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)

We have compared levels of albumin and serum amino acids in a group of 87 recent admissions to a nursing home, average age 83 years, with a group of healthy moderately old subjects, average age 69 years. We found that the nursing home group was characterized by decreased levels of albumin, by increased total levels of the measured amino acids, and by increased levels of the nonessential amino acids. In contrast, there were no significant group differences in the essential amino acids. Among the nursing home patients, there was a negative correlation between essential amino acids and disability, consistent with nutritional deficits in the more disabled patients, and a positive correlation between essential amino acids and subjective complaints of pain, suggesting that pain is associated with breakdown or mobilization of endogenous protein stores. Though the nursing home patients had decreased serum levels of tryptophan, there was no association between serum tryptophan or other variables that could be related to the availability of tryptophan for transport into brain, with ratings of either depression or pain. Glutamine levels were significantly increased in the nursing home residents, and among these patients they were positively correlated with measures of cognitive impairment.
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PMID:Amino acid levels in elderly nursing home residents. 263 18

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 effect of intravenous glutamic acid infusion (3 mg/kg/min) was studied during myocardial ischemia and reperfusion in anesthetized dogs. Left ventricular ischemia was induced by underperfusion of the anterior descending and circumflex coronary arteries. Glutamic acid reduced the ischemic contractile depression 2 min after a 60%-reduction of the coronary blood flow. The left ventricular systolic pressure was decreased by 9% versus 22%, dP/dt by 16% versus 29%, left ventricular systolic pressure heart rate product by 16% versus 31%. Reperfusion with glutamic acid improved the recovery of cardiac performance without any increase in myocardial oxygen consumption. Glutamic acid infusion resulted in a 2-fold augmentation of glutamate uptake by the ischemic myocardium. It led to cessation of ammonia release by the heart due to activation of glutamine synthesis, enhancement of alanine formation coupled with pyruvate utilization and did not change lactate production. The mechanisms of the protective action of glutamic acid are discussed.
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PMID:[Correction of contractile function and metabolism in canine ischemic myocardium due to exogenous glutamic acid]. 286 92

In vivo studies were performed in the dog to verify if sodium lactate had an important effect on the metabolism of glutamine by the kidney. The animals were infused with 0.6 M sodium lactate to induce acute metabolic alkalosis with plasma bicarbonate of 29.7 mM. During these experiments, it was demonstrated that the renal uptake of glutamine increased by 46%, while the renal production of ammonia was unchanged. The renal production of alanine rose from 6.0 to 16.8 mumol/min. Plasma concentration of lactate increased from 1.3 to 19.2 mM, while that of pyruvate increased from 0.075 to 0.454 mM. In the renal tissue, alpha-ketoglutarate, malate, oxaloacetate, lactate, pyruvate, citrate, and alanine increased significantly. Similar changes were found in the liver and skeletal muscle. The observed changes are best described by transamination of pyruvate and glutamate under the influence of alanine aminotransferase (GPT). It can be calculated that this reaction was responsible for 76% of the production of ammonia from glutamine, the latter being necessary to provide glutamate for the synthesis of alanine. Dogs infused with 0.3 M sodium bicarbonate instead of sodium lactate with the same degree of acute metabolic alkalosis, showed a depression of 40% in the renal uptake of glutamine with a 38% decrease in renal ammoniagenesis and a 20% fall in the production of alanine. The present studies demonstrate that the production of ammonia from glutamine is not necessarily related to changes in acid-base balance, but may be associated with biochemical alterations related to the synthesis of alanine by the kidney.
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PMID:The metabolic response of the kidney to acute sodium lactate alkalosis. 286 25

