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)

In order to investigate the effects of a partial cholinergic deafferentation on the functional activity of the cortex, the cerebral metabolic rate of glucose (CMRGlu) was measured with positron emission tomography and 18F-2-fluoro-2-deoxy-D-glucose in 5 baboons (Papio anubis) both before and serially following stereotaxic electrocoagulation of the left nucleus basalis of Meynert (NbM). Four days postlesion, significant metabolic depression was present in the entire ipsilateral cerebral cortex, most marked in the frontotemporal region, and which slowly recovered close to normal within 6-13 weeks. Postmortem studies showed that the lesions were located largely in the NbM, and that a significant decrease in choline-acetyltransferase (ChAT) activity was present in the ipsilateral frontal, temporal and parietal cortices. The animal with the most limited histological lesion showed the least decrease in both ChAT activity and CMRGlu. There was a highly significant linear correlation between the regional cortical decreases in CMRGlu (early postlesion data) and in ChAT activity. These results indicate that cholinergic deafferentation induces a proportional metabolic depression in the cortex. However, compensatory mechanisms operate to restore the cortical metabolic activity gradually despite sustained cholinergic denervation, pointing to pre- and/or postsynaptic adaptation (plasticity). Moreover, unilateral NbM lesions also induced a significant reduction in contralateral CMRGlu, which also demonstrated recovery. Several mechanisms are discussed to explain this contralateral effect, but the most likely implicates a transcallosal depression of function as a result of ipsilateral effects of the NbM lesion. These metabolic effects of cholinergic deafferentation in the primate provide new insight into the mechanisms of cortical dysfunction, and the recovery thereof, following subcortical lesions. In addition, our findings have some relevance to the cortical consequences of cholinergic deafferentation observed in dementia of Alzheimer type.
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PMID:Time course of effects of unilateral lesions of the nucleus basalis of Meynert on glucose utilization by the cerebral cortex. Positron tomography in baboons. 278 88

M13 coat protein is a small (50 amino acids) lipid-soluble protein that becomes an integral membrane protein during the infection stage of the life cycle of the M13 phage and is therefore used as a model membrane protein. To study side-chain dynamics in the protein, we have measured individual hydrogen-exchange rates for a primary amide in the side chain of glutamine-15 and for the indole amine of tryptophan-26. The protein was solubilized with the use of perdeuteriated sodium dodecyl sulfate (SDS), and hydrogen-exchange rates were measured by using 1H nuclear magnetic resonance spectroscopy. The glutamine-15 syn proton exchanged at a rate identical with that in glutamine model peptides except that the pH corresponding to minimum exchange was elevated by about 1.5 pH units. The tryptophan-26 indole amine proton exchange was biphasic, suggesting that two populations of tryptophan-26 exist. Approximately one-fourth of the tryptophan-26 resonance intensity exchanged at the same rate as a tryptophan model peptide, whereas three-fourths of the tryptophan-26 resonance intensity exchanged about 1000-fold more slowly. It is suggested that the two populations may reflect protein dimerization or aggregation in the SDS micelles. The pH values of minimum exchange for tryptophan-26 in both environments were also elevated by 1.3-1.9 pH units. This phenomenon is reproduced when small tryptophan- and glutamine-containing hydrophobic peptides are dissolved in the presence of SDS micelles. The electrostatic nature of this phenomenon is proven by showing that the minimum pH for exchange can be reduced by dissolving the hydrophobic peptides in the positively charged detergent micelle dodecyltrimethylammonium bromide. A small hydrophobic effect, which involves the depression of base catalysis to a significantly greater extent than acid catalysis, was observed for some of the peptides solubilized with the neutral detergent octyl glucoside.
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PMID:Side-chain dynamics of a detergent-solubilized membrane protein: measurement of tryptophan and glutamine hydrogen-exchange rates in M13 coat protein by 1H NMR spectroscopy. 279 27

