concur and no definite conclusions can be made of the efficacy of naltrexone at present time. Low doses of amisulpride which have been shown to improve negative symptoms in schizophrenia and serotoninergic antidepressants, which have proven effective in repetitive and ritualized behaviors, have recently began to be evaluated in controlled studies. At present time, no medication has shown to alter the course or the symptoms of autism, but some seem to be effective in reducing severe aberrant behaviors.
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PMID:[Psychopharmacology of autism]. 876 48

Stereotypies are patterned, repetitive, purposeless movements that are performed the same way each time. They are commonly seen in individuals with autism, schizophrenia, or mental retardation, and also occur as a feature of tardive dyskinesia and as movements in those with akathisia. We studied 10 children who had stereotypies but were not autistic or mentally retarded. Although most had an uneventful delivery, seven had mild to moderately delayed developmental milestones. Five had hyperactive behavior or attention-deficit problems. All appeared to be of normal intelligence. The median age of onset of stereotypies was 12 months. The stereotypies including arm flapping, arm and hand posturing, finger wiggling, body rocking, leg shaking, facial grimacing, involuntary noises, neck extension, and eye blinking. Of the 10 children, only two stopped having stereotypies eventually without medications.
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PMID:The characterization and outcome of stereotypical movements in nonautistic children. 899 53

Amisulpride, a benzamide derivative, is an antipsychotic drug with a pharmacological profile distinct from that of classical neuroleptics such as haloperidol and from that of another benzamide, remoxipride. In mice, amisulpride antagonized hypothermia induced by apomorphine, quinpirole or (+/-) 7-hydroxy-2-(di-n-propylamino)-tetralin, an effect involving D2/D3 receptors, at similar doses (ED50 approximately 2 mg/kg i.p.), which were much lower than doses that blocked apomorphine-induced climbing, an effect involving postsynaptic D2 and D1 receptor activation (ED50 = 21 mg/kg i.p.). Much higher doses (ED50 = 54 mg/kg i.p.) of amisulpride were needed to block grooming behavior observed after a short period in water, a D1 receptor-mediated behavior. In rats, amisulpride preferentially inhibited effects produced by low doses of apomorphine (hypomotility and yawning), related to stimulation of presynaptic D2/D3 dopamine autoreceptors (ED50 = 0.3 and 0.19 mg/kg i.p.). By contrast, amisulpride antagonized apomorphine-induced hypermotility, a postsynaptic dopamine receptor-mediated effect, at a much higher dose (ED50 = 30 mg/kg i.p.). Amisulpride (100 mg/kg i.p.) only partially inhibited apomorphine-induced stereotypies (gnawing) and had no effect on stereotypies induced by d-amphetamine. However, d-amphetamine-induced hyperactivity was antagonized by doses of amisulpride as low as 3 mg/kg i.p., which may indicate selectivity of this drug for limbic dopaminergic mechanisms. In addition, in contrast to haloperidol or remoxipride, which produced catalepsy at doses 2 or 3 times higher than those that antagonized stereotypies induced by apomorphine, amisulpride did not induce catalepsy up to a dose of 100 mg/kg i.p., which occupies 80% of striatal D2 receptors. This pharmacological profile of amisulpride, characterized by a preferential blockade of effects involving presynaptic mechanisms and limbic structures, may explain the clinical efficacy of this drug against both negative and positive symptoms of schizophrenia and its low propensity to produce extrapyramidal side effects.
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PMID:Psychopharmacological profile of amisulpride: an antipsychotic drug with presynaptic D2/D3 dopamine receptor antagonist activity and limbic selectivity. 899 84

