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)

Mutants have been isolated in S. cerevisiae with the phenotype of growth on pyruvate but not on glucose, or growth on rich medium with pyruvate but inhibition by glucose. Screening of mutagenized cultures was either without an enrichment step, or after enrichment using the antibiotic netropsin (Young et al. 1976) or inositol starvation (Henry, Donahue and Culbertson 1975). One class of mutants lacked pyruvate kinase (pyk), another class had all the enzymes of glycolysis, and one mutant lacked phosphoglucose isomerase (pgi, Maitra 1971). Partial reversion of pyruvate kinase mutants on rich medium containing glucose gave double mutants now also lacking hexokinase (hxk), phosphofructokinase (fk), or several enzymes of glycolysis (gcr). In diploids the mutations were recessive. pyk, pgi, pfk, and gcr segregated 2:2 from their wild-type alleles. PYK hxk, PYK pfk, and PYK gcr segregrants grew on glucose.
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PMID:Glycolysis mutants in Saccharomyces cerevisiae. 14 95

Marked stimulation of liver DNA synthesis was observed in rats given an isolated glucose or fructose diet for 4 days and theen refed one day on diets with different protein contents. The strongest stimulatn effect was found in rats refed, after an isolated glucose intake, with a high protein diet (81 cal%). The stimulant effect of refeeding on liver DNA synthesis was far less pronounced in rats subjected to several days' starvation before realimentation than in rats given a carbohydrate diet. The stimulant effect of realimentation after an isolated glucose intake was distinctly enhanced if triiodothyronine (50 microgram/100 g b.w., i.g.) was administered just before the change to a high protein diet. The increase in liver DNA synthesis in rats fed three days on fructose before undergoing partial hepatectomy was the same as in the controls. In rats given glucose prior to partial hepatectomy, the post-operative increase in DNA synthesis was partly inhibited.
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PMID:Effect of realimentation after several days' isolated glucose or fructose intake on DNA synthesis in rat liver. 15 Dec 95

In exponentially growing cultures of Neurospora crassa, the basal rate of protein degradation increases as the constant of the rate of growth decreases, so that in slow growing cells (mu = 0.13) the rate of protein degradation is about 25% of the rate of protein accumulation. During glucose starvation and shift-down transition of growth, the rate of protein degradation is greatly enhanced, and a moderate reduction (about 30%) of the ATP level is observed. Treatment of glucose-starved cells with 2-deoxyglucose reduces the ATP content by 70% and blocks protein degradation. The addition of cycloheximide, given at the onset of glucose starvation, prevents the enhancement of protein degradation; instead cycloheximide is without effect if added when proteolysis has already started. At a supraoptimal temperature (42 degrees C) the basal rate of protein degradation is not stimulated, contrary to the behavior observed in bacteria. Guanosine nucleotides, which appear to have a regulatory role for protein degradation in bacteria, are not found in N. crassa.
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PMID:Intracellular protein degradation in Neurospora crassa. 15 25

Experiments designed to determine whether the role of glucocorticoid (GC) in the induction of the enzyme overshoot response to starvation-refeeding was direct or permissive through insulin were conducted. Intact, adrenalectomized (ADX), and streptozotocin (STREP) treated rats with or without insulin and/or GC replacements were starved for 48 hours and refed a 65% glucose diet for 48 hours. The typical enzyme overshoot response to starvation-refeeding was observed in the intact rats, ADX rats given GC, STREP rats given insulin and ADX-STREP rats given glucocorticoid plus insulin. No overshoot was observed if glucocorticoid was absent whereas a modest increase in enzyme activity could be observed in insulin deficient rats treated with GC.
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PMID:Interaction of glucocorticoid and insulin in the responses of rats to starvation-refeeding. 15 37