The anti-neutrophil mAb PMN 7C3 and IIC4 inhibited the respiratory burst of neutrophils as measured by the generation of superoxide anion or hydrogen peroxide in response to PMA, serum-treated zymosan, and FMLP. To examine the effect of these mAb on neutrophil transmembrane potential, a fluorescent probe was used in a continuous assay. Compared with control cells, antibody-treated neutrophils were partially depolarized at rest and had a blunted response when stimulated. The F(ab)2 fragment of PMN 7C3 had similar effects on both the respiratory burst and transmembrane potential, whereas the Fab fragment did not. The unrelated antineutrophil mAb 31D8 had no effect on either the respiratory burst or on transmembrane potential. Neutrophils suspended in high potassium buffers also exhibited partial depolarization of the resting cell membrane and a blunted depolarization response to stimuli and produced less superoxide anion and hydrogen peroxide in response to stimuli than did control cells in physiologic buffer. Exposure of neutrophils to 2-deoxy-D-glucose resulted in dose- and time-dependent depression of the respiratory burst. 2-Deoxy-D-glucose also caused depolarization of the resting membrane and impaired subsequent stimulus-induced depolarization. Similar effects were seen with addition of iodoacetamide or depletion of glucose. The parallel effects of anti-neutrophil mAb, depolarizing buffers, and glycolytic inhibitors on both neutrophil membrane depolarization and activation of the respiratory burst indicate a close association between these two events. The evidence suggests that the inhibitory effects of these antibodies are mediated through partial membrane depolarization which interferes with signal transduction on subsequent stimulation of the cells. The impairment in oxidative responses to phorbol esters as well as to receptor-dependent activating agents points to interruption at a distal step, e.g., subsequent to Ca2+ mobilization.
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PMID:Depolarization blunts the oxidative burst of human neutrophils. Parallel effects of monoclonal antibodies, depolarizing buffers, and glycolytic inhibitors. 283 7

This study examines the effects of complement activation and of complement-induced oxygen radical production on the principal determinant of hepatic function, i.e., effective hepatic blood flow (EHBF). Female Sprague-Dawley rats received cobra venom factor, 40 units/kg, in two divided doses at 30-minute intervals. At t = 2 hours, thermodilution cardiac output, mean arterial pressure, heart rate, hematocrit, and EHBF by galactose clearance were determined. Complement activation produced a significant depression in EHBF independent of changes in systemic perfusion. To determine whether oxygen radicals participated in the insult, additional animals were pretreated with superoxide dismutase, 6 mg/kg, plus catalase, 15 mg/kg, immediately before complement activation. Concomitant treatment with the oxygen radical scavengers attenuated the degree of complement-induced hepatic ischemia, again independent of effects on systemic perfusion. This study suggests that the reduction in hepatic blood flow that accompanies animal models of trauma and sepsis may result, in part, from the sequelae of complement activation with oxygen radicals as secondary mediators.
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PMID:Contribution of toxic oxygen intermediates to complement-induced reductions in effective hepatic blood flow. 284 55

Using quantitative autoradiography, we investigated the effect of meningeal carcinomatosis on local cerebral glucose utilization (LCGU). A rat model of meningeal carcinomatosis using Walker 256 tumor was used. LCGU was evaluated using 14C-2-deoxy-D-glucose according to the Sokoloff method. Thirty-one neuroanatomic structures were evaluated, both separately and as part of five functional or neuroanatomic groups: olfactory, auditory, visual, limbic, and white matter. The relationship between tumor and LCGU of underlying brain was examined. Compared with controls, there was no global change of LCGU in the experimental group that applied to all structures. However, mean LCGU was significantly depressed in olfactory cortex, temporal cortex, olfactory tubercle, amygdala, caudate/putaman, inferior colliculus, medial geniculate, anterior commissure, and corpus callosum, and the functional groups that make up the olfactory and auditory systems. There was no correlation between extent of regional tumor burden and degree of depression of LCGU in underlying structures. In meningeal carcinomatosis, tumor results in selective regional depression of LCGU. This occurs both in structures underlying tumor and those anatomically remote, but in certain cases, functionally related to structures subadjacent to tumor. These data may help to explain the diversity of neurologic dysfunction seen in patients with meningeal cancer.
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PMID:Experimental meningeal carcinomatosis selectively depresses local cerebral glucose utilization in rat brain. 290 19

