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)

The ribonucleoside triphosphate, deoxyribonucleoside triphosphate, 3' -diphosphate guanosine 5' -diphosphate (ppGpp), and 5-phosphoribosyl 1-pyrophosphate (PRPP) pools in Escherichia coli B were determined by thin-layer chromatography during changing conditions to ammonium starvation. The intracellular concentrations of all nucleotides were found to change in a well-defined order several minutes before andy observed change in the optical density of the culture. The levels of purine nucleoside triphosphates (adenosine 5' -triphosphate [CTP], dCTP) and uridine nucleotides (uridine 5' -triphosphate, deoxythymidine 5'-triphosphate). The deoxyribonucleotides thus behaved as the ribonucleotides. The levels of ppGpp increased 11-fold after the decrease in uridine nucleotides, when the accumulation of stable ribonucleic acid (RNA) stopped. The level of the nucleotide pool did not stabilize until 30 min after the change in optical density. The pool of dGTP dropped concomitantly with the pool of CTP. The nucleotide precursor PRPP exhibited a transient increase, wtih maximum value of four times the exponential levels at the onset of starvation. Apparently the cell adjusts early to starvation by reducing either the phosphorylating activity or the nucleotide biosynthetic activity. As in other downshift systems, the accumulation of stable RNA stopped before the break in optical density and before the stop in protein accumulation. Cell divisions were quite insensitive to the control mechanisms operating on RNA and protein accumulation under ammonium starvation, since the cells continued to divide for 21 min without any net accumulation of RNA.
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PMID:Regulation of PRPP and nucleoside tri and tetraphosphate pools in Escherichia coli under conditions of nitrogen starvation. 32 22

GCN2 is a protein kinase in Saccharomyces cerevisiae that is required for increased expression of the transcriptional activator GCN4 in amino acid-starved cells. GCN2 stimulates GCN4 synthesis at the translational level by phosphorylating the alpha subunit of eukaryotic translation initiation factor 2 (eIF-2). We identified a truncated form of the GLC7 gene, encoding the catalytic subunit of a type 1 protein phosphatase, by its ability to restore derepression of GCN4 expression in a strain containing the partially defective gcn2-507 allele. Genetic analysis suggests that the truncated GLC7 allele has a dominant negative phenotype, reducing the level of native type 1 protein phosphatase activity in the cell. The truncated form of GLC7 does not suppress the regulatory defect associated with a gcn2 deletion or a mutation in the phosphorylation site of eIF-2 alpha (Ser-51). In addition, the presence of multiple copies of wild-type GLC7 impairs the derepression of GCN4 that occurs in response to amino acid starvation or dominant-activating mutations in GCN2. These findings suggest that the phosphatase activity of GLC7 acts in opposition to the kinase activity of GCN2 in modulating the level of eIF-2 alpha phosphorylation and the translational efficiency of GCN4 mRNA. This conclusion is supported by biochemical studies showing that the truncated GLC7 allele increases the level of eIF-2 alpha phosphorylation in the gcn2-507 mutant to a level approaching that seen in wild-type cells under starvation conditions. The truncated GLC7 allele also leads to reduced glycogen accumulation, indicating that this protein phosphatase is involved in regulating diverse metabolic pathways in yeast cells.
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PMID:Truncated protein phosphatase GLC7 restores translational activation of GCN4 expression in yeast mutants defective for the eIF-2 alpha kinase GCN2. 133 44

The protein kinase GCN2 stimulates expression of the yeast transcriptional activator GCN4 at the translational level by phosphorylating the alpha subunit of translation initiation factor 2 (eIF-2 alpha) in amino acid-starved cells. Phosphorylation of eIF-2 alpha reduces its activity, allowing ribosomes to bypass short open reading frames present in the GCN4 mRNA leader and initiate translation at the GCN4 start codon. We describe here 17 dominant GCN2 mutations that lead to derepression of GCN4 expression in the absence of amino acid starvation. Seven of these GCN2c alleles map in the protein kinase moiety, and two in this group alter the presumed ATP-binding domain, suggesting that ATP binding is a regulated aspect of GCN2 function. Six GCN2c alleles map in a region related to histidyl-tRNA synthetases, and two in this group alter a sequence motif conserved among class II aminoacyl-tRNA synthetases that directly interacts with the acceptor stem of tRNA. These results support the idea that GCN2 kinase function is activated under starvation conditions by binding uncharged tRNA to the domain related to histidyl-tRNA synthetase. The remaining GCN2c alleles map at the extreme C terminus, a domain required for ribosome association of the protein. Representative mutations in each domain were shown to depend on the phosphorylation site in eIF-2 alpha for their effects on GCN4 expression and to increase the level of eIF-2 alpha phosphorylation in the absence of amino acid starvation. Synthetic GCN2c double mutations show greater derepression of GCN4 expression than the parental single mutations, and they have a slow-growth phenotype that we attribute to inhibition of general translation initiation. The phenotypes of the GCN2c alleles are dependent on GCN1 and GCN3, indicating that these two positive regulators of GCN4 expression mediate the inhibitory effects on translation initiation associated with activation of the yeast eIF-2 alpha kinase GCN2.
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PMID:Mutations activating the yeast eIF-2 alpha kinase GCN2: isolation of alleles altering the domain related to histidyl-tRNA synthetases. 144 7

