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)

1 The effects of isoprenaline, propranolol and phentolamine, were studied on tritiated noradrenaline overflow elicited by postganglionic nerve stimulation in guinea-pig isolated atria. 2 Isoprenaline (1.2 times 10-minus 8M) increased while propranolol (1.0 times 10-minus 7M) reduced the overflow of tritiated noradrenaline evoked by nerve stimulation. These effects were less than those of phentolamine (3.1 times 10-minus 6M), which increased by approximately three-fold the overflow of [3H]-noradrenaline elicited by nerve stimulation. 3 Neuronal accumulation of tritiated noradrenaline in guinea-pig atria was not affected by isoprenaline, propranolol or phentolamine at the concentration employed in this study. 4 Isoprenaline (1.2 times 10-minus 8M) induced a positive chronotropic effect of about 80 percent of the maximum. On the other hand, propranolol produced a shift to the right in the frequency-response curve to nerve stimulation and in the concentration-response curve to exogenous noradrenaline in guinea-pig atria. 5 In the isolated nictitating membrane of the cat, the frequency-response curve to nerve stimulation was not modified by propranolol, while in the presence of 3.9 times 10-minus 6M of N,-2-(2,6-dimethylphenoxy)propyl-N,N,N-trimethylammonium (beta-methyl-TM 10) there was a shift to the right and a depression of slope. Neither propranolol nor beta-methyl-TM 10 affected responses to exogenous noradrenaline. 6. The effects of isoprenaline and of propranolol on transmitter release are compatible with the view that in addition to the presynaptic negative feed-back mechanism for noradrenaline release by nerve stimulation mediated via alpha-adrenoceptors a positive feed-back mechanism exists in adrenergic nerve endings which is triggered through the activation of presynaptic beta-adrenoceptors.
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PMID:Possible role of a beta-adrenoceptor in the regulation of noradrenaline release by nerve stimulation through a positive feed-back mechanism. 16 67

This survey presents EEG-data on the following disorders: Globoid-cell leucodystrophy (Krabbe), Metachromatic Leukodystrophy, GM2 Gangliosidosis I (Tay-Sachs), Neuronal Ceroidlipofuscinosis. During Krabbe's disease the background activity of the EEG slows down, multifocal and generalized hypersynchroneous activity (HSA) appears, in the final stage hypsarrythmia is found occasionally. In contrast HSA during Sulfatide lipidosis appears only in the final stages. The EEG changes in Tay Sachs disease are minimal in the beginning; later only high amplitude slowing and especially focal abnormalities with spikes and sharp-waves will appear and in advanced stages there is generalized depression of amplitudes. The Elektroretinogramm (ERG) remains intact but VEP disappear. In contrast, in Neuronal Ceroidlipofuscinosis irregular spikes and sharp-waves can be found shortly after onset of the disease. Later on there is a generalized depression of amplitudes; photic driving and differences between sleeping and waking diminish from the 3rd year of life on; thereafter, the EEG becomes isoelectric. The ERG is extinguished from the very beginning in infantile, lateinfantile and juvenile type of Ceroid-Lipofuscinosis.
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PMID:[EEG changes in the course of progressive cerebral disorders in children (author's transl)]. 83 95

This review deals with the adverse reactions associated with general anaesthetic agents in current use. These reactions fall into 2 categories; those which are more common, predictable and often closely related, and those which are rare, unpredictable and carry a high mortality. Both inhalational and intravenous anaesthetic agents affect the central nervous and cardio-respiratory systems in a dose-related manner. Neuronal inhibition results in decreasing levels of consciousness and depression of the medullary vital centres which can lead to cardiorespiratory failure. Both groups of agents have some depressant effect on the myocardium and vascular smooth muscle leading to a fall in cardiac output and hypotension. Centrally-mediated respiratory depression is common to both groups and the inhalational agents have a direct effect on lung physiology. The most important idiosyncratic reactions to the volatile agents are malignant hyperpyrexia and 'halothane hepatitis'. Malignant hyperpyrexia has an incidence of 1:12,000 with a mortality of about 24%. It is triggered most often by halothane together with suxamethonium. Post halothane hepatic necrosis is rare. Evidence points to 2 distinct syndromes; direct toxicity from the products of reductive metabolism, and a more serious illness, immunologically mediated via haptens formed by liver proteins and the products of oxidative metabolism. Prolonged nitrous oxide exposure can cause bone marrow depression and life-threatening pressure effects by expansion of air-filled spaces within the body. The idiosyncratic reactions to the intravenous agents include anaphylactoid reactions (which are rare) and triggering of acute porphyria. Etomidate is immunologically 'clean', but it inhibits cortisol synthesis.
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PMID:Adverse effects of general anaesthetics. 141 99

