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)

Vasoactive intestinal peptide (VIP) and cholecystokinin (CCK) have been measured, by radioimmunoassay, in cerebral cortex obtained at autopsy from patients without neurological or psychiatric disease and from patients with Alzheimer's disease, depression and schizophrenia. Sephadex gel filtration indicated that over 90% of the CCK immunoreactivity was associated with the octapeptide in extracted material from the different clinical groups investigated. There were no significant differences from the normal in the overall concentrations of either VIP or CCK in any of the psychiatric groups examined, although differences in Alzheimer's disease were apparent when cases were grouped according to postmortem delay.
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PMID:Neuropeptides in Alzheimer's disease, depression and schizophrenia. A post mortem analysis of vasoactive intestinal peptide and cholecystokinin in cerebral cortex. 626 60

Eight neuroleptic-resistant schizophrenic patients were treated with ceruletide diethylamine, a cholecystokininlike peptide, in a placebo-controlled, double-blind, cross-over study. Ceruletide or placebo was administered intramuscularly twice a day for four consecutive days while patients received a constant dose of fluphenazine hydrochloride. Cholecystokinin octapeptide was also administered to four different schizophrenic patients in a double-blind, cross-over study. Cholecystokinin or placebo was administered as a slow intravenous infusion daily for four days. There were no changes in either the positive or negative symptoms of schizophrenia between the periods of placebo, ceruletide, or cholecystokinin administration. Furthermore, there was no tendency for the patients' conditions to either improve or worsen during the course of ceruletide or cholecystokinin treatment. In contrast to previous reports from uncontrolled studies, cholecystokininlike peptides appear to be devoid of antipsychotic properties when administered parenterally.
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PMID:The effects of ceruletide in schizophrenia. 632 21

The close relationship of cholecystokinin peptides with some of the dopamine pathways and the limbic system suggests a putative role for these peptides in the pathophysiology of neuropsychiatric disorders such as Parkinson's disease, manic-depression and schizophrenia. By use of radioimmunoassay, we report a significant decrease in cholecystokinin-immunoreactivity in the cerebrospinal fluid of patients with bipolar manic-depression and untreated schizophrenia in comparison to control subjects.
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PMID:Reduced cholecystokinin immunoreactivity in the cerebrospinal fluid of patients with psychiatric disorders. 669 11

1. According to a currently popular biological hypothesis schizophrenic symptoms are caused by a hyperactivity in dopaminergic neurotransmission. Since cholecystokinin (CCK) is a neuromodulator of dopaminergic neurotransmission, the effects of CCK (0.3 microgram/kg; given in a single dose intravenously) were studied in six chronic paranoid schizophrenic patients. 2. Following 3 baseline assessments on separate days, the effects of CCK treatment were assessed immediately after the injection, daily for one week and weekly thereafter for 5 weeks by the Brief Psychiatric Rating Scale (BPRS) and by the Schizophrenia Subscale of the Present State Examination (SS-PSE). 3. One way analysis of variance revealed statistically significant changes in all BPRS factors as well as in the nuclear syndrome and in the total score of the SS-PSE. Dunnett's tests revealed that the time at which the changes from baseline became statistically significant was as follows: anxiety-depression factor of the BPRS, immediately after the injection; anergia factor of the BPRS, by day 2; thought disturbance factor of the BPRS, immediately after; activation factor of the BPRS, immediately after; hostile-suspiciousness factor of the BPRS, by day 1; total BPRS score, immediately after; nuclear syndrome of the SS-PSE, by day 1; and total score of the SS-PSE, by day 1. 4. It is concluded that further controlled studies of the antipsychotic properties of CCK are warranted.
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PMID:Cholecystokinin appears to have antipsychotic properties. 689 17

