UMLS:C0011570 - FACTA Search

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

Microwave irradiation of 6 kw at 2450 MHz for 300 msec was sufficient to completely inactivate mouse brain cholinesterase and choline acetyltransferase. After this method of sacrifice, the acetylcholine contents of mouse brain regions, given in nanomoles per gram, were found to be: striatum, 81; medulla-pons, 44; diencephalon-midbrain, 34; hippocampus, 31; cerebral cortex, 26; and cerebellum, 17. Sodium pentobarbital caused a dose-dependent increase in whole brain acetylcholine. A maximal increase of 81% in whole brain was seen at 15 minutes with 80 mg/kg of sodium pentobarbital. The increase in acetylcholine after sodium pentobarbital treatment was not caused by anoxia from respiratory depression or by hypothermia. All brain regions except the cerebellum exhibited an increase in acetylcholine after pentobarbital treatment. Fifteen minutes after treatment, cerebellar acetylcholine was significantly decreased. However, at the time when half of the animals had regained the righting reflex, the unconscious mice showed an increase in cerebellar acetylcholine which was statistically significant as compared to control. The relative accumulation rate of acetylcholine calculated for cerebral cortex and hippocampus was higher than that for striatum although the absolute rate of accumulation of ACh was higher in the striatum. Thus, after sodium pentobarbital treatment, the cerebral cortex and hippocampus exhibit a greater cholinergic response than the striatum.
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PMID:Use of 300-msec microwave irradiation for enzyme inactivation: a study of effects of sodium pentobarbital on acetylcholine concentration in mouse brain regions. 0 94

The relationship of perikaryal and presynaptic enzyme activity to axonal transport was studied in adult sympathetic neurons in the rat superior cervical ganglion (SCG). Surgical axotomy or local colchicine application to the postganglionic nerves resulted in a significant decrease in ganglionic tyrosine hydroxylase (T-OH) activity without a significant alteration in choline acetyltransferase activity. Colchicine did not appear to block axonal impulse conduction since pupillary and eyelid function remained normal. Consequently, the reduced T-OH activity resulted from alteration of other axonal functions. Axotomy or colchicine application decreased T-OH activity in decentralized ganglia, suggesting that the depression of perikaryal T-OH was not secondary to altered orthograde transsynaptic interactions. Colchicine did not prevent transsynaptic induction of T-OH by reserpine, suggesting that axonal transport is not necessary for enzyme induction. Nerve growth factor (NGF) treatment partially prevented the effects of colchicine application. It is concluded that in adult sympathetic neurons both orthograde transsynaptic mechanisms and the retrograde transport of NGF normally govern perikaryal T-OH activity.
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PMID:The role of axonal transport in the regulation of enzyme activity in sympathetic ganglia of adult rats. 8 87

Reductions in 2 neurotransmitter synthesizing enzymes in brain, glutamic acid decarboxylase (GAD) and choline acetyltransferase (CAT), have been found in dementias of different origins, including senile dementia (Alzheimer type). Significant reductions in cerebral GAD have also been found in depression (unipolar). The GAD reductions did not generally appear to be localised in any specific region of the brain examined. However, the reduction of CAT in the hippocampus, relative to reductions in other areas examined, was substantially greater in the brains with Alzheimer-type changes. GAD and CAT activities in normal brains were examined for the effects of some variable factors inherent in necropsy biochemical measurements. These factors included: (i) age; (ii) agonal status; (iii) time of death, and (iv) delay in tissue sampling; and GAD was found to be significantly influenced by (ii), (iii) and (iv) and CAT by (i), (iii) and (iv). None of these factors accounted for the total alterations in the enzyme activities of the mentally abnormal brains. The results indicate that reductions in cerebral GAD require to be interpreted with caution in view of the sensitivity of this enzyme to premortem status but that reductions in cerebral CAT may be a more reliable index of pathological change in senile (Alzheimer-type) dementia.
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PMID:Neurotransmitter enzyme abnormalities in senile dementia. Choline acetyltransferase and glutamic acid decarboxylase activities in necropsy brain tissue. 14 89