The discovery of cyclic AMP (cAMP) and its receptor protein in Escherichia coli and the convincing demonstration that these molecules mediate catabolite repression of the synthesis of carbohydrate catabolic enzymes led to the widespread belief that the phenomenon of catabolite repression in bacteria was understood. It is now recognized that cAMP-independent catabolite repression mechanisms are operative in both prokaryotic and eukaryotic microorganisms. New evidence has led to the identification of a diversity of cAMP-independent regulatory mechanisms that may mediate catabolite repression in bacteria. These mechanisms utilize (i) novel transcription factors, (ii) starvation-induced RNA polymerase sigma factors, and (iii) three evolutionarily distinct protein phosphorylating enzyme systems. Although these mechanisms are not fully understood, it is suggested that they exert their effects at the transcriptional level and that phosphorylation and allosteric control by regulatory proteins are involved in these processes.
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PMID:A multiplicity of potential carbon catabolite repression mechanisms in prokaryotic and eukaryotic microorganisms. 166 78

In the liver postmicrosomal supernatant of starved rats, the high-Km glucose-phosphorylating enzymic activity, presumably attributable to glucokinase, is not solely decreased but also displays an apparently lower affinity and less pronounced temperature dependency than in fed rats. In the presence of exogenous D-glucose 6-phosphate and D-fructose 6-phosphate, the rate of D-glucose phosphorylation is enhanced by D-fructose 1-phosphate at low (10 mM) but not high (90 mM) hexose concentration and at high (30-37 degrees C) but not low (10 degrees C) temperature. The responsiveness of glucokinase to D-fructose 1-phosphate is apparently decreased in starved animals. Nevertheless, the latter ester does not suppress the starvation-induced alteration in both the apparent affinity and temperature dependency of liver glucokinase. It is proposed, therefore, that such an alteration may reflect changes in the intrinsic properties of the high-Km hepatic enzyme.
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PMID:Kinetic behaviour of liver glucokinase in insulinopenic situations: effect of fructose 1-phosphate in fed and starved rats. 207 89

1. Rates of insulin secretion, glucose utilization, lactate output, incorporation of glucose into glycogen, contents of glucose 6-phosphate, fructose 1,6-diphosphate and ATP, and maximally extractable enzyme activities of hexokinase, high-K(m) glucose-phosphorylating activity (;glucokinase'), glucose 6-phosphatase and unspecific acid phosphatase were measured in isolated pancreatic islets from fed and 48-h-starved mice. 2. In the fed state insulin secretion from isolated islets was increased five- to six-fold when the extracellular glucose concentration was raised from 2.5mm to 16.7mm; 5mm-caffeine potentiated this effect. The secretory response to glucose of islets from mice starved for 48h was diminished at all glucose concentrations from 2.5mm up to approx. 40mm. Very high glucose concentrations (60mm and above) restored the secretory response to that found in the fed state, suggesting that the K(m) value for the overall secretory process had been increased (approx. fourfold) by starvation. Addition of 5mm-caffeine to islets from starved mice also restored the insulin secretory response to 2.5-16.7mm-glucose to normal values. 3. Extractable hexokinase, ;glucokinase', glucose 6-phosphatase and unspecific phosphatase activities were not changed by starvation. 4. Glucose utilization and glycolysis (measured as the rate of formation of (3)H(2)O from [5-(3)H]glucose over a 2h period) was decreased in islets from starved mice at all glucose concentrations up to approx. 55mm. At still higher glucose concentrations up to approx. 100mm, there was no difference between the fed and starved state, suggesting that the K(m) value for the rate-limiting glucose phosphorylation had been increased (approx. twofold) by starvation. Preparation of islets omitting substrates (glucose, pyruvate, fumarate and glutamate) from the medium during collagenase treatment lowered the glucose utilization measured subsequently at 16.7mm-glucose by 38 and 30% in islets from fed and starved mice respectively. Also the 2h lactate output by the islets at 16.7mm extracellular glucose was diminished by starvation. Incorporation of glucose into glycogen was extremely low, but the rate of incorporation was more than doubled by starvation. 5. After incubation for 30min at 16.7mm-glucose the content of glucose 6-phosphate was unchanged by starvation, that of ATP was increased and the concentration of (fructose 1,6-diphosphate plus triose phosphates) was decreased. 6. Possible mechanisms behind the correlated impairment in insulin secretion and islet glucose metabolism during starvation are discussed.
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PMID:The effect of starvation on insulin secretion and glucose metabolism in mouse pancreatic islets. 415 24

