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)

Immunocytochemical identification of dopaminergic neurons was performed using an immunoperoxidase method employing antibodies to tyrosine hydroxylase. The ultrastructure of synaptic contacts on dopaminergic (tyrosine hydroxylase immunopositive (TP) cells) neurons was investigated in the substantia nigra in the brains of four patients with schizophrenia and three mentally healthy subjects (controls). The substantia nigra of schizophrenia patients differed from control material in showing the following changes in the ultrastructure of presynaptic terminals contacting TP neurons: reductions in the size of terminals with dense matrix and poorly distinguished vesicles; swelling of terminals with small numbers of vesicles displaced from the active zone of the synapse; hyperplasia of mitochondria in some presynaptic boutons; appearance of membranous lamellar structures within or adjacent to presynaptic boutons. These changes to terminals were located mostly on the distal (small and intermediate) TP dendrites in the compact zone of the substantia nigra, where nearly all the dendrites detected belonged to dopaminergic neurons and the altered terminals formed asymmetrical contacts with short active zones. In the reticular part of the substantia nigra of schizophrenic patients, changes in the ultrastructure of presynaptic terminals were relatively rare; altered terminals contacted both tyrosine hydroxylase immunopositive as well as with the tyrosine hydroxylase immunonegative dendrites located in this structure.
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PMID:Synaptic contacts in schizophrenia: studies using immunocytochemical identification of dopaminergic neurons. 1043 12

A reduction in the activity of mesoprefrontal dopamine neurons has been suggested to play a role in the pathophysiology of schizophrenia. Indeed, a recent study indicates that the density of tyrosine hydroxylase-immunoreactive axons is decreased in the deep layers of the prefrontal cortex of schizophrenic subjects [Akil et al., (1999) Am. J. Psychiatry, in press]. To determine the impact of partial loss of prefrontal dopamine axons on the activity of the remaining dopamine axons, we examined the effects of 6-hydroxydopamine lesions of the medial prefrontal cortex on local extracellular dopamine concentrations in the rat. In rats sustaining an average 63% loss of tyrosine hydroxylase-immunoreactive axons and no loss of dopamine-beta-hydroxylase-immunoreactive axons in the medial prefrontal cortex (smaller lesion), the baseline extracellular dopamine concentration was reduced by 63+/-9%. Thirty minutes of tail pressure increased extracellular dopamine in the medial prefrontal cortex by a maximum of 1.28+/-0.28 pg in control rats, but only 0.74+/-0.18 pg in rats with smaller lesions. In rats sustaining an average 80% loss of tyrosine hydroxylase-immunoreactive axons and 25% loss of dopamine-beta-hydroxylase-immunoreactive axons (larger lesion), the baseline extracellular dopamine concentration in the medial prefrontal cortex did not differ from control values. In addition, the maximum stress-evoked increase in dopamine concentration was also similar to that observed in control rats (+1.04+/-0.28 pg). The stress-induced increase in extracellular dopamine in the medial prefrontal cortex of rats sustaining smaller and larger lesions may occur in the absence of a corresponding increase in dopamine synthesis in mesoprefrontal dopamine neurons. This proposal is supported by our observation that stress did not alter tissue or extracellular 3,4-dihydroxyphenylacetic acid concentrations in the medial prefrontal cortex of lesioned rats. These data suggest that moderate loss of tyrosine hydroxylase-immunoreactive axons in the prefrontal cortex is sufficient to reduce extracellular dopamine concentrations in this brain region. In addition, a further reduction in tyrosine hydroxylase-immunoreactive axons in the medial prefrontal cortex, combined with the loss of dopamine-beta-hydroxylase-immunoreactive axons, results in normal extracellular dopamine concentrations in this area. We propose that the latter effect is due to increased neurochemical activity of remaining mesoprefrontal dopamine axons and/or decreased clearance of extracellular dopamine due to loss of both dopamine and norepinephrine transporters.
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PMID:Effects of partial dopamine loss in the medial prefrontal cortex on local baseline and stress-evoked extracellular dopamine concentrations. 1046 33

Structural alterations in the brains of some schizophrenic patients suggest an impairment of brain development, possibly as a result of intrauterine compromise. In this study we have tested the hypothesis that placental insufficiency during the second half of pregnancy in the guinea pig results in structural alterations similar to those seen in some schizophrenic patients. Placental insufficiency was induced in pregnant guinea pigs via uterine artery ligation at midgestation. At 60 days gestation (term: 68 days gestation) the fetal brains were prepared for quantitative histological and immunohistochemical analysis and compared with controls. Placental insufficiency resulted in growth-restricted animals with significantly larger cerebral ventricles, reduced cross-sectional area of the cerebral cortex and the striatum and reduced hippocampal volume compared with controls. There were fewer neuronal nitric oxide synthase (nNOS)-positive cells in layers 5-6 of the cingulate cortex, and in layer 1 of the frontal and temporal cortices. In contrast, there were no significant alterations in the optical density of tyrosine hydroxylase (TH), a rate-limiting enzyme in the biosynthesis of catecholamines and the dopamine transporter (DAT) in the striatum in growth-restricted animals compared with controls. These findings indicate that developmental disturbances can produce anatomical changes that resemble those found in some individuals with schizophrenia.
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PMID:Ventriculomegaly and reduced hippocampal volume following intrauterine growth-restriction: implications for the aetiology of schizophrenia. 1054 Oct 2