Necropsy brain tissue from normal (control) patients and patients with depression and dementia was examined for activities of various cholinergic components, and these related to the degree of senile plaque formation and extent of intellectual impairment. Choline acetyltransferase and acetylcholinesterase activities decreased significantly as the mean plaque count rose, and in depressed and demented subjects the reduction in choline acetyltransferase activity correlated with the extent of intellectual impairment as measured by a memory information test; muscarinic cholinergic receptor binding activity remained unchanged with increasing senile plaque formation but butyrylcholinesterase activity increased. The results suggest a close relation between changes in the cholinergic system and Alzheimer's dementia, but the precise role of the system in this disease remains to be elucidated.
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PMID:Correlation of cholinergic abnormalities with senile plaques and mental test scores in senile dementia. 71 62

Naphthylvinylpyridine (NVP) in the cat cerebral cortex (50 mg/kg) and in the mouse brain (100 and 250 mg kg) caused inhibition of choline acetyltransferase (ChA) and didn't influence the acetyl- and butyrilcholinesterase activity and acetylcholine (Ach) content in the mouse brain. NVP (25 mg/kg) failed to influence the ChA activity. Pretreatment with NVP (25 and 250 mg/kg) increased the duration of hexenal sleep in mice greatly, and a dose of 250 mg/kg (but not of 25 mg/kg) enhanced the atropine activity in mice poisoned with armine. NVP (250 mg/kg) reduced the release of Ach from the cerebral cortex of a cat, spontaneous and evoked by atropine and electrical stimulation of the reticular formation of the brain stem. A conclusion was drawn that the pharmacological effect of NVP when the latter was applied in combination with atropine and armine could be connected with the anti-Cha action and the inhibition of the newly-formed Ach, rather than with depression of the microsomal enzymes.
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PMID:[Mechanism of action of naphthylvinylpyridine]. 122 49

The etiology of Alzheimer's disease (AD) is still unknown, and a definitive diagnosis of the disease can be determined only at autopsy or by brain biopsy. AD can be characterized by various structural changes, including cerebral cortical atrophy, neuronal loss, neuritic plaques, and neurofibrillary tangles. The primary defect involves reduced activity of choline acetyltransferase. Neurotransmitters, such as norepinephrine, serotonin, dopamine, and somatostatin, are also compromised. Treatment of AD requires maintenance of a consistent lifestyle and environment for the patient, as well as counseling and support for the patient's family. Medications, which have been effective in some patients, are primarily used to improve cognitive function and modify behavior. Cognitive medications such as tacrine hydrochloride and physostigmine have proven beneficial in some patients, while behavioral medications have been effective in the treatment of depression, aggression, agitation, and anxiety associated with AD. However, the side effect profile of each medication and its probable overall benefit to the individual patient should be evaluated before beginning therapy. Continued research in patients with AD is required to identify medications that will consistently ameliorate the memory loss associated with the disease.
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PMID:Current concepts in the treatment of Alzheimer's disease. 157 22

Biogenic amine neurotransmitters and metabolites as well as choline acetyltransferase activity were quantified in eight brain regions from 37 demented patients, with or without major depression, and 10 controls with no history of dementia or depression. The middle frontal and temporal cortex, prosubiculum and entorhinal cortex of the hippocampus, substantia nigra, thalamus, amygdala, and caudate were examined. Demented patients with major depression exhibited a 10-fold to 20-fold reduction in the level of norepinephrine in the cortex, along with relative preservation of choline acetyltransferase activity in subcortical regions, compared with demented patients who were not depressed. Serotonin levels were reduced in all eight brain regions, but the reduction did not reach statistical significance in any region examined. A para-doxical increase in dopamine levels was observed in the entorhinal cortex of depressed, demented patients, although no consistent pattern of change in the level of this neurotransmitter emerged across brain regions. Our results indicate that the development of major depression in primary dementia is associated with a profile of concurrent neurochemical changes that is largely consistent with existing neurochemical hypotheses of idiopathic affective disorders, and qualitatively distinct from that associated with primary dementia.
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PMID:Neurochemical correlates of major depression in primary dementia. 168 44