The effect of intravenous infusion of glutamic acid on cardiac contractile function during short-term ischemia and subsequent reperfusion was studied in anaesthetized dogs. Left ventricular ischemia was induced by underperfusion of the anterior descending and circumflex coronary arteries. Infusion of glutamic acid at 3 mg/kg/min resulted in less depression of cardiac function when given after a 2 min period of 60% coronary blood flow reduction: left ventricular systolic pressure decreased by 9% vs. 22%, dP/dt decreased by 16% vs. 29%, the double product (left ventricular systolic pressure by heart rate) was reduced by 16% vs. 31%. When reperfusion was carried out during glutamic acid infusion there was a significantly enhanced recovery in cardiac function. The augmentation of cardiac performance in ischemia and reperfusion caused by glutamic acid was not accompanied by changes in myocardial oxygen consumption. Glutamic acid uptake by the ischemic myocardium increased 2-fold during infusion. This led to cessation of ammonia release from the heart due to stimulation of glutamine synthesis, and an enhancement of alanine formation coupled with pyruvate uptake but it did not effect lactate production. However, glutamic acid infusion did not influence cardiac performance and metabolism under conditions of normal coronary flow. The results suggest that elevation of glutamate arterial concentration exerts a beneficial effect on ischemic heart. The mechanisms of the protective action are discussed.
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PMID:Function and metabolism of dog heart in ischemia and in subsequent reperfusion: effect of exogenous glutamic acid. 286 19

The effects of N-methylaspartate (NMA) on extracellular amino acids and purine catabolites in the hippocampus were studied with brain dialysis in rats with unilateral hippocampal NMA lesions. In the lesioned side, an increased basal output of glutamine was observed while glutamate was significantly decreased. NMA evoked a drop in extracellular glutamine. The effect was not observed in the lesioned hippocampus. NMA markedly enhanced the release of taurine and phosphoethanolamine (PEA). This response was unchanged in NMA-lesioned hippocampus. Analysis of the tissue content of endogenous amino acids revealed decrements in glutamate and GABA whereas other amino acids were not significantly altered. The resting and NMA-stimulated efflux of inosine was higher in the intact hippocampus. However, the extracellular concentrations of the inosine break-down products hypoxanthine and xanthine were not influenced by a prior NMA lesion, neither before nor after NMA administration. The present findings indicate that NMA releases amino acids (mainly taurine and PEA) from non-neuronal cells. The depression of extracellular glutamine elicited by NMA is probably a neuronal event. A direct stimulation of the energy metabolism of non-neuronal cells by NMA appears to exist as measured by the efflux of purine catabolites. I propose that non-neuronal cells, possibly glia, possess NMA receptors which, upon stimulation, initiate biochemical changes. The physiological significance of these responses remains to be elucidated.
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PMID:Evidence for a direct action of N-methylaspartate on non-neuronal cells. 288 83

Mouse astroglial cells were grown during the last week of culture in either glutamine-free or glutamine-containing medium. The addition of cortisol to the glutamine-containing medium resulted in a doubling of astroglial glutamine synthetase (GS) activity. Withdrawal of glutamine from the medium resulted in a 50% elevation of GS and addition of cortisol to such a medium resulted in a further increase in GS which was not additive to glutamine withdrawal. Both in glutamine-free and glutamine-containing medium, the addition of glutamate resulted in a depression of both basal and cortisol induced GS activity. The simultaneous addition of ammonia plus glutamate to the culture medium ameliorated the glutamate mediated depressive effects on cortisol induced but not basal GS activity. Glutamine withdrawal from the culture medium resulted in an astroglial protein deficit. The addition of ammonia to the medium considerably reduced this deficit and the addition of glutamate completely eliminated this protein deficit.
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PMID:Effects of medium glutamine, glutamate, and ammonia on glutamine synthetase activity in cultured mouse astroglial cells. 289 16

