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)

We review evidence for a pathway by which specific cytosolic proteins are targeted to lysosomes for degradation in cultured cells in response to serum withdrawal. This pathway is also activated by starvation in several rat tissues. The enhanced degradation is specific for a class of intracellular proteins containing peptide sequences related to residues 7 to 11 of ribonuclease A (RNase A). The amino acid sequence of this pentapeptide is lysine-phenylalanine-glutamate-arginine-glutamine, or, in single letter amino acid abbreviations, KFERQ. A heat shock protein of 73 kDa binds to such peptide regions in proteins and somehow mediates their transfer to lysosomes for degradation. The recent reconstitution of this lysosomal pathway of proteolysis in vitro should permit detailed mechanistic analysis of how proteins are directed to and translocated across lysosomal membranes.
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PMID:Targeting of cytosolic proteins to lysosomes for degradation. 207 87

Branched chain amino acids (BCAA) may serve as a major oxidative fuel for skeletal muscle during periods of starvation. This study compared the ability of protein-undernourished rats to heal musculo-aponeurotic wounds of the abdominal wall when they were infused with solutions containing 45% BCAA or 8% BCAA (conventional TPN). Although the provision of 45% BCAA tended to result in better nourished animals and significantly increased plasma glutamine concentrations, this was not associated with improved healing.
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PMID:Influence of branched chain amino acid infusions on wound healing. 211 86

Nutrition of colonic epithelial cells is mainly from short chain fatty acids (SCFAs) produced by bacterial fermentation in the colonic lumen. n-Butyrate contributes more carbon of oxidation to epithelial cells than glucose or glutamine from the vasculature. Incomplete starvation of colonic epithelial cells through lack of luminal SCFAs leads, in the short term, to mucosal hypoplasia with either diminished absorption or diarrhea. A chronic lack of SCFAs or complete organ starvation in conjunction with other factors leads to nutritional colitis, either "diversion colitis" or "starvation colitis." Whether predominantly diarrhea or colitis develops in mucosal malnutrition appears to depend upon the severity and duration of starvation. Ulcerative colitis may be classified as a nutritional colitis in that colonic epithelial cells are unable to utilize SCFAs reflecting epithelial starvation despite abundant SCFAs.
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PMID:The starved colon--diminished mucosal nutrition, diminished absorption, and colitis. 220 75

Because of the highly conserved pattern of expression of the eucaryotic heat shock genes hsp70 and hsp84 or their cognates during sporulation in Saccharomyces cerevisiae and development in higher organisms, the role of the Escherichia coli homologs dnaK and htpG was examined during the response to starvation. The htpG deletion mutant was found to be similar to its wild-type parent in its ability to survive starvation for essential nutrients and to induce proteins specific to starvation conditions. The dnaK103 mutant, however, was highly susceptible to killing by starvation for carbon and, to a lesser extent, for nitrogen and phosphate. Analysis of proteins induced under starvation conditions on two-dimensional gels showed that the dnaK103 mutant was defective for the synthesis of some proteins induced in wild-type cells by carbon starvation and of some proteins induced under all starvation conditions, including the stationary phase in wild-type cells. In addition, unique proteins were synthesized in the dnaK103 mutant in response to starvation. Although the synthesis of some proteins under glucose starvation control was drastically affected by the dnaK103 mutation, the synthesis of proteins specifically induced by nitrogen starvation was essentially unaffected. Similarly, the dnaK103 mutant was able to grow, utilizing glutamine or arginine as a source of nitrogen, at a rate approximate to that of the wild-type parent, but it inefficiently utilized glycerol or maltose as carbon sources. Several differences between the protein synthetic pattern of the dnaK103 mutant and the wild type were observed after phosphate starvation, but these did not result in a decreased ability to survive phosphate starvation, compared with nitrogen starvation.
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PMID:Role of Escherichia coli heat shock proteins DnaK and HtpG (C62.5) in response to nutritional deprivation. 225 78

