UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Slices of duodenum and jejunum produce ammonia from glutamine in vitro. 2. Ammoniagenesis does not increase in response to acidosis or potassium deficiency, two conditions known to cause enhanced ammoniagenesis in the kidney. 3. Gut contains glutaminase 1 as well as gamma-glutamyl transpeptidase. 4. These enzymes do not show any increase during starvation.
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PMID:Ammonia production by the small intestine of the rat. 0 12

We examined the relationship between the amount of organic solvent-soluble fluorescent pigments (OFP), which are generally regarded as the products of lipid peroxidation, and the content of glutathione in chloroquine-treated mice in order to assess the toxicological significance of the formation of these fluorescent pigments. OFP extracted with chloroform/methanol (2:1, v/v) were quantified spectrophotofluorometrically (excitation, 380 nm; emission, 460 nm). The administration of chloroquine diphosphate (50 mg/kg, i.p.) greatly increased the fluorescent intensity of OFP in the kidneys, but not in the livers, whereas administration of this drug significantly decreased glutathione content in the livers. In contrast, depletion of glutathione, induced either by starvation or by pretreatment with buthionine sulfoximine, a potent inhibitor of glutathione synthesis, markedly augmented the fluorescence intensity of OFP in the livers of mice treated with chloroquine. In the serum of mice treated with chloroquine, the alteration in activity of acid phosphatase and gamma-glutamyl transpeptidase approximately paralleled changes in the formation of fluorescent pigments in the tissues. These findings suggest that glutathione is an important endogenous substance which influences the insult of chloroquine.
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PMID:Relationship between glutathione content and formation of organic solvent-soluble fluorescent pigments in mice treated with chloroquine. 167 37

Stress and starvation increased liver metallothionein (MT) and decreased liver glutathione (GSH) levels. Serum cysteine plus cystine levels were increased by stress. The exogenous administration of GSH, while not modifying hepatic GSH content, increased liver MT levels in basal and starved rats but not in stressed rats. Liver and serum cysteine levels were increased by GSH administration, a process partially reverted by the irreversible inhibitor of gamma-glutamyl transpeptidase, alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid. Mouse and rat liver MT levels were also increased by buthionine sulfoximine, an inhibitor of GSH synthesis, indicating that GSH is not a necessary precursor of MT. In addition, the hepatic MT content was increased by the administration of cysteine in a dose-response manner. These results suggest that hepatic MT synthesis is elevated by increased cysteine pools, and that MT, GSH and cysteine levels are somehow inter-related. MT, besides GSH, may be contemplated as a putative intracellular reservoir of cysteine in the liver of adult rats.
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PMID:On the metallothionein, glutathione and cysteine relationship in rat liver. 224 42

Kidneys of rats fed for 10 days a diet containing protein from Cajanus cajan were found to show an increase in the maleate-induced phosphate-independent glutaminase (PIG) activity as compared to the rats fed a diet containing egg protein. These changes could be reversed by reversing the diets. PIG is known to possess the catalytic function of gamma-glutamyl transpeptidase, which showed parallel changes. Starvation of adult rats for 24 h as well as the growth of young rats into adults resulted in an increase in the two enzyme activities. The alteration of the enzyme activities is in agreement with the postulated physiological role of these two enzymes.
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PMID:Effect of dietary protein quality on rat kidney glutaminase activity. 611 75

The activities of microvillus aminopeptidase (microsomal, EC 3.4.11.2), dipeptidyl peptidase IV (EC 3.4.14.-), glycyl-leucine dipeptidase (EC 3.4.13.11), proline dipeptidase (EC 3.4.13.9), sucrase (EC 3.2.1.48) and gamma-glutamyl transpeptidase (EC 2.3.2.2) were measured in peroral intestinal biopsies taken from patients with coeliac disease in the acute phase and in remission. A comparison with the amounts of corresponding activities from a reference group showed that all the measured activities were significantly decreased in the acute phase of the disease. In patients in remission only microvillus aminopeptidase and dipeptidyl dipeptidase IV displayed a substantial depression as compared to the reference group. It is suggested that a primary mucosal digestion defect will result in lack of substrate for other intestinal enzymes. This is a situation comparable to starvation and may explain the variation in the grade of restitution for the different enzymes.
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PMID:Intestinal peptidases and sucrase in coeliac disease. 700 82

The ability of astroglia-rich primary cultures derived from the brains of neonatal rats to take up and metabolize various sulfur containing compounds to cysteine was investigated using the content of intracellular glutathione as an indicator. Astroglial cells were partially depleted of glutathione by starvation for 24 h. Subsequent feeding for 4 h with glucose, glycine, and glutamate resulted in a restoration of the glutathione level, if cysteine was present. Substitution of cysteine by cystine during resynthesis of glutathione led to a glutathione content which exceeded that of cysteine-refed cells by 41%. Half-maximal content of glutathione was found at a concentration of about 12 microM cysteine and a maximal content at a concentration of at least 50 microM cysteine. In contrast, no plateau in the glutathione level was reached with increasing concentrations of cystine. The cystine effect could not be due to a contamination, since it was abolished after reduction of cystine by dithiothreitol. Since the cystine effect was not affected by inhibiting gamma-glutamyl transpeptidase, a promotion of cystine uptake by formation of gamma-glutamylcystine can also be excluded. Of the potential cysteine precursors tested, N-acetylcysteine was able to replace cysteine half-maximally at a concentration of 1 mM and fully at 5 mM. Feeding 2-oxothiazolidine-4-carboxylic acid at a concentration of 5 mM resulted in 64% of the glutathione level found in the presence of cysteine. A half-maximal glutathione content was attained at 50 microM 2-oxothiazolidine-4-carboxylic acid. While cystathionine could partially replace cysteine, methionine and homocysteine were not at all able to substitute for cysteine. These results demonstrate that astroglial cells prefer cystine from cysteine for glutathione synthesis and express uptake systems for N-acetylcysteine, 2-oxothiazolidine-4-carboxylic acid, and cystathionine, as well as the enzymes N-deacetylase, 5-oxoprolinase, and cystathionine gamma-lyase.
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PMID:Utilization of cysteine and cysteine precursors for the synthesis of glutathione in astroglial cultures: preference for cystine. 943 84

