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)

Some investigators have speculated that structural brain alterations observed in some psychiatric patients might be related to increased limbic-hypothalamic-pituitary-adrenal axis (LHPA) activity. To explore this hypothesis, we prospectively studied 166 research volunteers (19 patients with research diagnostic criteria (RDC) major depression, 9 patients with RDC bipolar depression, 45 patients with RDC schizophrenia, and 94 RDC normal controls), examining the relationship between magnetic resonance image-determined ventricular-to-brain ratio (VBR) and indices of LHPA axis function (cerebrospinal fluid (CSF) corticotropin-releasing factor (CRF), CSF adrenocorticotropic hormone (ACTH), and 24-hour urinary-free cortisol secretion). We observed no significant differences in mean VBR among the three patient groups and the normal control volunteers. Of the indices of LHPA activity, only CSF CRF concentrations distinguished the four subject groups, with CSF CRF being significantly elevated in the more severely depressed major depression patients. Indices of LHPA activity were not significantly correlated with VBR in any of the three patient groups or in the normal volunteers. These preliminary results suggest that VBR is not highly associated with alterations in LHPA activity, at least as determined cross-sectionally. Further longitudinal studies with reference to diagnostic subtypes, severity, symptom profiles, and more specific neuroanatomic regions may allow the elucidation of possible relationships between LHPA pathology and structural brain alterations.
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PMID:Limbic-hypothalamic-pituitary-adrenal axis activity and ventricular-to-brain ratio studies in affective illness and schizophrenia. 131 68

The possibility that hypersecretion of corticotropin-releasing factor (CRF) contributes to the hyperactivity of the hypothalamo-pituitary-adrenal axis observed in patients with major depression was investigated by measuring the concentration of this peptide in cerebrospinal fluid of normal healthy volunteers and in drug-free patients with DSM-III diagnoses of major depression, schizophrenia, or dementia. When compared to the controls and the other diagnostic groups, the patients with major depression showed significantly increased cerebrospinal fluid concentrations of CRF-like immunoreactivity; in 11 of the 23 depressed patients this immunoreactivity was greater than the highest value in the normal controls. These findings are concordant with the hypothesis that CRF hypersecretion is, at least in part, responsible for the hyperactivity of the hypothalamo-pituitary-adrenal axis characteristic of major depression.
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PMID:Elevated concentrations of CSF corticotropin-releasing factor-like immunoreactivity in depressed patients. 633 62

Neuropeptide Y is a 36-amino acid peptide that is widely distributed in the brain. Recently, three neuropeptide Y receptor subtypes were discovered with the aid of peptidergic agonist analogs of neuropeptide Y. Many researchers reported that neuropeptide Y might be involved in locomotor activity, eating behavior, stress responses, memory processing, circadian rhythms, blood pressure and neuroendocrine functions. It was also reported to interact with sigma receptor and corticotropin-releasing factor. Clinical evidence suggests that neuropeptide Y might be related to depression, schizophrenia, anorexia nervosa and Alzheimer's disease. In this review, central distribution and receptor subtypes of neuropeptide Y, its physiological action and its levels in cerebrospinal fluid and plasma in psychiatric and neurological illnesses are described.
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PMID:[Neuropeptide Y: psychopharmacological and clinical aspects]. 794 76

Corticotropin-releasing factor (CRF), an endogenous neuropeptide, has been shown to coordinate endocrine, behavioral and autonomic responses to stress. However, while previous studies of cerebrospinal fluid (CSF) CRF in schizophrenia have not demonstrated significant differences compared to control groups, these studies have not examined the effects of symptom severity or antipsychotic medication. CSF CRF concentrations increased in 18 of 21 male schizophrenic (DSM-III-R) patients after maintenance haloperidol was replaced by placebo (P < 0.0001); there was also a trend for relatively greater increases in relapsers. CRF concentrations were not significantly related to severity of psychosis, depression, anxiety or negative symptoms. During haloperidol treatment, but not after medication withdrawal, worse childhood premorbid adjustment was associated with higher CSF CRF levels. Finally, in contrast to the positive correlation between CSF CRF and norepinephrine concentrations reported in depression, a negative trend was seen in this schizophrenic sample.
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PMID:Cerebrospinal fluid corticotropin-releasing factor increases following haloperidol withdrawal in chronic schizophrenia. 801 84