The rates of processing and export of a variety of nuclear RNA species into the cytoplasmic compartment were studied by determining the rates of incorporation of tritiated uridine into nuclear and cytoplasmic RNA species. In exponentially growing cells, the rates of nuclear processing/export varied by more than a factor of ten for the six different mRNA species that were examined. Differences in the rates did not appear to be correlated with either the number or the sizes of introns in the genes for the RNA species. When cells were maintained under conditions of reduced protein synthesis (starvation for isoleucine and glutamine or exposure to cycloheximide), the processing rates for each species decreased by a factor of about 3. The decrease was not caused by the inability of hnRNA to associate with proteins, since the nuclear RNP distribution appeared normal in amino acid-starved cells.
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PMID:Delayed processing/export of messenger RNA under conditions of reduced protein synthesis. 245 24

Recently a relationship has been postulated between lowered intracellular glutamine concentrations in the skeletal muscle and the rate of protein synthesis. We investigated the effect of 48 hours of parenteral nutrition supplemented with a solution containing glutamine in free or dipeptide form (alanylglutamine or glycylglutamine) on the intracellular glutamine pool in skeletal muscle and on the hind limb exchange of glutamine in dogs with sepsis after surgery. Before surgery, dogs were fasted for 48 hours. We used glutamine dipeptides as sources because they remain stable in an aqueous solution. Nutrition solutions were isocaloric (17.8 kcal/kg body weight/day on day 1 and 35.6 kcal/kg on day 2) and isonitrogenous (0.33 gm nitrogen/kg body weight/day), providing 2.6 mmol/kg body weight/day as glutamine source. During starvation, muscular free glutamine levels decreased by 41% to 10.4 mmol/L (p less than 0.001). On the second postoperative day the dogs had lowered plasma protein levels, a sharp drop in platelet count, an increase in the leukocyte count, and positive blood cultures. None of the solutions investigated in this study was effective in repleting the glutamine pool during 2 days of postoperative nutrition (11 +/- 2.0 mmol/L without glutamine, 10.3 +/- 2.2 mmol/L with glutamine plus alanine, 9.9 +/- 1.6 mmol/L with alanylglutamine, 7.5 +/- 1.1 mmol/L with glutamine plus glycine, and 7.2 +/- 1.2 mmol/L with glycylglutamine, respectively). The release of glutamine from the hindquarter was 631 +/- 38 nmol/kg body weight/min in the control group and decreased significantly in dogs receiving alanylglutamine (13.5 +/- 45 nmol/kg body weight/min; p less than 0.001) or the constituent amino acids (265 +/- 66 nmol/kg body weight/min; p less than 0.01) but was unchanged in dogs receiving glycylglutamine or glutamine plus glycine. We conclude that the duration and dosage of glutamine administration (equivalent to 26 gm glutamine per day in a patient weighing 70 kg) used in this study are not sufficient to restore glutamine deficiency of the skeletal muscle in the depleted state.
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PMID:Glutamine-containing dipeptides as infusion substrates in the septic state. 251 Mar 34

Compounds with a reported in vivo and in vitro effect on the diabetogenicity of alloxan were studied with regard to the uptake of calcium in mouse islet mitochondria, with the aim of obtaining information on the susceptibility and selectivity of alloxan toxicity. A strong correlation was found between the uptake of calcium in mouse islet mitochondria, which is believed to be associated with the activation of oxidative enzymes involved in energy production and secretion of insulin, and the protection afforded by the injection of D-glucose, D-mannose, L-leucine and glucagon, and by the in vitro administration of cyclic AMP, L-glutamine and L-leucine. The effect of D-glucose was abolished by D-mannoheptulose. A correlation was also seen between reduced mitochondrial uptake of calcium and the potentiation of alloxan cytotoxicity afforded by 1.25-dihydroxycholecalciferol, methylene blue and menadione. The observations suggest an association between functional activity and alloxan cytotoxicity. The selectivity of the cytotoxic action of alloxan is believed to be dependent on a reduced mitochondrial uptake of calcium and an associated reduction of the energy production at low functional activity in the B-cells (e.g. in starvation which is well-known to potentiate the alloxan effect).
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PMID:Alloxan diabetogenicity: determinants of potentiation, protection and B-cell selectivity. 254 7