Considerable evidence suggests that oxidative stress plays an important role in tissue damage associated with hypoglycemia and other metabolic disorders. The altered brain neurotransmitters metabolism, cerebral electrolyte contents, and impaired blood-brain barrier function may contribute to CNS dysfunction in hypoglycemia. The present study elucidates the effect of starvation and insulin-induced hypoglycemia on the free radical scavanger system--reduced glutathione (GSH) content, glutathione S-transferase (GST), glutathione peroxidase (GPx), glutathione reductase (GR), gamma-glutamyl transpeptidase (gamma-GTP), gamma-glutamyl cystein synthetase (gamma-GCS), catalase and superoxide dismutase (SOD), and mitochondrial electron transport chain (ETC) complexes I-IV from three different regions of rat brain, namely cerebral hemispheres (CH), cerebellum (CB), and brainstem (BS). Peripheral organs, such as liver and kidney, were also studied. Significant changes in these enzymic activities were observed. The analysis of such alterations is important in ultimately determining the basis of neuronal dysfunction during metabolic stress conditions, such as hypoglycemia, and also defining the nature of these changes may help to develop therapeutic means to cure metabolically stressed tissues.
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PMID:Effect of starvation and insulin-induced hypoglycemia on oxidative stress scavenger system and electron transport chain complexes from rat brain, liver, and kidney. 1032 15

In the yeast Saccharomyces cerevisiae, the enzyme gamma-glutamyl transpeptidase (gamma-GT; EC 2.3.2.2) is a glycoprotein that is bound to the vacuolar membrane. The kinetic parameters of GSH transport into isolated vacuoles were measured using intact vacuoles isolated from the wild-type yeast strain Sigma 1278b, under conditions of gamma-GT synthesis (nitrogen starvation) and repression (growth in the presence of ammonium ions). Vacuoles devoid of gamma-GT displayed a K(m) (app) of 18+/-2 mM and a V(max) (app) of 48.5+/-5 nmol of GSH/min per mg of protein. Vacuoles containing gamma-GT displayed practically the same K(m), but a higher V(max) (app) (150+/-12 nmol of GSH/min per mg of protein). Vacuoles prepared from a disruptant lacking gamma-GT showed no increase in V(max) (app) with nitrogen starvation. From a comparison of the transport data obtained for vacuoles isolated from various reference and mutant strains, it appears that the yeast cadmium factor 1 (YCF1) transport system accounts for approx. 70% of the GSH transport capacity of the vacuoles, the remaining 30% being due to a vacuolar (H(+)) ATPase-coupled system. The V(max) (app)-increasing effect of gamma-GT concerns only the YCF1 system. gamma-GT in the vacuolar membrane activates the Ycf1p transporter, either directly or indirectly. Moreover, GSH accumulating in the vacuolar space may exert a feedback effect on its own entry. Excretion of glutamate from radiolabelled GSH in isolated vacuoles containing gamma-GT was also measured. It is proposed that gamma-GT and a L-Cys-Gly dipeptidase catalyse the complete hydrolysis of GSH stored in the central vacuole of the yeast cell, prior to release of its constitutive amino acids L-glutamate, L-cysteine and glycine into the cytoplasm. Yeast appears to be a useful model for studying gamma-GT physiology and GSH metabolism.
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PMID:gamma-Glutamyl transpeptidase in the yeast Saccharomyces cerevisiae and its role in the vacuolar transport and metabolism of glutathione. 1167 38

In Saccharomyces cerevisiae, the CIS2 gene encodes gamma-glutamyl transpeptidase (gamma-GT; EC 2.3.2.2), the main GSH-degrading enzyme. The promoter region of CIS2 contains one stress-response element (CCCCT) and eight GAT(T/A)A core sequences, probably involved in nitrogen-regulated transcription. We show in the present study that expression of CIS2 is indeed regulated according to the nature of the nitrogen source. Expression is highest in cells growing on a poor nitrogen source such as urea. Under these conditions, the GATA zinc-finger transcription factors Nil1 and Gln3 are both required for CIS2 expression, Nil1 appearing as the more important factor. We further show that Gzf3, another GATA zinc-finger protein, acts as a negative regulator in nitrogen-source control of CIS2 expression. During growth on a preferred nitrogen source like NH(4)(+), CIS2 expression is repressed through a mechanism involving (at least) the Gln3-binding protein Ure2/GdhCR. Induction of CIS2 expression during nitrogen starvation is dependent on Gln3 and Nil1. Furthermore, rapamycin causes similar CIS2 activation, indicating that the target of rapamycin signalling pathway controls CIS2 expression via Gln3 and Nil1 in nitrogen-starved cells. Finally, our results show that CIS2 expression is induced mainly by nitrogen starvation but apparently not by other types of stress.
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PMID:Nitrogen-source regulation of yeast gamma-glutamyl transpeptidase synthesis involves the regulatory network including the GATA zinc-finger factors Gln3, Nil1/Gat1 and Gzf3. 1252 69