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)

In chick embryo fibroblast cultures the 15- to 30-fold enhancement of D-glucose uptake observed when cells are starved of glucose for 24 hours is not duplicated for derivatives of glucose that compete effectively for uptake and have generally been considered to use the same carrier. 2-deoxy-D-glucose, D-mannose, D-galactose and D-glucosamine are derepressed progressively less sharply in that order with glucosamine uptake never more than doubled by starvation. D-glucose at a concentration of 5.5 mM in the 24-hour conditioning medium is a strong "repressor" resulting in low "transport" behavior for each of the five sugars cited. D-glucosamine is equally effective at the same concentration. A 10-fold reduction in the concentration of glucosamine (0.55 mM) allows for the escape from repression of mannose, glucose, and deoxyglucose uptake while the others remain repressed. Mannose uptake escapes as well when the glucose concentration in the "conditioning" medium is similarly reduced. Under certain conditions of starvation and cell density dramatic effects of supplemental stimulation by insulin can be achieved. Insulin withdrawal interrupts the supplemental stimulation process. Cycloheximide, actinomycin D and cordycepin block both non-insulin and insulin-induced derepression. Short exposure (15-30 minutes) of 24-hour starved cells to glucose (5.5 mM) reduces glucose sharply but does not affect 3-O-methyl glucose uptake. If the exposure is to 2-deoxyglucose (5.5 mM) further derepression of glucose uptake results.
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PMID:Transport enhancement and reversal: glucose and 3-O-methyl glucose. 30 Nov 42

A mutant of Bacillus subtilis which grew in complex medium at 30 degrees C but lysed at 45 degrees C has been isolated. It could only grow on minimal medium at 45 degrees C with added aspartate (20 microgram ml-1) but lysed if lysine (20 microgram ml-1) was also present. The requirement for aspartate was due to a low activity of pyruvate carboxylase; the site of the mutation (pyc) was linked (16% cotransducible using phage PBSI) to the pyrD locus, and the order of markers deduced was: pyrD-cysC-pyc. This defect appeared to lead to decreased synthesis of mesodiaminopimelic acid (mesoA2pm), an amino acid unique to peptidoglycan and its precursors. At the restrictive temperature the mutant accumulated uridine-5'-diphosphate N-acetylmuramyl-L-alanyl-D-glutamate, since meso A2pm is the next amino acid to be added to the growing peptide chain of peptidoglycan. This resulted in an inhibition of peptidoglycan synthesis, determined as a reduced incorporation of N-acetyl[14C]glucosamine. Peptidoglycan synthesis was not decreased if the mutant was grown in media containing aspartate but lacking lysine. The sensitivity to lysine may arise because (i) at 45 degrees C the mutant was starved for aspartate and hence mesoA2pm even when aspartate was present, since aspartate utilization, as estimated by the incorporation of [3H]aspartate into trichloroacetic acid precipitable material, was relatively inefficient; and (ii) this diminished level of mesoA2pm synthesis from aspartate was further curtailed since lysine inhibits one of the aspartokinases in B. subtilis. Thus, addition of lysine allowed protein synthesis and hence autolysin production to proceed whilst peptidoglycan synthesis remained inhibited. When autolysis was blocked, either indirectly by stopping protein synthesis through starvation of aspartate and lysine, or directly by introducing a lyt mutation, then shifting the mutant to 45 degrees C did not result in lysis but growth still ceased.
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PMID:A heat-sensitive lysis mutant of Bacillus subtilis 168 with a low activity of pyruvate carboxylase. 41 47

Bdellovibrio peptidoglycan is of typical gram-negative composition. The molar ratios of alanine:glutamic acid:diaminopimelic acid:muramic acid:glucosamine were about 2:1:1:1:1. Nascent, nongrowing Bdellovibrio bacteriovorus 109J were converted from highly motile vibrios to highly motile spheres when shaken in dilute buffer plus penicillin, cephalothin, bacitracin, or D-cycloserine. The spherical forms contained essentially no sedimentable peptidoglycan; i.e., they were spheroplasts. Spheroplasts induced by penicillin, D-cycloserine, and lysozyme were stable in dilute buffer and did not lyse when subjected to osmotic shock. Normal Bdellovibrio suspended in buffer turned over their peptidoglycan at a rate of approximately 30% h during the initial 120 min of starvation. Chloramphenicol and sodium azide strongly inhibited Bdellovibrio peptidoglycan turnover and the induction of spheroplasts by penicillin. The data indicate that nongrowing B. bacteriovorus are sensitive to penicillin and other antibiotics affecting cell walls because of their high rate of peptidoglycan turnover. It is also concluded that an intact peptidoglycan layer is required for maintaining cell shape, but is not required for osmotic stability of B. bacteriovorus.
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PMID:Penicillin-induced formation of osmotically stable spheroplasts in nongrowing Bdellovibrio bacteriovorus. 64 Oct 13