In conditions of glucose starvation, the maximum velocity of the mediated transport of nonmetabolized and metabolized amino acids, uridine, adenosine, and sucrose across the plasma membrane is stimulated by a factor of two by the addition of 1 mM adenosine 3':5'-monophosphate to Schizosaccharomyces pombe 972h- wild strain, to the glucose-super-repressed and derepressed mutants COB5 and COB6, and to Saccharomyces cerevisiae strain IL 216-IA. The mediated uptake of 2-D-deoxyglucose and the apparently nonmediated uptake of guanosine are not stimulated by the cyclic nucleotide. N6,O2'-Dibutyryl adenosine 3':5'-monophosphate is also efficient, whereas theophylline, guanosine 3':5'-monophosphate, 5'-AMP, ATP, and adenosine are ineffective. The cellular ATP content of glycerol-grown S. pombe COB5 is about 10 nmol per mg of protein and is not decreased by further incubation in the starvation medium. The addition of 100 mM glucose markedly enhances transport without any increase of the cellular ATP content. The addition of antimycin A or Dio-9 decreases markedly both cellular ATP content and transport. The addition of 2.5 mM glucose to antimycin A-containing medium restores both transport is not necessarily of mitochondrial origin. The uptake of 2-D-deoxyglucose is unaffected by the respiratory inhibitors. Stimulation of uptake by cyclic adenosine 3':5'-monophosphate occurs only in glucose-deprived cells. The addition of 10 mM glucose elicits the disappearance of the stimulation and prevents the 30% decrease of the cellular adenosine 3':5'-monophosphate content produced by glucose starvation. Adenosine 3':5'-'monophosphate does not enhance the steady state ATP level but requires cellular ATP produced either by endogenous respiration or, in the absence of respiration blocked by antimycin A, by further addition of 2.5 mM glucose. Stimulation of active uptake by adenosine 3':5'-monophosphate does not require protein synthesis because the addition of cycloheximide or anisomycin does not prevent the stimulation of L-leucine uptake. In the absence of respiration, Dio-9, and ATPase inhibitor, suppresses instantaneously the cellular ejection of protons as well as the uptake of uridine and amino acids. It abolishes also the adenosine 3':5'-monophosphate-stimulated transport. In the presence of antimycin A, specific mitochondrial ATPase inhibitors such as venruricidin A do not inhibit metabolite uptakes and their stimulation by adenosine 3':5'-monophosphate. These results suggest that in these conditions, the target of Dio-9 is not the mitochondrial ATPase but a plasma membrane proton-translocating function generating an electrochemical gradient required for active transport. That adenosine 3':5'-monophosphate enhances the Dio-9-sensitive proton extrusion supports the view that the cyclic nucleotide might modulate the plasma membrane ATPase.
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PMID:Stimulation of active uptake of nucleosides and amino acids by cyclic adenosine 3' :5'-monophosphate in the yeast Schizosaccharomyces pombe. 16 26

We studied the effect of glucose starvation on glucose uptake and thymidine uptake and incorporation in cultures of normal chicken embryo cells and those transformed by Rous sarcoma virus. Resting normal fibroblasts increased the rate of glucose transport up to tenfold when they were starved for glucose, whereas fast-growing normal cells doubled the rate of uptake after starvation. Transformed cells did not show any change in the rate of glucose uptake during starvation. Thymidine uptake and incorporation by normal and transformed cells were not affected by glucose starvation. These results showed that a decrease in the glucose concentration of the medium induced a specific increase in the rate of glucose transport by normal chick fibroblasts, but did not change the transport of glucose by transformed cells. Therefore, it is suggested that glucose or one of its metabolic products regulated the hexose uptake of normal chick fibroblasts. Virus-transformed cells were insensitive to this regulation.
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PMID:Effects of glucose starvation on normal and rous sarcoma virus-transformed chick cells. 16 6

It was previously shown that phosphatidylinositol catabolism leads to the accumulation of glycerophosphorylinositol in the culture medium of Saccharomyces cerevisiae. We now find that lack of an energy source (glucose) reduces the formation of glycerophosphorylinositol and increases extra-cellular inositol. This situation is reversed by refeeding glucose. [3H]Phosphatidylinositol is the precursor of extra-cellular [3H]inositol with energy-starved cells. Extracellular glycerophosphorylcholine and glycerophosphorylethanolamine accumulate more slowly than glycerophosphorylinositol in the growth medium and do not appear to be a strongly affected by energy starvation. Phosphatidylinositol deacylation appears to occur at the cell surface in a regulated manner. Exogenously added phosphatidylinositol apparently does not mix randomly with the endogenous pool since it is not converted to either inositol-containing sphingolipid or to diphosphoinositide, both previously shown to be derived in part from cellular phosphatidylinositol. Labeled exogenous phosphatidylinositol is, however, quantitatively converted to glycerophosphorylinositol with the probable intermediat formation of monoacyl-glycerophosphorylinositol. Breakdown of exogenous phosphatidylinositol requires an energy source and does not lead to free inositol. Deacylation of exogenously added 1-acyl-glycerophosphorylinositol occurs much faster than deacylation of phosphatidylinositol and does not require an energy source. Glycerophosphorylethanolamine formation from exogenous phosphatidylethanolamine occurs about as fast as the breakdown of phosphatidylinositol and is also inhibited in the absence of energy source. The much slower deacylation of exogenous phosphatidylcholine was also affected by an energy source. Glycerophosphorylinosiyolaccumulates in the culture medium of Kloeckera apiculata, Saccharomyces carlsbergenis, and Neurospora crassa.
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PMID:The regulated catabolism of endogenous and exogenous phosphatidylinositol by Saccharomyces cerevisiae leading to extracellular glycerophosphorylinositol and inositol. 16 87