No consistent markers of pathology have been established yet in schizophrenia, although abnormalities in frontal and temporal structures are indicated from positron emission tomography (PET) studies. We have used in situ hybridization to investigate functional changes focusing on the quantitation of cholecystokinin (CCK) mRNA, whose product has been shown to be depleted in schizophrenia. CCK mRNA and G(o) alpha-subunit mRNA were measured in eight schizophrenic and eight control subjects matched for age and postmortem delay. The study revealed a marked decrease in CCK mRNA of 83% in frontal cortex (BA10) and 63% in superior temporal cortex (BA22) in schizophrenia with no change in G(o) alpha-subunit mRNA in either region. This study was extended to a further series of eight patients to determine the reproducibility of this effect and to quantitate laminar changes in CCK mRNA. Quantitation of CCK mRNA in inner cortical layers (layer V/VI) was carried out in frontal and temporal cortex in comparison with G(o) alpha-subunit mRNA, which is also concentrated in this region; this study showed a similar selective decrease in CCK mRNA in frontal and temporal cortex of 47% and 51%, respectively. A confirmatory decrease in CCK mRNA was also obtained by slot blot analysis of CCK mRNA in tissue extracts of frontal cortex by reference to levels of beta-tubulin mRNA, CCK mRNA:beta-tubulin mRNA was significantly decreased (67%) in schizophrenic tissue compared to control tissue. There was no significant correlation of CCK mRNA loss with neuroleptic treatment or duration of illness.
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PMID:Cholecystokinin messenger RNA deficit in frontal and temporal cerebral cortex in schizophrenia. 764 Mar 24

These studies explore the distribution of putative neuroactive peptides in the human olfactory bulb. Localization of synaptophysin-, serotonin-, cholecystokinin-, substance P-, and somatostatin-like staining was examined by immunocytochemical protocols. The results provide new insights into the composition and laminar segregation of subpopulations of neurons and neuronal processes in the human olfactory bulb. The prominent synaptophysin-like immunoreactivity observed in the glomeruli of the human olfactory bulb is consistent with the notion that the density of synapses, and hence the density of synaptic vesicles, is highest in the glomeruli. Serotonin-like immunoreactivity suggested a variable innervation of glomeruli ranging from a dense tangled ball of fibers within the glomerulus to a sparse innervation by a single immunoreactive fiber. There was no evidence of serotonin-like immunoreactive cell bodies in either the olfactory bulb proper, anterior olfactory nucleus, or proximal regions of the lateral olfactory tract. Cholecystokinin-like immunoreactivity was limited to fibers found largely in the juxtaglomerular region of the glomerular layer. In the deeper layers of the olfactory bulb, cholecystokinin-like immunoreactive fibers did not show any of branching or arborization that was evident in the juxtaglomerular region. Substance P-like immunoreactivity was seen in varicose fibers distributed in all of the human olfactory bulb laminae. In addition, stained multipolar neurons were found in the area of the anterior olfactory nucleus. Somatostatin-like immunoreactivity was similar to that of substance P in that a plexus of stained fibers was found in all laminae of the olfactory bulb. Also, somatostatin-like immunoreactive cell bodies were found in the area of the anterior olfactory nucleus. However, as compared to substance P, somatostatin had a less dense plexus of immunoreactive fibers in the olfactory bulb. These results increase our understanding of the fundamental organization of the human olfactory system. The current data, coupled with prior studies, provide a foundation from which to study the cellular pathology of diseases with known olfactory system sequelae such as Alzheimer's, Parkinson's, and schizophrenia.
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PMID:Immunohistochemical analyses of the human olfactory bulb. 769 Mar 71

Neurochemical investigation has played a major role in the search for the cause of schizophrenia. Initial research strategies involved the direct measurement of neurochemical substances in biological fluids. Subsequently, indirect measures of brain biochemistry including pituitary hormones and responses to pharmacologic probes were examined. Recent advances in in vivo functional neuroimaging, biochemical neuropathology, and molecular genetics have extended the scope of clinical neurochemical studies. The historical emphasis on the dopamine neurotransmitter system has subsided in the wake of the demonstrated limitations of the dopamine hypothesis of schizophrenia and increased evidence for the role of other neurotransmitters in the pathophysiology of schizophrenia as well as their interactions with dopamine neural systems. The neurotransmitters that have come under increasing scrutiny include serotonin, norepinephrine, glutamate, and related excitatory amino acids, and the neuropeptides cholecystokinin and neurotensin. In this article, the authors reviewed significant recently published neurochemical and neuroendocrine studies of schizophrenia in the context of previous work and found an extensive but fragmentary body of data which provides neither consistent nor conclusive evidence for any specific etiologic theory. Aspects of the disease and methodological limitations that may account for this as well as future research strategies are discussed.
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PMID:Neurochemistry and neuroendocrinology of schizophrenia: a selective review. 810 Jun 44