Afferents to the prefrontal cortex (PFC) from dopamine neurons in the ventral tegmental area have been implicated in working memory processes and in the pathogenesis of schizophrenia. Previous anatomical investigations have demonstrated that dopamine terminals synapse on dendritic spines and shafts of pyramidal cells in the PFC. Moreover, neurochemical and physiological studies suggest that dopamine modulates the activity of PFC neurons that project to the nucleus accumbens. However, whether this modulation involves direct synaptic input to cortico-accumbens projection neurons has not been determined. To address this question, retrograde transport of an attenuated strain of pseudorabies virus (PRV) from the nucleus accumbens was combined with immunoperoxidase labeling of tyrosine hydroxylase (TH) to identify dopamine terminals in the PFC. At survival times <48 hr, extensive dendritic distribution of immunogold labeling for PRV was observed in cortico-accumbens neurons. However, evidence consistent with trans-synaptic passage of PRV within this timeframe was observed only rarely. When examined at the electron microscopic level, immunogold labeling for PRV was localized to neuronal somata, proximal and distal dendrites, and dendritic spines. Some of these dendritic processes received symmetric synaptic input from TH-immunoreactive terminals. These data represent the first demonstration of dopamine synaptic contacts onto an identified population of pyramidal cells in the PFC. The findings have important implications for understanding how dopamine modulates cortical outflow to limbic regions in normal brain and pathological states such as schizophrenia.
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PMID:Dopamine terminals in the rat prefrontal cortex synapse on pyramidal cells that project to the nucleus accumbens. 1059 85

This article will review the capabilities and accomplishments of radiotracer imaging with single photon emission computed tomography (SPECT) and positron emission tomography (PET) to measure pre-, post-, and "intra-synaptic" aspects of dopaminergic (DAergic) neurotransmission. The presynaptic site can be labeled with probes for the dopamine transporter (DAT) or the synthetic enzyme aromatic L-amino acid decarboxylase ("dopa decarboxylase"). The postsynaptic sites can be labeled with probes for either the dopamine D1 receptor (D1R) or the dopamine D2 receptor (D2R). The "synaptic" measurements are made indirectly by measurements of the interaction/displacement of receptor tracers by endogenous dopamine (DA). Agents are used which either release (e.g., amphetamine) or deplete (e.g., alpha-methyl-paratyrosine (AMPT), an inhibitor of tyrosine hydroxylase) tissue stores of DA. The application of these paradigms will be reviewed with special emphasis to neuropsychiatric diseases such as schizophrenia and idiopathic Parkinson's disease (IPD).
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PMID:Radiotracer imaging of dopaminergic transmission in neuropsychiatric disorders. 1063 81

The cerebellum seems to play a critical role in many motor and cognitive functions, including those that are disturbed in schizophrenia. Although dopamine is known to influence the motor or cognitive functions mediated by other brain regions and to play a role in the pathophysiology of schizophrenia, the cerebellum has not been thought to be a target of dopamine-containing axons. However, given recent reports of dopamine receptors in the cerebellum, we sought to determine whether axons immunoreactive for the proteins involved in dopamine synthesis and reuptake are present in the cerebellum of macaque monkeys. We found that axons immunoreactive for the dopamine membrane transporter, a specific marker of dopamine axons, were present in high density, but only in certain lobules of the cerebellar vermis. In addition, these axons were found principally in the granule cell layer, where they densely arborized immediately subjacent to the Purkinje cells. Similarly, axons labeled for tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis, were also present in high density in the granule cell layer of the same lobules of the vermis. In contrast, axons immunoreactive for dopamine beta-hydroxylase, a marker of noradrenergic axons, exhibited a different and more widespread pattern of innervation. These findings are consistent with a dopamine innervation of the primate cerebellum that is both lobular- and laminar-specific, and they suggest that dopamine may play a role in certain cerebellar functions.
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PMID:Tyrosine hydroxylase- and dopamine transporter-immunoreactive axons in the primate cerebellum. Evidence for a lobular- and laminar-specific dopamine innervation. 1073 21