Dopamine receptor antagonists, particularly haloperidol, have been the most effective medications in currently available double-blind placebo-controlled studies for treating the disruptive behaviors often associated with pervasive developmental disorder (PDD). The rationale for trying risperidone in this population includes its dopamine-blocking activity; its seemingly lower incidence of tardive dyskinesia when compared to standard neuroleptics; the possibility that risperidone may ameliorate the social withdrawal of PDD, as it does the negative symptoms in schizophrenia; and substantial effects on serotonergic neurotransmission, which has been shown to be dysregulated in some patients with PDD. This study was an open-label pilot trial of risperidone in 6 subjects (aged 7-14 years, mean = 10.7) who met DSM-III-R criteria for a PDD diagnosis. The mean optimal dose was 2.7 mg daily (range 1-6). Mean duration of risperidone administration was 5.2 months (range 1-8). Despite the small sample size, risperidone treatment appeared to be associated with significant improvements in ratings of angry affect (p = 0.04) and lability of affect (p = 0.03) and with a trend (p = 0.10) toward a reduction of mean hyperactivity scores. Clinical Global Improvement scale ratings were statistically significant (p < 0.001). Increased sociability was reported in 3 subjects by their parents and family following the study. Three patients continued on risperidone for over 2 years, and none showed any loss of its apparent therapeutic effects. Weight gain was observed in 5 of 6 patients, with a median increase of 5.4 kg (12 lbs) in 7 weeks. Other side effects included transient sedation, increased salivation, and stereotypies. One child showed a worsening of pre-existing tic and phobic symptoms after 5 months of successful monotherapy. No loss of therapeutic effect was noted in the 3 subjects who remained on risperidone for over 2 years, but 1 patient developed hepatotoxicity and another developed withdrawal dyskinesia, similar to her prior experience with haloperidol. Overall, 5 of the 6 patients derived significant clinical benefits from risperidone. Pharmacologic alternatives for treating behavioral symptoms in PDD are need, and risperidone may be a promising possibility.
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PMID:Risperidone in children and adolescents with pervasive developmental disorder: pilot trial and follow-up. 946 34

Neonatal excitotoxic damage of the ventral hippocampus (VH) is a heuristic model of schizophrenia. We investigated whether: (1) neonatal damage of the medial prefrontal cortex (mPFC) has effects similar to the neonatal VH lesion; and (2) intrinsic mPFC neurons contribute to the abnormal behaviors associated with VH lesions. Neonatal rats were lesioned in the mPFC. In adulthood, they showed attenuated locomotion in response to novelty, amphetamine, and MK-801, and enhanced apomorphine-induced stereotypies as compared to controls. Striatal D1 and D2 receptor mRNAs were unaltered. Another group was lesioned in the VH and additionally in the mPFC in adulthood. Destroying mPFC neurons normalized hyperlocomotion to novelty and amphetamine of the neonatally VH lesioned rats. Thus, neonatal damage of the mPFC does not provide a heuristic model of schizophrenia-like phenomena, in contrast to analogous damage of the VH. However, mPFC intrinsic neurons that have developed in the context of abnormal hippocampal connectivity may be responsible for abnormal behaviors in the neonatally VH lesioned rats.
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PMID:Excitotoxic lesions of the rat medial prefrontal cortex. Effects on abnormal behaviors associated with neonatal hippocampal damage. 980 21

The dopamine hypothesis of schizophrenia posits that dopamine dysregulation plays a key role in the etiology of schizophrenia. In line with this hypothesis, repeated amphetamine (AMPH) exposure has been shown to alter dopamine systems and induce behaviors reminiscent of positive-like and negative-like symptoms in both human and nonhuman primates. The mechanisms by which AMPH produces disturbances in brain function and behavior are not fully understood. The present study has employed a novel AMPH regimen, 12 weeks of intermittent escalating low doses of AMPH, to produce a nonhuman primate model for the purpose of elucidating the behavioral and neural consequences of excessive dopamine exposure. Behavioral responses to acute AMPH challenge (0.4-0.46 mg/kg) were assessed prior to and following the chronic 12-week treatment regimen, and, at present monkeys have been followed out to 28 months post-treatment. After chronic treatment, enhanced behavioral responses to AMPH challenge were readily apparent at 5 days postwithdrawal, and, were still present at 28 months postwithdrawal. The enhanced behavioral responses to low-dose AMPH challenge that were observed in the present study resemble closely the behavioral profile that has been described for chronic high-dose AMPH treatment in monkeys; i.e., hallucinatory-like behaviors, static posturing, and fine-motor stereotypies were all exacerbated in response to AMPH injection. In some animals, acute challenges after chronic AMPH evoked aberrant behavioral responses that lasted for 4 days. AMPH-treated monkeys also exhibited a significant decrease in the incidence of motor stereotypies in the off-drug periods between challenges. The present results are the first to document persistent long-term behavioral effects of intermittent exposure to repeated low-dose AMPH treatment in nonhuman primates. These findings may lay the groundwork for the development of a primate mode of psychosis with possible positive-like and negative-like symptoms.
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PMID:Long-lasting psychotomimetic consequences of repeated low-dose amphetamine exposure in rhesus monkeys. 988 81


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