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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Trimethyltin (TMT) is an alkyltin that targets neurons of the limbic system. A gene probe (i.e., mRNA) for myelin basic protein (MBP), a major component of central nervous system myelin, was used to monitor this toxic neuropathy in Sprague-Dawley rats. Animals were administered a single intraperitoneal injection of TMT-hydroxide at a neuropathic (8.0 mg/kg/body wt) or nonneuropathic (0.8 mg/kg/body wt) dose and sampled at 1, 3, or 7 days postexposure to correlate the progression of hippocampal neuropathology with probe (i.e., MBP-mRNA) levels. Microscopic examination of the brain showed only moderate but progressive damage over the 7-day postexposure period in animals treated with the neuropathic dose. Neuronal loss was first observed in the dendate gyrus and CA4 at 1 day postexposure, and progressed to the CA3c sector at 3 and 7 days postexposure. Elsewhere in the brain, minimal involvement of the entorhinal cortex neurons occurred 3 days postexposure and intensified by 7 days. No histological damage was seen at the nonneuropathic (0.8 mg/kg) dose. For gene probe analysis, the brain was divided into anterior and posterior halves. In rats treated with the neuropathic dose of TMT, the anterior brain showed progressive depressions of MBP-mRNA levels over the 1-, 3-, and 7-day postexposure period that correlated with increasing hippocampal neuropathology. The posterior brain showed no significant changes in MBP-mRNA levels with respect to that of controls over the same time period. At the nonneuropathic dose (0.8 mg/kg) a significant depression of MBP-mRNA levels occurred in the anterior brain at 7 days postexposure in the absence of overt histological damage.
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PMID:Myelin basic protein-mRNA used to monitor trimethyltin neurotoxicity in rats. 170 32

Cultured hippocampal slices retain many in vivo features with regard to circuitry, synaptic plasticity, and pathological responsiveness, while remaining accessible to a variety of experimental manipulations. The present study used ligand binding, immunostaining, and in situ hybridization assays to determine the stability of AMPA- and NMDA-type glutamate receptors and other synaptic proteins in slice cultures obtained from 11 day postnatal rats and maintained in culture for at least 4 weeks. Binding of the glutamate receptor ligands [3H]AMPA and [3H]MK-801 exhibited a small and transient decrease immediately after slice preparation, but the binding levels recovered by culture day (CD) 5-10 and remained stable for at least 30 days in culture. Autoradiographic analyses with both ligands revealed labeling of dendritic fields similar to adult tissue. In addition, slices at CD 10-20 expressed a low to high affinity [3H]AMPA binding ratio that was comparable with that in the adult hippocampus (10:1). AMPA receptor subunits GluR1 and GluR2/3 and an NMDA receptor subunit (NMDAR1) exhibited similar postcutting decreases as that exhibited by the ligand binding levels, followed by stable recovery. The GluR4 AMPA receptor subunit was not evident during the first 10 CDs but slowly reached detectable levels thereafter in some slices. Immunocytochemistry and in situ hybridization techniques revealed adult-like labeling of subunit proteins in dendritic processes and their mRNAs in neuronal cell body layers. Long-term maintenance was evident for other synapse-related proteins, including synaptophysin, neural cell adhesion molecule isoforms (NCAMs), and an AMPA receptor related antigen (GR53), as well as for certain structural and cytoskeletal components (e.g., myelin basic protein, spectrin, microtubule-associated proteins). In summary, following an initial and brief depression, many synaptic components were expressed at steady-state levels in long-term hippocampal slices, thus allowing the use of such a culture system for investigations into mechanisms of brain synapses.
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PMID:Stable maintenance of glutamate receptors and other synaptic components in long-term hippocampal slices. 877 55

Japanese encephalitis (JE) vaccine has been used for childhood immunization programmes in Asia since the 1960s. Also, travellers from other parts of the world have been vaccinated before travelling to Asian countries. Some JE vaccines are produced from infected mouse brains and contain small amounts of myelin basic protein. Neurological side effects in larger vaccine trials in Asia have been reported in 1-2.3 per million vaccinees. Statens Serum Institut is the only distributor of JE vaccine in Denmark, delivering 384 000 doses from 1983-96. In 1996, evaluation of initial symptoms and findings in 10 adult travellers from Denmark, who developed moderate-severe neurological symptoms within a few weeks of JE vaccination, was performed as well as follow-up magnetic resonance imaging (MRI) and clinical neurological examination. Three patients initially had symptoms varying from severe encephalitis-like illness to paraesthesia, double vision or parkinsonian gait disturbance. MRI showed severe atrophy of the corpus callosum with altered signal intensity indicating gliosis in one patient, another patient had several hyperintense spots located periventricularly in the white matter, while a third patient had spots with increased signals in the pons, the right substantia nigra and the occipital region. Acute disseminated encephalomyelitis (ADEM) is a possible explanation for these MRI changes, although multiple sclerosis is an alternative diagnosis in one or two of the patients. Another three patients had long-lasting headache, concentration difficulty or intellectual reduction. One man had afebrile convulsions, another gait instability and depression and one parkinsonism. A woman developed myelitis. If these findings are due to JE vaccination the frequency of neurological reactions to the vaccine is considerably higher than previously reported and in the future any minor neurological complaints occurring shortly after vaccination should lead to neurological examination and acute MRI scan should be considered. Copyright 1998 Lippincott Williams & Wilkins
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PMID:Neurological complications to vaccination against Japanese encephalitis. 1021 Aug 77