In previous structure-activity studies, we have demonstrated that attachment of a glucose molecule to the chloroethylnitrosourea cytotoxic group produces a compound with reduced murine bone marrow toxicity and retention of full antitumor activity. To further define this protective role conferred by the glucose moiety in bone marrow cells, we have replaced the nitrosourea cytotoxic group with another class of alkylating agent, a bifunctional nitrogen mustard. In a detailed structure-activity analysis, we have now characterized four analogues, with the mustard cytotoxic group positioned at carbon 2 [1,3,4,6-tetra-O-acetyl-2-(di-2-chloroethyl)amino-2-deoxy-D-glucopyranos e (TGM)], carbon 6, or carbon 1 (D- and L-isomers) of the aminoglucose molecule. On a molar basis, TGM was most toxic to normal BALB/c X DBA/2 F1 mice, with a 10% lethal dose (LD10) of 3.8 mumol/kg. The D- and L-isomers of 2,3,4,6-tetra-O-acetyl-N,N-bis(2-chloroethyl)glucopyranosylamine (C-1) were the least toxic, with an LD10 of 73 mumol/kg for both. Optimal antitumor activity against the murine P388 leukemia (single i.p. administration of the LD10) did not differ significantly among the four analogues, with increased life span ranging from 83-86%. P388 antitumor activity for nitrogen mustard (HN2) was significantly less, 60% increased life span (P = 0.01), while p-di(2-chloroethyl)amino-L-phenylalanine produced an increased life span of greater than 101%. An LD10 of 6-bis-(2-chloroethyl) amino-6-deoxy-D-glucose (C-6) or TGM produced significantly less depression of WBC counts than did an equitoxic dose of the C-1 isomers, HN2, or p-di(2-chloroethyl)amino-L-phenylalanine. The mean nadir WBC count for C-6 equaled 86% of control, and for TGM, 80% of control. Consistent with this sparing effect on the peripheral WBC, C-6 and TGM produced significantly less in vivo murine bone marrow DNA synthesis depression, 77 and 64% of control, respectively, as compared to the depression nadir produced by HN2 (27% of control), the D-isomer of C-1 (17%), the L-isomer of C-1 (18%), and p-di(2-chloroethyl)amino-L-phenylalanine (2%). These structure-activity studies demonstrate that conjugation of the mustard cytotoxic group to carbon 6 or carbon 2 of glucose produces an analogue that retains P388 antitumor activity significantly greater than that of HN2, with a concomitant reduction in murine bone marrow toxicity.
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PMID:Antitumor activity and bone marrow toxicity of aminoglucose mustard anticancer agents in mice. 293 28

The relationship between the development of galactose-induced cataractogenesis and rat lens microsomal prostaglandin (PG) biosynthesis was studied. Within 24 hr of the introduction of 50% galactose to the rat's diet, lens PGF2 alpha production fell dramatically to 31% of control. Following the initial depression of PGF2 alpha biosynthesis, the ability to generate PGF2 alpha in lens microsomes slightly recovered reaching 58- and 53% of controls at day 2 and day 5 on the sugar diet, respectively. Determination of microsomal PGF2 alpha biosynthesis at 9- and 21 days revealed a continued decline in PG synthesis with complete cessation of PGF2 alpha synthesis by day 36 (hypermature cataracts, +5). The decreased PGF2 alpha biosynthetic capacity was a result of decreased cyclo-oxygenase activity since: PGE2 production demonstrated a similar time course for inhibition; and lens microsomes from control and galactose fed rats revealed no difference in the PGs produced from PGH2 endoperoxide. Neither galactose (1 mM) nor galactitol (1 mM), when added to control microsomal preparations inhibited PG biosynthesis, eliminating the possibility of a direct effect of the sugar, or its metabolite, on cyclo-oxygenase activity. While PG biosynthesis was rapidly inhibited by the galactose feeding no changes were observed in basal lens cyclic AMP levels measured during the first 5 days of the feedings. These results demonstrate that depressed PG biosynthesis is an early consequence of galactose feeding.
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PMID:Rat lens prostaglandin biosynthesis during galactose-induced cataractogenesis. 302 46