The octapeptide cholecystokinin (CCK) is one of the most abundant neuropeptides of the central nervous system. A number of features (for instance heterogeneity of the regional distribution, subcellular localization at the nerve terminal level, calcium-dependent release upon nervous tissue depolarization) support the candidacy of CCK as a neurotransmitter. The reported co-existence of CCK and dopamine in some meso-limbic neurons has led to speculation that the neuropeptide may interact with the catecholamine in neuropsychopathologies linked to dopamine dysfunctions, like schizophrenia. Data from the experimental animals have so far generated conflicting results. It should be noted that the interactions between CCK and dopamine, and, in particular, the effects of CCK and dopamine on each other release, both in vitro and in vivo, have been poorly investigated and would require special attention. Evidence is accumulating that CCK may participate in the expression of anxiety. Indeed antagonists at the central CCK receptors exhibit anxiolytic activity in the laboratory animal. An interesting linkage appears to exist in the brain between 5-hydroxytryptamine (5-HT) and CCK. Activation of 5-HT3 receptors was found to increase CCK release from rat cortical or nucleus accumbens synaptosomes. Interestingly, antagonists at 5-HT3 receptors appear to possess anxiolytic activity. Recent studies carried out in conscious unrestrained rats show that the calcium-dependent, tetrodotoxin-sensitive release of CCK-like immunoreactivity evoked in the rat frontal cortex by veratrine infusion can be inhibited by submicromolar concentrations of 5-HT3 receptor antagonists.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Release of cholecystokinin in the central nervous system. 851 79

Neuropeptide concentrations were determined in the postmortem cerebral cortex from 19 cognitive-impaired schizophrenics, 4 normal elderly subjects, 4 multi-infarct dementia (MID) cases, and 13 Alzheimer's disease (AD) patients. Only AD patients met criteria for AD. The normal elderly and MID cases were combined into one control group. Somatostatin concentrations were reduced in both schizophrenia and AD. Neuropeptide Y concentrations were reduced only in schizophrenia, and corticotropin-releasing hormone concentrations were primarily reduced in AD. Concentrations of vasoactive intestinal polypeptide and cholecystokinin also were reduced in schizophrenia, although not as profoundly as somatostatin or neuropeptide Y. In AD, cholecystokinin and vasoactive intestinal peptide were unchanged. Neuropeptide deficits in schizophrenics were more pronounced in the temporal and frontal lobes than in the occipital lobe. The mechanisms underlying these deficits in schizophrenia and AD are likely distinct. In schizophrenia, a common neural element, perhaps the cerebral cortical gaba-aminobutyric acid (GABA)-containing neuron, may underlie these deficits.
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PMID:Neuropeptide deficits in schizophrenia vs. Alzheimer's disease cerebral cortex. 871 4

It has been suggested that cholecystokinin (CCK), a gut-brain peptide found in high concentrations in the mammalian brain, might be implicated in the neurobiology of anxiety and panic disorder. The administration of CCK tetrapeptide induced panic attacks analogous to spontaneous ones in patients suffering from panic disorder and to a lesser degree in healthy volunteers. In animal models of anxiety, the pretreatment with CCK agonists and antagonists produced, respectively, anxiogenic- and anxiolytic-like action on the exploratory paradigms. On the other hand, CCK could also play a role in the pathophysiology of schizophrenia. The administration of CCK agonists (caerulein, CCK-8s) to rodents results in behavioural effects analogous to those of antipsychotic drugs. However, CCK agonists lack any activity in rodent behavioural models to reveal antipsychotic drugs. A significant reduction of CCK concentration and CCK receptors has been shown in cortical and limbic structures of patients suffering from schizophrenia. Nevertheless, administration of CCK agonists to these patients does not effect their symptoms. Two major conclusions should be drawn: first, CCK is involved in the neurobiology of anxiety; second, changes in the CCK system in schizophrenia could be linked to a cortical neurodegeneration related to this disease.
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PMID:Two faces of cholecystokinin: anxiety and schizophrenia. 873 54


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