Abnormalities of proteins involved in neurotransmission and neural plasticity at synapses are reported in schizophrenia, and may be markers of dysregulated neural connectivity in this illness. Studies of brain development and neural regeneration indicate a dynamic interplay between neural and oligodendroglial mechanisms in regulating synaptic plasticity and axonal sprouting. In the present study, markers of synapses (synaptophysin), plasticity (growth-associated protein-43) and oligodendrocytes (myelin basic protein) were investigated in anterior frontal cortex homogenates from individuals with schizophrenia and depression. Synaptophysin immunoreactivity was reduced in schizophrenics who died of natural causes relative to controls. Myelin basic protein immunoreactivity was decreased in both schizophrenics and depressed individuals who died by suicide. Overall, no changes were observed in growth-associated protein-43 immunoreactivity. However, a slight increase in immunoreactivity in depressed suicides relative to control was observed. These findings support the hypothesis that synaptic abnormalities are a substrate for disordered connectivity in severe mental illness, and suggest that synaptic-oligodendroglial interactions may contribute to the mechanism of dysregulation in certain cases.
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PMID:Synaptic and plasticity-associated proteins in anterior frontal cortex in severe mental illness. 1039 32

The effects of myelin basic protein (MBP) on the ventral root response in rat spinal cord in situ and on the spontaneous bioelectric activity of cultured rat Purkinje cells were investigated. Injection of 2 or 4 microl MBP (10(-4) M/l) into the motoneurone pool reduced the ventral root response to dorsal root stimulation. The depression was long-lasting (30-50 min) and partially reversible. At 5 x 10(-6) M/l MBP abolished the spontaneous activity of most cultured Purkinje cells, an effect which was not blocked by haloperidol, propranolol, phenoxybenzamine and bicuculline. The EC(50) for the depression was 4 + or - 1 x 10(-6) M/l.
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PMID:The effect of myelin basic protein (MBP) on the bioelectric activity of spinal cord and cerebellar neurones. 1955 80

Proteolipid protein (Plp) gene mutation in rodents causes severe CNS dysmyelination, early death, and lethal hypoxic ventilatory depression (Miller et al., 2004). To determine if Plp mutation alters neuronal function critical for control of breathing, the nucleus tractus solitarii (nTS) of four rodent strains were studied: myelin deficient rats (MD), myelin synthesis deficient (Plp(msd)), and Plp(null) mice, as well as shiverer (Mbp(shi)) mice, a myelin basic protein mutant. Current-voltage relationships were analyzed using whole-cell patch-clamp in 300 microm brainstem slices. Voltage steps were applied, and inward and outward currents quantified. MD, Plp(msd), and Plp(null), but not Mbp(shi) neurons exhibited reduced outward current in nTS at P21. Apamin blockade of SK calcium-dependent currents and iberiotoxin blockade of BK calcium-dependent currents in the P21 MD rat demonstrated reduced outward current due to dysfunction of these channels. These results provide evidence that Plp mutation specifically alters neuronal excitability through calcium-dependent potassium channels in nTS.
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PMID:Mutation in the myelin proteolipid protein gene alters BK and SK channel function in the caudal medulla. 1980 2

Auditory brain stem circuits rely on fast, precise, and reliable neurotransmission to process auditory information. To determine the fundamental role of myelination in auditory brain stem function, we examined the evoked auditory brain stem response (ABR) from the Long Evans shaker (LES) rat, which lacks myelin due to a genetic deletion of myelin basic protein. In control rats, the ABR evoked by a click consisted of five well-defined waves (denoted waves I-V). In LES rats, waves I, IV, and V were present, but waves II and III were undetectable, indicating disrupted function in the earliest stages of central nervous system auditory processing. In addition, the developmental shortening of the interval between waves I and IV that normally occurs in control rats was arrested and resulted in a significant increase in the central conduction time in LES rats. In brain stem slices, action potential transmission between the calyx of Held terminals and the medial nucleus of the trapezoid body (MNTB) neurons was delayed and less reliable in LES rats, although the resting potential, threshold, input resistance, and length of the axon initial segment of the postsynaptic MNTB neurons were normal. The amplitude of glutamatergic excitatory postsynaptic currents (EPSCs) and the degree of synaptic depression during high-frequency stimulation were not different between LES rats and controls, but LES rats exhibited a marked slow component to the EPSC decay and a much higher rate of presynaptic failures. Together, these results indicate that loss of myelin disrupts brain stem auditory processing, increasing central conduction time and reducing the reliability of neurotransmission.
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PMID:Central dysmyelination reduces the temporal fidelity of synaptic transmission and the reliability of postsynaptic firing during high-frequency stimulation. 2384 35

