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)

Growth of Halobacterium halobium under illumination with limiting aeration induces bacteriorhodopsin formation and renders the cells capable of photophosphorylation. Cells depleted of endogenous reserves by a starvation treatment were used to investigate the means by which energy is coupled to the active transport of [14C]proline, -leucine, and -histidine. Proline was readily accumulated by irradiated cells under anaerobiosis even when the photophosphorylation was abolished by the adenosine triphosphatase inhibitor N,N'-dicyclohexylcarbodimiide (DCCD). The uptake of proline in the dark was limited except when the cells were allowed to accumulate adenosine 5'-triphosphate (ATP) by prior light exposure or by the oxidation of glycerol. DCCD inhibited this dark uptake. These findings essentially support Mitchell's chemiosmotic theory of active transport. The driving force is apparently the proton-motive force developed when protons are extruded from irradiated bacteriorhodopsin or by the dydrolysis of ATP by membrane adenosine triphosphatase. Carbonylcyanide m-chlorophenylhydrazone (CCCP), a proton permeant known to abolish membrane potential, was a strong inhibitor of proline uptake. Leucine transport was also apparently driven by proton-motive force, although its kinetic properties differed from the proline system. Histidine transport is apparently not a chemiosmotic system. Dark- or light-exposed cells show comparable initial rats of histidine uptake, and these processes were only partially inhibited by DCCD or CCCP. The histidine system apparently does not utilize ATP per se since comparable rates of uptake were exhibited by cells of differing intracellular ATP levels. Irradiated cells did effect a greater total accumulation of histidine than dark-exposed cells. These findings suggest that ATP is needed for sustained transport.
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PMID:Energy coupling in the active transport of amino acids by bacteriohodopsin-containing cells of Halobacterium holobium. 12 52

Examination of the transfer ribonucleic acid (tRNA) produced by starving, relaxed-control (rel minus) strains of Escherichia coli for required amino acids revealed the occurrence of a number of chromatographically unique subspecies. Leucine starvation results in the formation of new isoacceptor species of leucine-, histidine-, arginine-, valine-, and phenylalanine-specific tRNA and quantitative changes in the column profiles of serine, glycine, and isoleucine tRNA. Evidence that the unique tRNA species are synthesized de novo during amino acid starvation comes from the findings that the major unique leucine isoacceptor species is not formed in stringent control cells or in rel minus cells starved for uracil or treated with rifampin. Furthermore, heat treatment of the unique leucine tRNA does not alter its chromatographic behavior, indicating that the species is not an aggregate or nuclease-damaged form of a normal isoacceptor tRNA. The methyl acceptor activities of tRNA from leucine-starved and nonstarved rel+ or rel minus cells were found to be essentially the same. This result and the finding that the chromatographic behavior of the unique leucine-specific tRNA was not altered after treatment with tRNA methylase suggests that gross methyl deficiency is probably not the biochemical basis for the occurrence of the unique species.
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PMID:Formation of chromatographically unique species of transfer ribonucleic acid during amino acid starvation of relaxed-control Escherichia coli. 109 55

In the rat, starvation lowers jejunal sucrase activity and increases or has no effect upon jejunal lactase activity. The mechanism by which starvation influences these intrinsic microvillus proteins remains unclear. Jejunal sucrase and lactase activities were studied during starvation or refeeding after a three-day fast. Using polyclonal monospecific antibodies, sucrase-isomaltase (SI) and lactase-phlorizin hydrolase (LPH) protein contents were measured in parallel to determine changes in enzyme activation. Sucrase activity and SI protein fell after two and three days of fasting and rose during refeeding. In contrast, lactase activity and jejunal LPH content increased after starvation and decreased after refeeding for 48 hr. For both enzymes, changes in catalytic activity and protein content occurred in parallel. [3H]Leucine incorporation studies in vivo showed more labeling of immunoprecipitable LPH than SI during starvation, but refeeding induced relatively more labeling of SI than of LPH. Therefore, starvation and refeeding produce opposing effects upon jejunal lactase and sucrase activities by modulating LPH and SI protein production and not by modifying enzyme activation.
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PMID:Effects of starvation and refeeding on jejunal disaccharidase activity. 158 86