The most fundamental aspect of the cerebral circulation is the well-described coupling of cerebral metabolic activity and cerebral blood flow. A number of substances have been proposed to link flow and metabolism, including K+, pH and adenosine. In the alpha-chloralose anaesthetised cat we studied simultaneously cerebral neuronal activity and local blood flow to attempt to dissociate the two and thus determine the coupling substance. Neuronal activity was determined by monitoring unit firing in the parietal cortex with tungsten in glass microelectrodes while local cerebral blood flow in the same area was monitored continuously using laser Doppler flowmetry. To initiate an increase in metabolic activity and, pari passu, blood flow spreading depression was elicited by needle stick injury. Spreading depression when initiated causes a wave of depolarization, measured as an increased firing rate and associated marked (400 +/- 95%) increase in local cerebral blood flow. Intravenous administration of NG-nitro-L-arginine methyl ester (1-NAME), a potent nitric oxide synthase inhibitor, produced a complete blockade of the hyperemia associated with spreading depression but no change in either resting cell firing or spreading depression-evoked increases in firing rate. These data demonstrate at least for spreading depression-elicited increases in metabolic activity, that nitric oxide (NO) is a key coupling compound that links changes in cerebral blood flow and metabolism. These data imply that NO may have a more general role in flow/metabolism coupling and further studies in other situations are required to determine the extent to which NO is responsible for this fundamental cerebrovascular phenomenon.
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PMID:Nitric oxide synthesis couples cerebral blood flow and metabolism. 146 53

Depressive symptoms have been reported in patients with mild to moderate Alzheimer's disease (AD). Recent evidence suggests that a noradrenergic deficit originating from neuronal degeneration in brainstem nuclei may represent an organic correlate of these disturbances. We examined the neuropathological changes in the locus coeruleus (LC), substantia nigra (SN), basal nucleus of Meynert and cortex of 52 patients (12 male, 40 female, mean age 83.2 +/- 6.4 years) with pathologically verified AD. Fourteen patients (1 male, 13 female) showed signs of depression. The majority of these patients suffered from severe physical disability or sensory impairment and developed persistent delusions, but had less cognitive impairment. Neuronal counts in the LC were significantly lower than in the 38 patients without depression (36.9 +/- 14.0; 51.4 +/- 28.0 neuromelanin-pigmented cells per section per nucleus; F = 3.4, df = 1, 50, P = 0.04). Neuron counts were higher in the basal nucleus of Meynert in depressed AD patients and there were no differences of the neuron numbers in the SN. Depression (main effect; F = 4.5, P = 0.04) contributed significantly to the variance of neuronal counts in the LC, even when covarying for gender, age of onset, cognitive impairment and cortical Alzheimer pathology. The observed disproportionate loss of noradrenergic and cholinergic neurons in the LC and basal nucleus of Meynert may represent an important organic substrate of depression in AD.
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PMID:Clinical and neuropathological correlates of depression in Alzheimer's disease. 148 85

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

Clinical and neuropathologic data in 45 patients with Parkinson's disease (PD) were compared. Twenty-seven patients suffered from marked akinesia and rigidity (AR-type) and 18 patients from predominant resting tremor (T-type). Dementia, depression, and psychosis occurred in 26, 18, and 18 patients, respectively. Neuronal counts were performed in defined areas of the medial and lateral substantia nigra (SNM, SNL), locus ceruleus (LC), and dorsal raphe nucleus (DRN). The AR-type (compared with the T-type) showed higher neuronal loss of LC, SNL, SNM, and more severe gliosis, extraneuronal melanin deposits, and neuroaxonal dystrophy in substantia nigra. Demented PD patients showed more intense cortical Alzheimer lesions and higher neuronal depletion in the SNM, whereas PD subjects with moderate or marked dementia differed from mildly or not demented ones only in the higher degree of cortical Alzheimer lesions. More severe neuronal cell loss of DRN was observed in PD patients with depression. Occurrence of psychosis was not associated with any pathologic feature. Our findings indicate that some major clinical features of PD are related to distinct neuropathologic lesions.
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PMID:The neuropathologic basis of different clinical subgroups of Parkinson's disease. 174 81