Peripheral blood lymphocytes form rosettes in the presence of heterologous etythrocytes. Spontaneous or active rosette formation has been reported to be a measure of circulating and immunologically functional thymus-dependent lymphocytes. The present study utilizes the rosette assay to measure changes in the circulating T cells of guinea pigs sensitized with encephalitogenic myelin basic protein (BP) or with nonencephalitogenic peptide S42 known to induce cellular transformation in experimental allergic encephalomyelitis, a cell-mediated disorder of the central nervous system. The results show a significant depression in the number of active but not in the total number of rosette-forming T lymphocytes from the peripheral blood of antigen-sensitized animals. This reduction, which was not related to the encephalitogenic property of the BP, was readiiy reversible by incubating lymphocytes with the sensitizing antigen but not with histone. Under these conditions, lymphocytes from unsensitized control animals were unresponsive to stimulation by any of the antigens used. The antigenstimulated rosette assay described in this report provides a specific assay for sensitization to basic protein in BP-related demyelinating diseases.
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PMID:Antigen-stimulated rosette formation by T lymphocytes in experimental allergic encephalomyelitis. 2427 52

The effect of encephalitogenic myelin basic protein, BP, on active rosette-forming T cells (ARFC) was compared to that of nonencephalitogenic peptide S42, a synthetic analogue of the tryptophan region of BP. Depression of ARFC by these antigens was reversible within 24 h after a second dose of the antigen into the skin, or after in vitro incubation of lymphocytes with the sensitizing antigen (Ag-ARFC). The ratio of Ag-ARFC to ARFC rose with time following the sensitization but fell shortly before the clinical onset of experimental allergic encephalomyelitis in animals sensitized with BP. In contrast, the Ag-ARFC/ARFC ratios for animals sensitized with peptide S42 reached plateau levels from which they did not drop. The kinetics of the Ag-ARFC/ARFC responses paralleled those for delayed-type skin hypersensitivity (DTH) in the respective animals. The DTH responses rose following sensitization and fell shortly after the appearance of clinical signs of EAE. The results of this study provide in vitro and in vivo evidence for sensitization to myelin basic protein, and focus attention on the ARFC as a measure for an immunologically active cell population which may be quantitated by antigenic stimulation.
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PMID:Correlation between active rosette formation and delayed cutaneous hypersensitivity in experimental allergic encephalomyelitis. 2427 56

Despite established exposure limits and safety standards, and the availability of carbon monoxide (CO) alarms, each year 50,000 people in the United States visit emergency departments for CO poisoning. Carbon monoxide poisoning can occur from brief exposures to high levels of CO, or from longer exposures to lower levels. Common symptoms include headaches, nausea and vomiting, dizziness, general malaise, and altered mental status. Some patients may have chest pain, shortness of breath and myocardial ischemia, and may require mechanical ventilation and treatment of shock. Individuals poisoned by CO often go on to develop neurological problems, including cognitive sequelae, anxiety and depression, persistent headaches, dizziness, sleep problems, motor weakness, vestibular and balance problems, gaze abnormalities, peripheral neuropathies, hearing loss, tinnitus and Parkinsonian-like syndrome. While breathing oxygen hastens the removal of carboxyhemoglobin (COHb), hyperbaric oxygen (HBO2) hastens COHb elimination and favorably modulates inflammatory processes instigated by CO poisoning, an effect not observed with breathing normobaric oxygen. Hyperbaric oxygen improves mitochondrial function, inhibits lipid peroxidation transiently, impairs leukocyte adhesion to injured microvasculature, and reduces brain inflammation caused by the CO-induced adduct formation of myelin basic protein. Based upon three supportive randomized clinical trials in humans and considerable evidence from animal studies, HBO2 should be considered for all cases of acute symptomatic CO poisoning. Hyperbaric oxygen is indicated for CO poisoning complicated by cyanide poisoning, often concomitantly with smoke inhalation.
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PMID:Hyperbaric oxygen therapy for carbon monoxide poisoning. 2510 87


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