Activities of key enzymes in hepatic glucose utilization were compared between obese (C57BL/6J ob/ob) mice, their lean controls and outbred Swiss albino mice in the fed condition and during fasting. As liver hyperplasia and hepatocyte hypertrophy were present in the ob/ob mice at 4-5 months of age and changes in hepatic cellularity did occur with fasting, enzyme activity was expressed on the basis of protein, DNA, and wet weight. In the fed state, activities of glucokinase + hexokinase (glucose phosphorylating capability), phosphofructokinase and pyruvate kinase were significantly greater in livers of ob/ob mice when compared to those of the lean control. Glucokinase + hexokinase activities in livers of ob/ob mice remained significantly higher throughout the 48 h fast yet the activities of hepatic phosphofructokinase and pyruvate kinase, when expressed per g wet wt or mg protein, decreased so that a statistical difference from the fasted lean control was no longer detected. When expressed per 100 g body weight, hepatic glucokinase + hexokinase as well as phosphofructokinase and pyruvate kinase activities in obese mice were higher both in the fed and fasted states when compared to lean controls in the comparable nutritional condition. This increased capacity of key enzyme activities in hepatic glucose utilization can be attributed to liver hyperplasia found in ob/ob mice in both the fed and fasted condition. While higher hepatic glucose phosphorylating capability was maintained during fasting, the elevated specific activities of hepatic phosphofructokinase and pyruvate kinase in the obese mouse in the fed state decreased with starvation to values found in the lean control.
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PMID:Enzyme activities of hepatic glucose utilization in the fed and fasting genetically obese mouse at 4-5 months of age. 624 16

D. discoideum amoebae were found to phosphorylate plasma membrane proteins when intact cells were incubated with either [gamma-32P]ATP or [32P]phosphate. In the first case, the incorporation was largely a consequence of the hydrolysis of [gamma-32P]ATP, cellular uptake of the generated [32P]phosphate and its subsequent incorporation into ATP. When the contribution of this process to the phosphorylating activity of intact cells was eliminated, an ecto-protein kinase (ATP: protein phosphotransferase, EC 2.7.1.37) activity could be demonstrated. As amoebae progressed through their aggregation program, they showed a decreased ability to phosphorylate their plasma membrane when incubated with [gamma-32 P]ATP or [32P]phosphate. Analysis of ATPase activity, permeability properties and the pattern of proteins phosphorylated by intact cells and isolated plasma membranes lead to the following conclusions: the lower levels of phosphorylation observed with starved cells reflected an altered uptake of [32P]phosphate by these cells rather than a significant change in the plasma membrane protein kinase activity. Neither the substrates nor the activity of the ecto-protein kinase was dramatically altered during starvation.
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PMID:A protein kinase of the plasma membrane of Dictyostelium discoideum. 731 41

Oral vanadate administration has been demonstrated to normalize blood glucose levels in ob/ob and db/db mice and streptozotocin (STZ) diabetic rats. The exact mechanism of this vanadate effect is uncertain, since there are no consistent effects on the insulin receptor tyrosine kinase activity or phosphotyrosine phosphatase activity. We have therefore studied the postreceptor actions of vanadate, focusing our attention on the steady-state levels of mRNA of enzymes involved in carbohydrate metabolism. When compared with their lean (ob/+) controls, the livers of ob/ob mice exhibited an approximately 90% reduction in the levels of phosphoenolpyruvate carboxykinase (PEPCK) mRNA and twofold to fivefold higher levels of the mRNAs for glyceraldehyde-3-phosphate dehydrogenase (GAPDH), the "liver beta-cell" glucose transporter (GLUT2), and the proto-oncogene c-myc. Administration of sodium vanadate (0.25 mg/mL) in the drinking water of ob/ob mice over a 45-day period resulted in a near normalization of blood glucose and increased PEPCK mRNA levels more than ninefold. Starvation of the ob/ob mice for 24 to 48 hours also increased PEPCK mRNA levels by fourfold to 15-fold. Vanadate treatment did not alter mRNA levels of any other proteins studied and had no effect on PEPCK mRNA in ob/+ mice. However, 1 to 100 mumol/L vanadate produced a concentration-dependent increase in PEPCK mRNA levels in an H35 hepatoma cell line, an effect opposite to the suppression of PEPCK mRNA produced by insulin. In summary, hyperglycemia in the ob/ob mouse is characterized by decreased expression of PEPCK and increased expression of GAPDH mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vanadate normalizes hyperglycemia and phosphoenolpyruvate carboxykinase mRNA levels in ob/ob mice. 796 88

In yeast the GCN2 kinase mediates translational control of GCN4 by phosphorylating the alpha subunit of eIF-2 in response to extracellular amino acid limitation. Although phosphorylation of eIF-2 alpha has been shown to inhibit global protein synthesis, amino acid starvation results in a specific activation effect on GCN4 mRNA translation. Under the same conditions, translation of other mRNAs appears only slightly affected. The mechanism responsible for the observed selectivity of the GCN2 kinase is not clear. Here, we present genetic evidence that suggests that locally restricted action of the GCN2 kinase facilitates GCN4-specific translational regulation.
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PMID:Genetic evidence for functional specificity of the yeast GCN2 kinase. 870 69

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