Brief (5 min) bilateral carotid occlusion in the gerbil produces forebrain ischemia resulting, as previously reported, in almost complete neuronal loss in the CA1 region of the hippocampus; this neuronal destruction occurs between the 4th and 7th day post-ischemia. Various hippocampal biochemical indices were measured from just after such ischemia to 21 days of recirculation, and the temporal pattern of changes compared with that of cell loss. The level of thiobarbiturate reacting substances (TBARS), a measure of lipid peroxidation, was greatly elevated at 30 min after ischemia, rapidly returned to normal levels (by 60 min), but was again elevated on days 4-14. The beginning of this second period of elevation correlated closely with the onset of neuronal loss and the very abrupt and large (to about 32%) decrease in specific N-methyl-D-aspartate (NMDA) binding sites, measured with radioactive CPP. The number of muscarinic binding sites, measured with radioactive quinuclidinyl benzilate, showed an even greater decrease (to 13%) at 21 days post-ischemia, but the decrease was delayed (starting at day 7) and much more gradual than the loss in NMDA binding. In neither case was there any change in binding affinity at any time studied. Acetylcholine (ACh) concentrations were initially greatly decreased (to about 15% at 5 min), transiently increased (to about 130% at 30 min), and then decreased again (to about 15% at 60 min), after which gradual recovery occurred and was completed by day 14. Since no inhibition of choline acetyltransferase activity was observed at any time, the reversible depression in ACh must depend upon some factor other than loss of this key synthetic enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Time course of changes in lipid peroxidation, pre- and postsynaptic cholinergic indices, NMDA receptor binding and neuronal death in the gerbil hippocampus following transient ischemia. 182 14

Prior work has demonstrated that unilateral lesions of the nucleus basalis of Meynert (NbM) in baboons induce a marked reduction in glucose utilization of the ipsilateral cerebral cortex, linearly proportional to the depression in cortical choline acetyltransferase (ChAT) activity achieved. Unexpectedly, there was also marked hypometabolism of the contralateral cerebral cortex, and glucose utilization recovered gradually on both sides despite persistent deficit in cortical ChAT activity. To investigate the role of the corpus callosum (CC) in this bilateral metabolic effect and subsequent recovery, three baboons were subjected to unilateral electrolytic NbM lesion greater than 3 months following section of the anterior CC. Brain glucose utilization was sequentially studied by positron emission tomography; ChAT activity was measured and histological sections obtained after death. In these animals, the NbM lesion also induced significant metabolic depression over the ipsilateral cortex, proportional to the reduction in ChAT activity. Corpus callosotomy did not prevent the contralateral metabolic effects, suggesting that the latter do not normally operate through the CC. However, there was no significant recovery of glucose utilization, suggesting that, following unilateral NbM lesion, the CC normally mediates, at least in part, the recovery of cortical glucose utilization.
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PMID:Effects of unilateral lesion of the nucleus basalis of Meynert on brain glucose utilization in callosotomized baboons: a PET study. 238 34

These experiments were conducted to gather information regarding the role of cholinergic innervation to the cortex in the generation of event-related slow potentials. The effects of unilateral drug treatments or lesions on ipsilateral and contralateral frontal cortex slow potential (SP) responses were examined in rats. The SP responses were recorded with silver-silver chloride electrodes and were generated by a 2 sec light cue which preceded rewarding medial forebrain bundle stimulation. The following approaches were used: microinjection of GABA, procaine or saline into the nucleus basalis magnocellularis; microinjection of atropine or saline subdurally in the SP recording area; electrolytic lesion of the nucleus basalis area; and kainic acid lesion of the nucleus basalis area. The following bilateral measurements were obtained lesion studies: choline acetyltransferase (ChAT) in cortex and hippocampus; serotonin in cortex, hippocampus, striatum and nucleus accumbens; norepinephrine in cortex and hippocampus; dopamine in striatum and nucleus accumbens; and metabolites of serotonin, norepinephrine and dopamine in these areas. The cortical SP responses were reduced on the side ipsilateral to the injections of GABA and procaine into the nucleus basalis, and on the side of the subdural atropine injection. With either type of lesion, the SP responses on the lesioned side were significantly reduced as compared to the non-lesioned side. Reductions in cortical ChAT and other measures were observed ipsilateral to the electrolytic lesion, but only cortical ChAT activity was reduced in the kainic acid-lesioned animals. Thus, pharmacological depression of nucleus basalis neurons, blockade of cholinergic muscarinic receptors in the cortex, and nucleus basalis lesions that reduce cortical choline acetyltransferase activity depress event-related slow potentials in the rat frontal cortex. These results provide evidence that cortical slow potential responses in the rat are dependent upon cholinergic innervation from the nucleus basalis.
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PMID:Generation of cortical event-related slow potentials in the rat involves nucleus basalis cholinergic innervation. 242 May 62

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