Previous studies from this laboratory have demonstrated that growth of the methylcholanthrene (MCA) sarcoma is dependent on total nitrogen substrate availability in vivo and on the specific amino acids asparagine and glutamine in vitro. This experiment determines whether these two phenomena can be used to selectively depress tumor growth and maintain host carcass. Sixty-two rats were inoculated with sarcoma and were infused for 10 days with isocaloric (60 kcal/day) TPN solutions at 100%, 16%, 10%, and 5% of normal nitrogen levels, either with (W) or isonitrogenously without (WO) the amino acids asparagine, glutamine, aspartic acid, and glutamic acid. W solutions contained 33% of these amino acids. Mean weights of 100 W tumors were significantly greater (p = 0.002) than all other groups. Total body weights minus tumor weights were similar in W versus WO animals at each rate of nitrogen infusion. Mean venous plasma concentrations of asparagine, aspartic acid, glutamine, and glutamic acid were similar in all eight groups. These data indicate that the same degree of tumor depression produced by nitrogen deprivation can also be produced by removal of asparagine, glutamine, and their precursors from nutrient solutions without adverse effects on carcass mass. The mechanisms involved are not readily explained by analysis of venous plasma amino acid concentrations.
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PMID:Influence of total nitrogen, asparagine, and glutamine on MCA tumor growth in the Fischer 344 rat. 289 15

Rats were trained to eat a 6% casein basal diet during a 3-hour period per day. They were then fed either the same 6% casein diet or a 44% casein diet for 3 hours. No food intake depression was observed in the rats eating 44% casein diet during the 3-hour period. Plasma ammonia and amino acids and brain amino acids were measured at 0, 4, 12 and 24 hours after presentation of the 6% or 44% casein diets. Plasma ammonia rose to 134 (p less than 0.01) and 110 micromolar (p less than 0.05) in the 44% casein fed rats at 4 and 12 hours, respectively, as compared to 67 and 53 micromolar, respectively, for the 6% casein fed rats. All plasma amino acid concentrations except methionine and glutamate were elevated (p less than 0.05) at 4 hours. In the brain, threonine, glutamine and tyrosine concentrations were elevated (p less than 0.05) at 4 hours after diet presentation. At 24 hours, valine, isoleucine, leucine, phenylalanine, and methionine concentrations were also elevated (p less than 0.05). Because intake of the 44% casein diet decreases the second day of its presentation, as noted in an earlier experiment, the increases in plasma ammonia and its possible entry into the brain as reflected by increased brain glutamine together with changes in amino acid concentrations should be considered collectively among possible metabolic signals affecting intake of high protein diets.
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PMID:Increase in plasma ammonia and amino acids when rats are fed a 44% casein diet. 320 Sep 19

Decreased ammonium (NH4+) excretion is associated with hyperkalemia. To determine if potassium could directly influence renal ammonia production, we investigated ammoniagenesis by rat and canine renal cortical tissues in vitro at different potassium concentrations. Renal tissue from normal and acidotic rats and normal dogs incubated in glutamine, lactate, and 7 to 10 mEq/liters of potassium or 25 mEq/liters of potassium produced significantly less ammonia than slices incubating in glutamine, lactate, and 4 to 5 mEq of potassium. Glutamate accumulation, which follows glutamine deamidation, did not decrease and even increased at 25 mEq/liters of potassium. With glutamine as the sole substrate, decreased ammoniagenesis was seen only at higher potassium concentrations (greater than 16 mEq/liters) than when lactate was also present. The depression to glutamine ammoniagenesis by high concentrations of potassium was partially obliterated in an anaerobic environment. When glutamate replaced glutamine as the precursor, renal ammonia produced by slices in 7 and 25 mEq/liters was again significantly lower than by slices incubating in 4 mEq/liters. We blocked glutamine synthesis by rat kidney slices with dl-methionine dl-sulfoximine when glutamate was the renal ammonia precursor. This essentially allows glutamate deamination to produce ammonia. Potassium depressed glutamate deamination significantly at 7 mEq/liters (decreases 13%) and at 25 mEq/liters of potassium (decreases 35%) as compared to 4 mEq/liters. The above findings are consistent with a major depressive effect of in vitro potassium on glutamate deamination in rat and canine kidneys. Other evidence, especially from rat tissue studies, suggests that potassium also may affect glutamine deamination directly. Rat kidney slices incubating in the high potassium medium of 7 mEq/liter or greater also consumed less oxygen in the presence of glutamine (P less than 0.01), oxidatively decarboxylated less glutamine (P less than 0.02) and produced less glucose from glutamine (P less than 0.01).
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PMID:Effects of in vitro potassium on ammoniagenesis in rat and canine kidney tissue. 612 28


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