An enhanced sensitivity to the behavioral effects of dopamine (DA) agonists in adult rats occurs after cytotoxic lesions of the ventral hippocampus (vHPC). While some of these behavioral changes may model specific abnormalities in schizophrenia patients, little is known about the cellular events that underlie vHPC lesion-induced behavioral DA 'supersensitivity'. Neuropathological consequences of excitotoxin lesions of the vHPC were investigated in this study. Adult male rats received vehicle or ibotenic acid infusions into the vHPC, using parameters that produce an enhanced sensitivity to the prepulse inhibition-disruptive effects of the DA agonist apomorphine, 1 month post-lesion. A total of 27 rats were sacrificed, 2, 7, 14, 21 or 28 days post-lesion. Amino-cupric-silver staining demonstrated degenerative changes throughout the hippocampus, and in hippocampal efferent projections to forebrain structures, including the septal nucleus and nucleus accumbens (NAC), and within the olfactory tubercle (OT) and orbital cortex. Silver-impregnated fibers were identified in the substantia nigra reticulata (SNr), NAC, OT, septum and orbital cortex. Some degenerative changes were noted at the earliest time point (2 days post-lesion), while others were delayed in appearance. Adjacent sections stained for tyrosine hydroxylase (TH) immunocytochemistry revealed reduced TH labeling through forebrain DA terminal fields 28 days, but not 14 days after VH lesions. Excitotoxic lesions of the vHPC result in distributed neurotoxic changes in subcortical and cortical brain regions; these changes may contribute to the delayed emergence of DA-mediated behavioral abnormalities in these animals.
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PMID:Distributed neurodegenerative changes 2-28 days after ventral hippocampal excitotoxic lesions in rats. 1091 11

Hypothesized risk factors for psychostimulant, amphetamine, and cocaine abuse include dopamine (DA) receptor polymorphisms, HIV infection, schizophrenia, drug-induced paranoias, and movement disorders; however, the molecular, cellular, and biochemical mechanisms that predispose to drug sensitivity or drive the development of addiction are incompletely understood. Using the Borna disease rat, an animal model of viral-induced encephalopathy wherein sensitivity to the locomotor and stereotypic behavioral effects of d-amphetamine and cocaine is enhanced (Solbrig et al., 1994, 1998), we identify a specific neurotrophin expression pattern triggered by striatal viral injury that increases tyrosine hydroxylase activity, an early step in DA synthesis, to produce a phenotype of enhanced amphetamine sensitivity. The reactive neurotrophin pattern provides a molecular framework for understanding how CNS viral injury, as well as other CNS adaptations producing similar growth factor activation profiles, may influence psychostimulant sensitivity.
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PMID:Neurotrophic factor expression after CNS viral injury produces enhanced sensitivity to psychostimulants: potential mechanism for addiction vulnerability. 1105 Jan 46

Resting and evoked extracellular dopamine levels in the striatum of the anesthetized rat were measured by fast-scan cyclic voltammetry in conjunction with carbon fiber microelectrodes. Identification of the substance detected in vivo was achieved by inspection of background-subtracted voltammograms. Intrastriatal microinfusion of kynurenate, a broad-spectrum antagonist of ionotropic glutamate receptors, caused a decrease in the resting extracellular level of dopamine. The kynurenate-induced decrease was unaffected by systemic pretreatment with pargyline, an inhibitor of monoamine oxidase, but was significantly attenuated by systemic pretreatment with alpha-methyl-p-tyrosine, an inhibitor of tyrosine hydroxylase. Although glutamate by itself did not affect resting extracellular dopamine levels, glutamate did attenuate the kynurenate-induced decrease. Kynurenate decreased dopamine release in response to electrical stimulation of the medial forebrain bundle, an effect that was also attenuated by glutamate. These results suggest that both spontaneous and evoked dopamine release in the rat striatum are under the local tonic excitatory influence of glutamate. Interactions between central dopamine and glutamate systems that have been implicated in the etiologies of Parkinson's disease, schizophrenia, stress, and substance abuse. The precise nature of those interactions, however, remains a matter of some controversy.
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PMID:Glutamate regulates the spontaneous and evoked release of dopamine in the rat striatum. 1122 75

In neurons, pituitary adenyl cyclase activating peptide (PACAP) stimulates signaling cascades, involving cAMP and calcium. PACAP appears to play a role in up-regulation of tyrosine hydroxylase and dopamine beta-hydroxylase via protein kinase C and/or protein kinase A. Furthermore, the PACAP gene (ADCYAP1) is located in chromosome 18p11, where linkage of bipolar disorders and schizophrenia has been reported. In this study, we scanned the coding region of the PACAP gene for mutations in 24 Japanese patients with schizophrenia and 24 Japanese patients with bipolar disorders. No variant in the coding region was found. One polymorphism, INV3-37A/T, in the third intron was detected. Case-control comparisons revealed no significant association between this polymorphism and schizophrenia or bipolar disorders. This study did not provide evidence for the contribution of the PACAP gene to the etiology of schizophrenia or bipolar disorders in the Japanese population.
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PMID:Association analysis of the pituitary adenyl cyclase activating peptide gene (PACAP) on chromosome 18p11 with schizophrenia and bipolar disorders. 1151 50


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