The activation state of branched-chain alpha-keto acid dehydrogenase (BCDH) was studied in rat hindlimb muscles during starvation and insulinopenic diabetes, conditions in which circulating branched-chain amino acids (BCAA) are increased and their oxidation is accelerated. Muscle BCDH is predominantly inactive (phosphorylated) in postabsorptive rats but is activated by increased circulating leucine. Diabetes (streptozotocin-induced and spontaneous BB/W) increased circulating BCAA four- to fivefold and BCDH activity approximately threefold. Insulin treatment caused near normalization of circulating BCAA without correcting BCDH activity. Adrenalectomy of diabetics decreased (without normalizing) circulating BCAA and BCDH activation. Starvation caused mild, progressive increases in circulating BCAA and significant activation of BCDH only after 4 days. Leucine infusion activated BCDH in muscle but the activation by leucine was markedly blunted by diabetes. In isolated perfused hindlimbs (control and diabetic) insulin did not affect BCDH significantly; perfusion with leucine activated BCDH, and this response appeared blunted in diabetics. Activation of muscle BCDH may contribute to increased BCAA catabolism in diabetes; the blunted activation response to hyperleucinemia may spare BCAA and contribute to their persistent elevation in plasma.
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PMID:Effects of diabetes and starvation on skeletal muscle branched-chain alpha-keto acid dehydrogenase activity. 296 88

A colorimetric method for the determination of lipid phosphorus in the nanomolar range was used to determine the total phospholipid content of isolated pancreatic islets. Freshly isolated islets of lean C57BL/6J mice contained significantly more phospholipids expressed per micrograms DNA as compared to C57BL/6J (ob/ob) mouse or Wistar rat islets. Starvation for 48 h (Wistar rats) or 60 h (NMRI mice) did not affect the islet phospholipid content. Phosphatidylcholine was the most abundant phospholipid class of NMRI mouse islets, followed by phosphatidylethanolamine, sphingomyelin, phosphatidylinositol, phosphatidylserine and lysophosphatidylcholine. When islets of NMRI mice were maintained for 5-7 days in tissue culture, the phospholipid content remained unchanged as compared to that of freshly isolated islets despite a considerable loss of the insulin stores. The islet phospholipid content was significantly increased when the glucose concentration of the culture medium was elevated from 3 to 28 mM. Leucine (10 mM) added to a low-glucose medium failed to increase the islet phospholipid content. Addition of glipizide (2 microM) to the culture medium decreased the islet insulin content significantly but failed to affect the total islet phospholipid content. Culture in a Ca2+-free medium containing 28 mM glucose increased the islet insulin content but, again, the phospholipid content remained unaffected. These data show that changes of the total phospholipid content of pancreatic islets are unrelated to the islet insulin content and presumably also to the content of secretory granules. Alterations of the islet content of phospholipids may rather reflect changes of the amount of endoplasmic reticulum of the islet cells.
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PMID:Effects of starvation and different culture conditions on the phospholipid content of isolated pancreatic islets. 639 54

Weanling rats were used to examine the role of leucine in in vitro protein turnover in skeletal muscles. In three experiments, rats were subjected to 24 or 72 hours of food deprivation or 5 days of consuming a protein-free diet or injection of streptozotocin. The soleus and extensor digitorum longus muscles were removed and utilized for measures of protein synthesis or degradation by using the isolated, incubated muscle technique of Li et al. These experiments demonstrate that supplementation of the incubation media with 0.5 mM leucine stimulates protein synthesis in these catabolic muscles and that during total starvation the stimulation decreases as the severity of the condition increases. Leucine supplementation failed to affect protein degradation in these skeletal muscles. This study demonstrates that the branched-chain amino acid leucine has the potential to stimulate protein synthesis in skeletal muscles, at least under specific catabolic conditions, but does not affect protein degradation in skeletal muscles under the conditions studied.
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PMID:Effects of leucine on in vitro protein synthesis and degradation in rat skeletal muscles. 673 85

The utilization of amino acids and glucose by ascites tumour cells has been studied in order to elucidate which are their relative roles as energy substrates or building blocks for biosynthetic purposes, as well as the quantitative contribution of the different metabolic pathways involved. 1. Glucose is utilized at a rate of 1.1 mumol x min-1 x g cells-1. 93% is transformed into lactate, 0.7% used by the pentose phosphate pathway, 1.5% by the tricarboxylic acid cycle and 2% is for lipid synthesis. 2. ATP production is derived: 78% from glucose conversion into lactate, 1% from glucose oxidation and 19% from glutamine oxidation. 3. Glucose starvation, in the presence of all amino acids, leads to a 70% decrease in the rate of protein synthesis, due to the drop in ATP levels. 4. Pentose phosphate pathway flux increases by 75% when glycolysing cells are incubated in the presence of all amino acids. 5. Pyruvate is decarboxylated at a rate of 66 nmol x min-1 x g cells-1, 45-80% of it is incorporated into lipids instead of being oxidized, depending on the incubation conditions. 6. Non-essential amino acids (aspartate and glutamate) are oxidized at a low rate. Glutamine is oxidized at a rate 20-times and 35-times that of glucose and glutamate respectively. Glutamine can not replace glucose as the main energy source. 7. Leucine utilization, 28 nmol x min-1 x g cells-1, is very high compared with normal cells, due to the high rate of lipid and protein synthesis. Its oxidation is similar to that of non-tumoural cells. 8. Sterols account for 80% of the lipids synthesized either from leucine or glucose.
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PMID:Amino acids and glucose utilization by different metabolic pathways in ascites-tumour cells. 679 Feb 81