By means of the microdissection technique applied on kidney tissue, the following results were obtained: Hexokinase, an enzyme of glycolysis, revealed a low activity in the proximal and a high activity in the distal tubule. This distribution pattern is consistent with the finding that glucose is the main fuel for the distal tubule. Glucose-6-phosphatase, an enzyme of gluconeogenesis, demonstrates a significant activity in the distal tubule and in the glomerulus. Both structures are, however, no glucose producers. Phosphoenolpyruvate carboxykinase, the key enzyme of gluconeogenesis, is found only in the segments of the proximal tubule. The distal tubule lacks any activity. This is also the case during starvation and metabolic acidosis when gluconeogenesis is stimulated. Glutamic dehydrogenase, -an enzyme possibly connected with ammoniagenesis-, malate- and lactate dehydrogenase-, enzymes involved with hydrogen transfer through the mitochondrial membrane-, showed a close parallelism to phosphoenolpyruvate carboxykinase in their distribution along the proximal tubule. The bidirectional function of glyceraldehyde-P dehydrogenase is well documented by the close correlation to phosphoenolpyruvate carboxykinase (gluconeogenesis) in the proximal tubule and to pyruvic kinase (glycolysis) in the distal tubule.
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PMID:Metabolic patterns in various structures of the rat nephron. The distribution of enzymes of carbohydrate metabolism. 17 83

When washed spleen slices from fed rats are incubated with 3 mm-[U-14C]glucose, the rate of glucose utilization (46.2 mumol/h per g dry wt.) is sufficient to account, theoretically, for 80% of the O2 consumption. Measurement of net lactate production, however, and the fate of the radioactive carbon, indicates that the contribution of glucose to the respiratory fuel of the tissue is only 25-30% whereas 60-70% of the glucose utilized is converted into lactate. At saturating glucose concentrations (above 5 mm) its contribution to the respiratory fuel of the slice is increased to a maximum value of 34-39%. Only 2% of the glucose utilized is metabolized via the oxidative steps of the pentose phosphate pathway. Starvation for 72 h marginally increases both the rate of glucose utilization (by 21%) and its net contribution to the respiratory fuel (by 29%). Insulin, glucagon, adrenaline and adenosine 3':5'-cyclic monophosphate have no significant effect on either the rate of glucose utilization or on the pattern of radioactive isotope distribution. The uptake of glucose is increased by only 20%, whereas the production of lactate doubles when slices are incubated under anaerobic conditions. In assessing the suitability of spleen slices for metabolic studies, the only serious major perturbation, compared with the freeze-clamped organ, is an elevated mitochondrial [NAD+]/[NADH] ratio (connected with increased endogenous NH3 production) that is partially restored to normal values on incubation with glucose. Equal proportions of erythrocytes and leucocytes are found in the washed spleen slice. Metabolic contributions of the constituent cell populations in the washed slice are calculated and it is concluded that lymphocytes account for the major part of the glycolytic metabolism (80-90%), whereas the contribution of erythrocytes is insignificant.
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PMID:Regulation of carbohydrate metabolism in lymphoid tissue. Quantitative aspects of [U-14C]glucose oxidation by rat spleen slices. 17 88

Anaerobic incubation of rabbit reticulocytes at 37 degrees C in Krebs-Ringer solution supplemented with hemin but devoid of glucose resulted at the end of 1-2h in a drastic decline of their ATP content and an attendant arrest of protein synthesis. Subsequent provision of glucose and reoxygenation of the cells was followed by a rapid replenishment of the ATP pool, while resumption of protein synthesis was markedly delayed. This lag period could be considerably reduced by addition of 5-10 mM adenine or 2,6-diaminopurine to the incubation medium. Lysates prepared from ATP-depleted cells exhibited disaggregation of the polysomes and an inhibition of the nedogenously coded protein synthesis, when tested in a cell-free system supplied with an adequate ATP generator. Both alterations increased in severity with the progressive decay of the intracellular ATP pool. The early phase of partial inhibition following a 40-70% decrease of the cellular ATP level was fully reversible by fortifying the cell-free preparation with dithiothreitol or a suitable NADPH-generating system. Aternative, the inhibition could be also overcome by millimolar amounts of adenine, 2,6-diaminopurine and a variety of other purine derivatives or cyclic AMP. The effect of these compounds was unrelated to the endogenous cyclic AMP pool. Joint addition of both dithiothreitol and cyclic AMP or adenine was necessary for relieving the initiation block in lysates derived from cells depleted of 80-90% of their ATP content. On further aggravating the conditions of energy starvation, an additional requirement for phosphorylated sugars, e.g. glucose 6-phosphate or fructose 1,6-diphosphate, became apparent. ATP depletion brought about by exposing the cells to Antimycin A or 2,4-dinitrophenol resulted in a lesion which was indistinguishable from that induced by anaerobic incubation. On the other hand, energy deprivation in cell-free lysates from untreated reticulocytes, preincubated in the absence of an ATP-generating system failed to duplicate the deleterious effect of intracellular ATP depletion. Some aspects bearing on the biochemical mechanism of the lesion and its reversal are discussed in the light of the available data.
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PMID:Inhibition of peptide chain initiation in lysates from ATP-depleted cells.I. Stages in the evolution of the lesion and its reversal by thiol compounds, cyclic AMP or purine derivatives and phosphorylated sugars. 17 93

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