Inbred MRL, NZB and BXSB strains of mice spontaneously develop a systemic, lupus-like autoimmune disease. The progress of autoimmunity is accompanied with a cascade of behavioral changes, most consistently observed in tasks reflective of emotional reactivity and the two-way avoidance learning task. Given the possibility that behavioral alterations may reflect a detrimental consequence of autoimmune-inflammatory processes and/or an adaptive response to chronic malaise, they are tentatively labeled as autoimmunity-associated behavioral syndrome (AABS). It is hypothesized that neuroactive immune factors (pro-inflammatory cytokines, brain-reactive antibodies) together with endocrine mediators (corticotropin-releasing factor, glucocorticoids) participate in the etiology of AABS. Since AABS develops natively, and has a considerable face and predictive validity, and since the principal pathway to autoimmunity is known, AABS may be a useful model for the study of CNS involvement in human autoimmune diseases and by extension, for testing autoimmune hypotheses of several mental disorders (major depression, schizophrenia, Alzheimer's disease, autism and AIDS-related dementia).
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PMID:Neurobehavioral alterations in autoimmune mice. 916 68

Sleep abnormalities have been consistently observed in patients with schizophrenia. Elevated levels of corticotropin releasing factor (CRF) and prostaglandins (PGs) in the cerebrospinal fluid (CSF) of patients with schizophrenia have been reported, and these neurochemical substances, known to modulate sleep in experimental animals, may play a role in these sleep abnormalities. In this study, we measured PGD2, PGE2, PGF2alpha and CRF levels in the CSF of 14 unmedicated schizophrenic patients and 14 age- and sex-matched control subjects. Polysomnographic recordings were also carried out for each subject. As expected, the sleep of the schizophrenic subjects significantly differed from that of the controls; schizophrenic subjects had a longer sleep onset latency, slept less, spent fewer minutes in stage 2 sleep and had a lower sleep efficiency. We could not, however, detect any differences in CSF CRF and PG levels between normal and schizophrenic subjects, nor could we find any correlation between CSF variables and sleep parameters in the schizophrenic subjects and the non-psychiatric controls. These results do not favor the hypothesis of a role for CRF or PGs in the pathophysiology of sleep disturbances in schizophrenia.
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PMID:Cerebrospinal fluid prostaglandins and corticotropin releasing factor in schizophrenics and controls: relationship to sleep architecture. 965 18

Over the past several years, remarkable advances have been made both in our understanding of the central nervous system (CNS) and in the pathophysiology of the major psychiatric disorders, resulting in major break-throughs in our capacity to treat these devastating illnesses. Since the seminal work of Ramon Y Cajal and Golgi at the turn of the century, new techniques such as fluorescence histochemistry have evolved into immunohistochemical and more recently in situ hybridization. These techniques have permitted, for the first time, the elucidation of chemically defined neural circuits. Such advances in the mapping of neural systems and the visualization of monoaminergic and peptidergic neurons and their receptors in tissue sections have provided the tools for the burgeoning field of neurochemical pathology of psychiatric disorders. Data provided from such studies has served as the basis for the development of novel pharmacological approaches to the treatment of affective and anxiety disorders, as well as schizophrenia. This review focuses on two major neural systems implicated in the pathophysiology of depression, serotonin and corticotropin-releasing factor (CRF). Development of novel agents are described including selective serotonin receptor agonists, combined selective serotonin receptor antagonists and serotonin reuptake inhibitors, CRF receptor antagonists, and the use of an antisense strategy.
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PMID:Psychopharmacology of affective disorders in the 21st century. 978 75