Starvation of a mouse hepatoma cell line, Hepa, for any essential amino acid results in the mono-ADP-ribosylation of an 80-kDa protein, P80. The ADP-ribose acceptor and its putative precursor were identified in two-dimensional gel patterns and isolated by electroelution. Amino-terminal sequence analysis showed they were the 78-kDa glucose-regulated protein, GRP78. Starvation of Hepa cells for tryptophan or glucose stimulated the relative rate of synthesis, and the ADP-ribosylation of GRP78. Inhibition of N-linked glycosylation by treatment with tunicamycin, 2-deoxy-D-glucose or glucosamine stimulated the synthesis of non-ADP-ribosylated GRP78 up to sixfold with relatively little effect on its ADP-ribosylation. Both forms were identified in mouse liver, lung, heart, kidney, spleen and brain.
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PMID:ADP-ribosylation of the 78-kDa glucose-regulated protein during nutritional stress. 251 84

Conditions, such as anoxia or glucose starvation, which induce the glucose-regulated set of stress proteins also lead to resistance to adriamycin (J. Shen, C. Hughes, C. Chao, J. Cai, C. Bartels, T. Gessner, and J. Subjeck, Proc. Natl. Acad. Sci. USA 84:3278-3282, 1987) and etoposide. We report here that chronic anoxia, glucose starvation, 2-deoxyglucose, the calcium ionophore A23187, glucosamine, ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA), and tunicamycin (all specific inducers of the glucose regulated system) lead to a rapid and selective depletion of topoisomerase II from isolated nuclei of Chinese hamster ovary cells. This effect precedes a decline in tritiated thymidine incorporation and a redistribution of cells from S into G1/G0. The depletion of the enzyme is not accompanied by a decline in mRNA levels. We have also examined the mutant Chinese hamster K12 cell line which is temperature sensitive for expression of glucose-regulated proteins. When nuclei were isolated from K12 cells incubated at the nonpermissive temperature, a loss of topoisomerase II was again observed in congruence with the expression of stress proteins and cellular resistance to etoposide. These changes were not obtained in parental Wg1A cells incubated at the same temperature. These studies indicate that topoisomerase II is highly sensitive to glucose-regulated stresses and that its depletion from the nucleus, with the associated changes in cell cycle parameters, may represent general characteristics of the glucose-regulated state. Since anoxia and glucose starvation can occur during tumor development, this pathway for expression of drug resistance may have clinical ramifications.
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PMID:Depletion of topoisomerase II in isolated nuclei during a glucose-regulated stress response. 255 89

To study the properties of protein-bound oligosaccharides in neuronally differentiating cells, two model systems were used: murine N1E-115 and N-18 neuroblastoma cells inducible by serum starvation and rat PC12 pheochromocytoma cells inducible by nerve growth factor. Glycopeptides were prepared from cells metabolically labeled with [3H]glucosamine and analyzed by gel filtration. The properties of the high-molecular-weight glycopeptides were studied using enzymatic digestion with neuraminidase and endo-beta-galactosidase. In contrast to other cell lines analyzed, the neuroblastoma and pheochromocytoma lines contained predominantly glycopeptides completely cleavable with endo-beta-galactosidase, which indicated that they were linear-type poly-N-acetyllactosamine glycans. The proportion of these linear chains in the high-molecular-weight fraction increased during neuronal differentiation in both cell systems. The linear nature of the glycans was also correlated with positive anti-i and negative anti-I reactivity of the cells in immunofluorescence microscopy. Specific cell surface labeling for poly-N-acetyllactosamine glycans and sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed several glycoprotein components, some of which showed changes during neuronal differentiation. The high proportion of linear poly-N-acetyllactosamine chains in these neuronal cell lines and its increase during neuronal differentiation suggests that these glycans may be a characteristic feature of neuronal or neuronally differentiating cells.
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PMID:Poly-N-acetyllactosamine glycans of cellular glycoproteins: predominance of linear chains in mouse neuroblastoma and rat pheochromocytoma cell lines. 330 6

The formation of the oligosaccharide-lipid intermediates of the dolichol pathway by the bovine retina was investigated. Intact retinas were incubated in vitro for various periods of time in the presence of a variety of radioactive sugars (2-[3H]mannose, 6-[3H]glucose, 1-[3H]galactose, 1-[14C]glucosamine) using incubation conditions which have been shown previously to support the glycosylation of rhodopsin. The oligosaccharide-lipids were isolated and partially purified by DEAE cellulose chromatography. After mild acid hydrolysis and reduction, the oligosaccharides were analysed by HPLC. Further identification was obtained by chemical means and after digestion of the oligosaccharides with alpha-mannosidase and endohexosaminidase H. The full array of oligosaccharide-lipids which have been observed in other tissues were detected in the bovine retina, although some striking differences were seen in their relative distribution. Although short-term incubations (up to 15 min) indicated that the major species was the fully glucosylated oligosaccharide-lipid (Glc3Man9GlcNAc2), with longer incubation times the non-glucose-containing intermediate, Man9GlcNAc2, became the predominant species. Since glycerol was the carbon source for these incubations, the possibility was investigated that glucose starvation may have been the basis for this phenomenon, as has been reported in other tissues. It was established that this was not the case. Experiments carried out in the presence of castanospermine and bromoconduritol indicated that alpha-glucosidase activity in the retina may have resulted in the accumulation of the unglucosylated oligosaccharide-lipids. The formation of oligosaccharide-lipid intermediates by cells of the retinal pigment epithelium from the embryonic chick, maintained in cell culture, was also examined. In contrast to the bovine retina, the major species present were the glucose-containing intermediates, similar to other tissues.
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PMID:The dolichol pathway in the retina: oligosaccharide-lipid biosynthesis. 338 23