In submerged grown hyphae of Penicillium cyclopium the activities of seven transport systems could be distinguished which share in the uptake of L-arginine, L-glutamic acid, L-phenylalanine and L-leucine. They include the specific systems a (accepting L-arginine and L-lysine), b (L-phenylalanine, L-tyrosine), c (L-glutamic acid) and d (L-leucine), system I (a 'general amino-acid permease') and the low-affinity systems II and III, which accept acidic or basic amino acids, respectively, but also L-phenylalanine. In nutrient-sufficient cells, systems I, II and III remain repressed; uptake is dominated by the specific systems b, c, d and a, the latter reaching its maximum activity. Nitrogen starvation is the most powerful signal for the development of systems I, II and III, whereas, in carbon-starved cells, systems b, c and d reach maximum activities. The development of the general amino-acid permease in nitrogen-starved cells requires both translational and--with a few hours delay--transcriptional events as indicated by the influence of cycloheximide and 5-fluorouracil. The uptake of all amino acids is accompanied by a transient acidification of the cellular interior. Short-time preaccumulation of several anions, such as citrate, alpha-oxo-glutarate, glutamate (but not glutamine), increases the initial rate of amino-acid uptake at a pH above the optimum. Uncouplers inhibit the uptake not only under aerobic but also under anaerobic conditions, where the ATP content is not influenced by these compounds. These findings point to an H+/amino acid symport, which is tightly connected with the recycling of the incoming protons by the plasmalemma H+-ATPase.
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PMID:Kinetic properties, nutrient-dependent regulation and energy coupling of amino-acid transport systems in Penicillium cyclopium. 256 28

The arginine-independent, de novo biosynthetic pathway of pyrimidines in Dictyostelium discoideum is initiated by a class II carbamoyl-phosphate synthetase (EC 6.3.5.5) specific for pyrimidine biosynthesis which utilized L-glutamine as its N donor and was partially inhibited by both UTP and CTP. The second step in the de novo pathway was provided by an unregulated aspartate transcarbamoylase (EC 2.1.3.2) which primarily appeared as a multimeric enzyme of 105 kilodaltons. The next enzyme, dihydroorotase (EC 3.5.2.3), was approximately 90-100 kilodaltons. Although the early enzymatic activities of the pyrimidine pathway appeared to reside in independent protein complexes, various unstable molecular species were observed. These structural variants may represent proteolytic fragments of a multienzyme complex. In addition to de novo synthesis, the amoeba demonstrated the capacity for salvage utilization of uracil, uridine, and cytidine. Upon starvation on a solid substratum, axenically grown amoebas began a concerted developmental program accompanied by a restructuring of nucleotide metabolism. The absolute levels of the ribonucleotide pools droppedby 98% within 30 h; however, both the adenylate energy charge and the GTP/ATP ratios were maintained for 50 h after the initiation of development. The maintenance of these metabolic energy parameters required the tight cell-cell contact necessary for development, and the capacity for pyrimidine metabolism was maintained throughout developmental morphogenesis.
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PMID:Characterization of pyrimidine metabolism in the cellular slime mold, Dictyostelium discoideum. 256 62

The GLN1 gene of Saccharomyces cerevisiae was cloned by complementation of a gln1 auxotroph. A GLN1-lacZ fusion was constructed to assay GLN1 promoter activity. beta-Galactosidase and glutamine synthetase expression in chromosomally integrated GLN1-lacZ fusion strains were co-regulated in response to a shift from glutamine to glutamate as the nitrogen source, purine limitation, and 3-aminotriazole-induced histidine starvation. Regulation of GLN1 expression by each of the three pathways occurred at the transcriptional level. Increased accumulation of GLN1 mRNA was observed within 5 min after a shift from glutamine to glutamate as the nitrogen source. After 5 min, GLN1 mRNA levels were constant. The level of GLN1 transcript was reduced by approximately 75% within 5 min following glutamine addition to the cells growing with glutamate as nitrogen source. This indicates that the GLN1 message is unstable and has a half-life of approximately 3 min. Deletion analysis indicated that the sequences required for GLN1 expression are located within approximately 350 bp upstream from the transcriptional initiation site.
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PMID:Three regulatory systems control expression of glutamine synthetase in Saccharomyces cerevisiae at the level of transcription. 257 Mar 48

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