Ethanol, a highly lipid-soluble compound, appears to exert its effects through interactions with the cell membrane. Cell membrane alterations indirectly affect the functioning of membrane-associated proteins, which function as channels, carriers, enzymes and receptors. For example, studies suggest that ethanol exerts an effect upon the gamma-aminobutyric acid (GABA)-benzodiazepine-chloride ionophore receptor complex, thereby accounting for the biochemical and clinical similarities between ethanol, benzodiazepines and barbiturates. The patient with acute ethanol poisoning may present with symptoms ranging from slurred speech, ataxia and incoordination to coma, potentially resulting in respiratory depression and death. At blood alcohol concentrations of greater than 250 mg% (250 mg% = 250 mg/dl = 2.5 g/L = 0.250%), the patient is usually at risk of coma. Children and alcohol-naive adults may experience severe toxicity at blood alcohol concentrations less than 100 mg%, whereas alcoholics may demonstrate significant impairment only at concentrations greater than 300 mg%. Upon presentation of a patient suspected of acute ethanol poisoning, cardiovascular and respiratory stabilisation should be assured. Thiamine (vitamin B1) and then dextrose should be administered, and the blood alcohol concentration measured. Subsequent to stabilisation, alternative aetiologies for the signs and symptoms observed should be considered. There are presently no agents available for clinical use that will reverse the acute effects of ethanol. Treatment consists of supportive care and close observation until the blood alcohol concentration decreases to a non-toxic level. In the non-dependent adult, ethanol is metabolised at the rate of approximately 15 mg%/hour. Haemodialysis may be considered in cases of a severely ill child or comatose adult. Follow-up may include referral for counselling for alcohol abuse, suicide attempts, or parental neglect (in children). The ethanol withdrawal syndrome may be observed in the ethanol-dependent patient within 8 hours of the last drink, with blood alcohol concentrations in excess of 200 mg%. Symptoms consist of tremor, nausea and vomiting, increased blood pressure and heart rate, paroxysmal sweats, depression, and anxiety. Alterations in the GABA-benzodiazepine-chloride receptor complex, noradrenergic overactivity, and hypothalamic-pituitary-adrenal axis stimulation are suggested explanations for withdrawal symptomatology.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Acute ethanol poisoning and the ethanol withdrawal syndrome. 304 Dec 44

The yeast regulatory gene CAT3 has an essential function for the depression of several glucose-repressible enzymes. Therefore, cat3 mutants are unable to grow on maltose or on non-fermentable carbon sources. Unlike the point mutants isolated previously, cat3 null allele strains also failed to utilize raffinose or galactose as sole carbon sources. Sequencing of an 1.6-kb HindIII-BglII fragment complementing cat3 mutations revealed an open reading frame of 322 codons, size of which is in good agreement with the 1.3-kb size of mRNA. No significant similarities with previously sequenced genes could be detected. CAT3-lacZ fusions confirmed the proposed reading frame. A CAT3-lacZ fusion encoding 307 amino acids of CAT3 was able to complement the growth defects of cat3 point mutants and null allele strains. Assay of beta-galactosidase activity under different growth conditions indicated a constitutive expression of the CAT3 gene product. Cellular fractionation studies showed the nuclear localization of the CAT3 protein.
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PMID:Molecular characterization of yeast regulatory gene CAT3 necessary for glucose derepression and nuclear localization of its product. 304 55

Local cerebral glucose utilization (LCGU) was measured, using the quantitative autoradiographic [14C]2-deoxy-D-glucose method, in 92 discrete brain regions of awake rats, at 1, 2, 3, or 4 h after administration of the serotonergic antagonist methiothepin 0.1 mg/kg IP. The drug produced a cataleptic behavior that peaked in intensity at 3 h after its administration. LCGU declined significantly in 35% of the 92 regions at one or more time points after methiothepin administration. No area of increased metabolism was found. The time-course of the decline in LCGU closely paralleled the intensity of catalepsy; the peak effect was at 3 h, when LCGU was significantly reduced in 32% of the regions examined (mean decline for all regions was 15%). Metabolic depression after methiothepin was most notable in the forebrain, where LCGU declined in many regions of the cerebral cortex, basal ganglia, and thalamus. Most of the regions affected by methiothepin possess a substantial number of serotonin receptors, although LCGU was also reduced in a few regions not primarily involved in serotonergic neurotransmission.
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PMID:Methiothepin reduces glucose utilization in forebrain regions of awake rats. 312 78


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