Neuronal loss in the cerebral cortex in Huntington's disease (HD) has not been well documented, nor has its laminar pattern been definitively established. We therefore counted neurons in individual cortical laminae in the dorsal frontal cortex of 5 HD and 5 control autopsy brains. Significant neuronal loss (to 57% of control, P = 0.002) was found in layer VI of HD brains. These cells project principally to the thalamus, the claustrum and other regions of cerebral cortex; thus their loss is unlikely to be the result of retrograde degeneration secondary to striatal pathology. Layer V neurons were also decreased (to 71% of control, P = 0.034). Degeneration of cerebral cortical neurons may be at least partly responsible for some of the non-choreic symptoms of HD, such as dementia, irritability, apathy, and depression.
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PMID:Neuronal loss in layers V and VI of cerebral cortex in Huntington's disease. 184 78

Neuronal nucleic acid responses were examined within the rat thalamic ventrobasal nuclear complex (VBC) and nucleus reticularis (NR) following single intraperitoneal injections of the central muscarinic-cholinergic (M2) receptor agonist oxotremorine (0.1, 0.7, or 1.0 mg/kg). After stoichiometric azure B and Feulgen staining of brain sections, scanning-integrating cytophotometry was used to quantify azure B-ribonucleic acid (RNA) content, Feulgen-DNA levels, and changes in the susceptibility of chromatin to Feulgen acid hydrolysis (F-DNA yield) of neurons on an individual basis. Changes in neuronal nucleolar volume were also determined histometrically. Within the VBC, oxotremorine produced marked dose-dependent elevations in neuronal RNA content and nucleolar volume with increased F-DNA yield (chromatin activation) in a proportion of VBC neurons. In contrast, within the NR, oxotremorine elicited reductions in RNA levels, F-DNA yield and nucleolar volume. The data demonstrate that oxotremorine-induced central muscarinic receptor stimulation is associated with metabolic correlates of thalamic VBC neuroexcitation and NR neuron depression. The overall study lends further credence to the hypothesis that muscarinic-cholinergic mechanisms are operative within the mammalian thalamus.
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PMID:Effects of oxotremorine on neuronal RNA and chromatin in thalamic cholinoceptive sites. 246 66

Consequences of transient (15-20 min) ischemia on the neuronal activity of the dentate gyrus and hippocampal CA 1 region were investigated in chronically implanted Sprague-Dawley rats. Forebrain ischemia was produced by occlusion of the carotids for 15 or 20 min, following cauterization of the vertebral arteries. Following the release of the carotids, both spontaneous and evoked activity showed a steady but partial recovery, reaching a maximum 12 to 24 h after the ischemic insult. From this plateau, both the power of rhythmic slow activity recorded during walking and the power of slow delta activity obtained during alert immobility decreased monotonically, with large changes occurring between postischemic days 2 and 4. The changes in spontaneous activity were accompanied by a decrease and eventual disappearance of the Schaffer collateral evoked responses in CA 1. Perforant path volleys were less efficient in activating the granule cells following ischemia compared to baseline levels. This decreased responsiveness was paralleled by a relative impairment of paired pulse depression. Neurophysiological signs of spontaneous or evoked neuronal hyperexcitability were not observed at any time point during the 8 postischemic days. Neuronal damage in the CA 1 region varied from moderate to complete loss of pyramidal cells. In addition, degenerating neurons were also observed in the hilus of the dentate gyrus. These findings do not support the "overwork" version of the excitoxic hypothesis of delayed neuronal damage and indicate that the cause of ischemic cell death should be sought in factors other than neuronal hyperactivity.
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PMID:Ischemia-induced changes in the electrical activity of the hippocampus. 259 37


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