A marine Pseudomonas sp. S9 produced and released an extracellular polysaccharide during complete energy and nutrient starvation in static conditions. The presence of the polysaccharide on the cell surface, demonstrable by immune transmission electron microscopy, correlated with changes in the degree of adhesion to hydrophobic surfaces. Polysaccharide coated cells showed a lower degree of adhesion than did cells devoid of the polymer. After 10 h of starvation, no ruthenium red stained antibody stabilized polysaccharides could be observed on the cell surface. The polysaccharide was not produced during growth since lysates of mid-log phase cells did not precipitate the antiserum. The relative proportions of sugars in the polysaccharide were 28% glucose, 35% N-acetyl-glucosamine and 37% N-acetylgalactosamine. The released polysaccharide did not significantly alter the physical parameters of surface tension and viscosity of the starvation regime. Cells starved in agitated conditions did not produce any extracellular polysaccharides and exhibited a different adhesion pattern to hydrophobic surfaces.
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PMID:The production and release of an extracellular polysaccharide during starvation of a marine Pseudomonas sp. and the effect thereof on adhesion. 376 71

The antibiotic streptozotocin under a variety of growth conditions rapidly and irreversibly inactivates the capacity to divide or to form colonies of a series of sensitive bacteria, containing the phosphoenolpyruvate-dependent sugar-phosphotransferase system. Cells can be sensitized towards the drug by pregrowth in N-acetyl-glucosamine and can be protected by adding this amino-glucoside to the medium. Starvation for energy, especially for phosphoenolpyruvate, or prevention of the induction of a transport system involved in streptozotocin uptake will protect the cells, while a block in protein synthesis does not. The killed cells neither lyse, nor are they transformed into spheroplasts. At first, the capacity of such "dead" cells to respire, to swim actively or to keep the cytoplasmic membrane impermeable for small molecules remains intact. Their capacity for over-all RNA and protein synthesis, and for carbohydrate and amino acid uptake by facilitated diffusion or active transport is not affected. However, they loose rapidly their ability to take up carbohydrates by the phosphoenolpyruvate dependent process of group translocation or to synthesize inducible enzymes, e.g. the enzyme beta-galactosidase. These inhibitory effects apparently are caused by the accumulation of phosphorylated, toxic derivatives of the antibiotic and eventually lead to a pronounced bacteriostasis. Killing of the cells seems to be caused by a direct effect of the strongly mutagenic drug on replicating DNA.
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PMID:Analysis of the physiological effects of the antibiotic streptozotocin on Escherichia coli K 12 and other sensitive bacteria. 645 3

We previously reported that growth of influenza virus in the presence of cytochalasin B (CB), a drug that disrupts microfilaments and blocks hexose transport, yields particles with glycoproteins that are heterogeneous and unlabeled by [3H]glucosamine. When the virus was grown in glucose-free medium, we observed reduced virus titers similar to those produced by CB. In contrast, treatment of cells with cytochalasin D (CD) and dihydrocytochalasin B (H2CB), drugs which are known to inhibit microfilament function without affecting hexose transport, did not cause a reduction in virus titers or a change in the electrophoretic mobility of viral glycoproteins. Partial inhibition of glycosylation of viral glycoproteins resulting from either CB-induced inhibition of hexose transport or from glucose starvation resulted in the formation of aggregates of virions on cell surfaces. These aggregates can be dissociated by exogenous neuraminidase. Under these conditions the virions contained a functional hemagglutinin glycoprotein (HA) but an inactive neuraminidase glycoprotein (NA) which was not able to cleave sialic acid, the HA receptor, from viral glycoproteins, or from cellular glycoproteins and glycolipids. Neuraminidase treatment of membrane fractions of CB-treated cells did not cause a shift in the electrophoretic mobility of HA or in the gel elution profile of HA glycopeptides obtained after extensive pronase digestion from HA synthesized in glucose-free medium. These findings suggest that sialic acid is not present on labeled glycoproteins in either of these preparations. We obtained evidence that the sialic acid to which HA binds when NA is inactive is on glycoproteins and glycolipids of cellular origin. Our results support the idea that even when NA is functional, sialylated cellular components impede influenza virus release.
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PMID:Effects of hexose starvation and the role of sialic acid in influenza virus release. 683 15

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