Leucine aminotransferase (EC 2.6.1.6) and 2-oxoisocaproate dehydrogenase (EC 1.2.4.3) were studied in rat cerebral cortex, cerebellum, brain stem, liver, and muscle in normal and animals starved for 48 hours. In the brain, leucine aminotransferase, valine aminotransferase, and 2-oxoisocaproate dehydrogenase showed a significant increase in starvation only in cerebellum while there was increase in 2-oxoisocaproate dehydrogenase in cerebral cortex only. A significantly high increase in the activity of 2-oxoisocaproate dehydrogenase was observed in muscle in starvation. A significant decrease in the activity of leucine aminotransferase was observed in liver in starvation. The increase in the activity of 2-oxoisocaproate dehydrogenase in muscle and a decrease in the activity of leucine aminotransferase in liver in starvation indicate that the leucine is predominantly metabolized in extra hepatic tissues particularly in muscle. As a result of intraperitoneal administration of 2 ml of leucine (5 mM), a significant increase in 2-oxoisocaproate dehydrogenase occurred in cerebral cortex, liver, and muscle while a profound increase in the activity of glutamate dehydrogenase (EC 1.4.1.2) was observed in all the brain regions and liver under these conditions. A significant increase in the content of glutamic acid, alanine, and GABA was observed in all the three regions of the brain after the administration of leucine. A significant increase in the content of glutamine was observed only in the cerebellum and cerebral cortex after leucine administration. These results indicate that leucine in brain might contribute to the formation of glutamate, not only by transamination, but also by promoting glutamate dehydrogenase activity. Thus, there is a change in the metabolism of glutamate family of amino acids and energy depletion. These results are discussed in relation to the brain function.
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PMID:Studies on metabolism of branched chain amino acids in brain and other tissues of rat with special reference to leucine. 714 88

The relationship between changes in ketone concentrations and leucine metabolism (seven obese subjects), glucose and alanine metabolism (seven obese subjects) was investigated using radioisotopic techniques after 12 h, 60 h and 2 weeks starvation. Leucine metabolism was also measured in five lean subjects after 12 h and 60 h starvation. In the obese subjects leucine concentration increased after 60 h starvation and leucine metabolic clearance rate, glucose and alanine concentration decreased (P < 0.05). Glucose and alanine production rate (Ra) decreased after 2 weeks (P < 0.05) but there was no change in leucine Ra after 60 h or 2 weeks. In the lean subjects leucine concentration, production rate and oxidation rate were increased after 60 h (P < 0.005, P < 0.05, P < 0.05). Ketone concentration was inversely related to alanine Ra (r = -0.51, P < 0.02) but was not related to measurements of protein metabolism in the obese subjects. This study demonstrates that the effect of short-term starvation on protein metabolism differs in lean and obese subjects. The decrease in glucose Ra during long-term starvation may be in part due to a decreased supply of alanine for gluconeogenesis.
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PMID:The effect of starvation on leucine, alanine and glucose metabolism in obese subjects. 758 20

Phenotypically and genotypically (leu2-3, 112) Leu- cells of Saccharomyces cerevisiae gave rise to small colonies on medium devoid of leucine. This only occurred on plates with a high density of Leu- cells or on medium supplemented with limiting quantities of leucine. Cells from these small colonies retained a growth advantage over their parent on limiting leucine supplements even after growth in a non-selecting (rich) medium. Therefore, the growth variants had acquired a heritable change. The phenotype was recessive and due to a change in a nuclear gene unlinked to the LEU2 locus. The phenotype provided a growth advantage only during leucine starvation; growth of the variants was indistinguishable from their parent on medium lacking the other essential supplements (histidine and uracil) required for the growth of the strain. [14C]Leucine uptake assays demonstrated that the variants were better able than their parents to accumulate leucine from their environments, and this ability extended to other hydrophobic amino acids. These results suggest that in the variants an amino acid uptake system has been derepressed rather than there having been reversion or extragenic suppression of the mutation in leucine biosynthesis. We designate the mutant gene responsible for the phenotype lup1 (for leucine uptake). The transport characteristics of the lup1 mutants suggested that LUP1 is a regulatory component of an ammonium-regulated hydrophobic amino acid uptake system.
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PMID:Isolation of a conditional suppressor of leucine auxotrophy in Saccharomyces cerevisiae. 816 83

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