Neuropeptides: corticotropin releasing factor (CRF), neuropeptide Y (NPY) and somatostatin (STS) have been associated with depression and anxiety, while neurotensin (NT), calcitonin gene-related peptide (CGRP) and tachykinins [neurokinin A (NKA) and substance P (SP)] are presumed to also play a role in the function of the dopaminergic system. Moreover, investigations in the past decade have shown that psychotomimetics and antipsychotic drugs as well as lithium affect brain synthesis, tissue concentrations, and release of some neuropeptides. In view of the above, experiments were carried out to explore whether changes in neuropeptides constitute one of the mechanisms of action of electroconvulsive treatment (ECT). Human cerebrospinal fluid (CSF) was studied before and after ECT, and brains from healthy and models of depression rats were investigated in electroconvulsive stimuli (ECS)-treated and sham-treated animals. The major findings were that a series of ECTs, in parallel to clinical recovery, increased CSF concentrations of NPY-like immunoreactivity (-LI), STS-LI, and CRF-LI, and in one study endothelin-LI. A series of ECS, but not a single treatment, reproducibly elevated concentrations of NPY-LI, NKA-LI, and STS-LI--but not NT-LI, SP-LI, galanin-LI, or CGRP-LI--in hippocampus, frontal cortex, and occipital cortex. No changes were measured in other regions, e.g., striatum. NPY and STS mRNAs were also increased indicating that ECS affects peptide synthesis. Generalized seizures induced by, e.g., kainic acid or pentylenetetrazole, had similar effects on neuropeptides. The changes persisted for at least 1 week after the last treatment. Pretreatment with compounds reducing seizures, such as benzodiazepines and MK-801; had no effect on magnitude of neuropeptide changes although the seizure duration was decreased by > 50%. On the basis of these findings, it is suggested that neuropeptides are involved in ECT's mechanisms of action. Since ECT is therapeutically efficient in both schizophrenia and depression and, taking into account that antipsychotic drugs and psychotomimetics as well as lithium selectively affect some neuropeptides, it is hypothesized that distinct combinations of neuropeptide and monoamine changes in selected neuronal populations constitute the underpinnings of ECT's effects on specific disease symptoms, conceivably independent of diagnosis.
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PMID:Neuropeptides and electroconvulsive treatment. 1018 19

A study on the biology of 'panic disorder,' which I have classified under the category of 'anxiety disorder,' made progress recently. In a genetic study, the hereditary of panic disorder was checked by a 'linkage and twins' study, and the anticipation of panic disorder was recognized as being the same as that which is also found in the psychiatric conditions known as schizophrenia and manic depression. A panic disorder patient regards the anxious sign of a model as ruinous, and this weakness in recognition has been duly noted. Therefore, I studied a patient showing a continuance state of 'hyper-sensitivity,' and compared this to a patient showing a 'sleep disorder.' Noradrenaline plays an important role in anxiety as suppression of the locus ceruleus (LN), the major NE-containing nucleus of the noradrenaline nervous system, brings on a calming effect. Yohimbine, however, which is an alpha 2 antagonist, is found to induce panic attacks. The fact that selective serotonin reuptake inhibitor (SSRI) suppresses panic attacks suggests that serotonin is connected with panic disorders. It is also thought that the 'raphe nucleus' is the site of origin of the serotonin nervous system, which participates in the control of anxiety. This suggests the participation of a gamma-aminobutyric acid (GABA) nervous system in which the administration of benzodiazepine at a high potency would be an effective agent against panic disorder. Cholecystokinin (CCK) is also suggested to have a connection with panic disorder as CCK-4 causes panic attacks. There has been no CCK antagonist found effective for an object- or time-oriented panic disorder at the present. It is thought that corticotropin-releasing factor (CRF) is released during a panic attack. The development of a new CRF receptor antagonist is needed. In addition to the studies on the neurotransmitters of the traditional type, such as noradrenaline, serotonin and GABA, studies on the neuropeptides, such as CCK and CRF have become important for future consideration. Understanding this, image studies such as MRI, SPECT, fMRI and PET have become highly desirable.
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PMID:[Neuropharmacological and genetic study of panic disorder]. 1049 83

Interleukin-1 (IL-1) mediates psychological stress responses by regulating monoamine metabolism and secretion of corticotropin-releasing factor, and is therefore, implicated in various psychiatric diseases. To evaluate the contribution of IL-1 signaling to the brain pathology of schizophrenia, we measured protein and/or mRNA levels for IL-1beta and endogenous IL-1 receptor antagonist (IL-1RA) in the postmortem brain tissues of prefrontal and parietal cortex, putamen, and hypothalamus. Both protein and mRNA levels of IL-1RA were specifically decreased in the prefrontal cortex of schizophrenic patients, whereas IL-1beta levels were not significantly altered in all the regions examined. The IL-1RA decrease was not correlated with the dose of antipsychotics given to patients. There was no influence of this illness on protein levels for IL-1 receptor type 1 in the prefrontal cortex, either. In contrast, IL-1RA serum levels were increased in schizophrenic patients, especially in drug-free patients, as reported previously. These findings suggest that chronic schizophrenia down-regulates IL-1RA production the prefrontal cortex, irrespective of its impact on the periphery. IL-1RA reduction might reflect an immunopathologic trait of the prefrontal region in schizophrenic patients.
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PMID:A decrease in interleukin-1 receptor antagonist expression in the prefrontal cortex of schizophrenic patients. 1280 91


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