Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ethanol is constantly formed endogenously from acetaldehyde, and level of the former can be measured in both human beings and animals. Acetaldehyde can be generated in situ from the metabolism of pyruvate, threonine, deoxyribose-5-phosphate, phosphoethanolamine, alanine and presumably from other substrates. The levels of blood and tissue endogenous ethanol change as a function of various physiologic and experimental conditions such as starvation, aging, stress, cooling, adrenalectomy, etc. and are regulated by many exogenous compounds such as antimetabolites, derivatives of amino acids, lithium salts, disulfiram, cyanamide, etc. Under free choice alcohol selection situations, the levels of endogenous ethanol in rat blood and alcohol preference by the animals are negatively correlated. Similar negative correlations have been found between the levels of blood endogenous ethanol and the frequency of delirium in alcoholic patients undergoing alcohol withdrawal. Endogenous ethanol and acetaldehyde can therefore be regarded as compounds which fulfil substrate, regulatory and modulator functions.
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PMID:Endogenous ethanol--its metabolic, behavioral and biomedical significance. 353 Feb 79

Streptococcus cremoris cells that had been grown in a chemostat were starved for lactose. The viability of the culture remained essentially constant in the first hours of starvation and subsequently declined logarithmically. The viability pattern during starvation varied with the previously imposed growth rates. The death rates were 0.029, 0.076, and 0.298 h-1 for cells grown at dilution rates of 0.07, 0.11 and 0.38 h-1, respectively. The proton motive force and the pools of energy-rich phosphorylated intermediates in cells grown at a dilution rate of 0.10 h-1 fell to zero within 2 h of starvation. The culture, however, remained fully viable for at least 20 h, indicating that these energy-rich intermediates are not crucial for survival during long-term lactose starvation. Upon starvation, the intracellular pools of several amino acids depleted with the proton motive force, while large concentration gradients of the amino acids alanine, glycine, aspartate, and glutamate were retained for several hours. A quantitative analysis of the amino acids released indicated that nonspecific protein degradation was not a major cause of the loss in viability. The response of the energy metabolism of starved S. cremoris cells upon refeeding with lactose was monitored. Upon lactose starvation, the glycolytic activity and the rate of proton motive force generation decreased rapidly but the steady-state level of the proton motive force decreased significantly only after several hours. The decreasing steady-state level of the proton motive force and consequently the capacity to accumulate amino acids after the addition of lactose correlated well with the loss of viability. The response of the energy metabolism of starved S. cremoris cells upon refeeding with lactose was monitored. Upon lactose starvation, the glycolytic activity and the rate of proton motive force generation decreased rapidly but the steady-state level of the proton motive force decreased significantly only after several hours. The decreasing steady-state level of the proton motive force and consequently the capacity to accumulate amino acids after the addition of lactose correlated well with the loss of viability. It is concluded that a regulatory loss of glycolytic capacity has pivotal role in the survival of S. cremoris under the conditions used.
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PMID:Bioenergetic consequences of lactose starvation for continuously cultured Streptococcus cremoris. 355 20

The effects of starvation upon blood compartmentation and differential handling of glucose and alanine have been studied in control and cafeteria-fed rats. The injection of radioactive glucose resulted in higher specific radioactivities in intracellular glucose but lower intracellular amino acid specific radioactivities when compared with the plasma values. The cells/plasma specific radioactivity ratios increased dramatically in cafeteria rats with starvation. The injection of radioactive alanine resulted in higher cell than plasma glucose specific activities, and lower cell amino acid specific activities. All these parameters increased after a 24-hours starvation period. It is concluded that glucose synthetised by the liver is released mainly into the blood intracellular pool, being later liberated into the plasma or directly into the tissues.
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PMID:Effects of starvation and a high-energy diet on rat blood compartmentation of injected radioactive alanine and glucose. 356 81

Concentrations of free amino acids were measured in human milk and arterial blood from lactating women after an overnight fast or after a controlled breakfast. The concentrations of many free amino acids in milk (except L-tyrosine, L-aspartate, L-asparagine, L-glutamate and L-glutamine) were lower after an overnight fast than after breakfast. Similarly, the arterial concentrations of amino acids were lower except for L-asparagine, L-alanine, L-tyrosine and L-phenylalanine. Net uptake of amino acids by the mammary gland of the lactating rat was significantly lower after starvation for 6 or 24 h than in the fed state because the arteriovenous differences of amino acids and the blood flow were significantly lowered. Starvation produced a significant decrease of 2-amino-[1-14C]isobutyric acid uptake by isolated acini from lactating rat. These results show that short-term starvation decreases the amino acid supply and transport in mammary gland as well as the free amino acid concentration in milk.
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PMID:Effect of fasting on amino acid metabolism by lactating mammary gland: studies in women and rats. 357 66

During the first five days following gastric bypass surgery, 15 patients received near isotonic amino acid solutions that varied in their branched-chain amino acid (BCAA) content and amino acid profiles (15.6%, 50%, or 100% BCAA solutions). Plasma valine concentrations were elevated in patients receiving 50% and 100% BCAA solutions. Plasma alanine concentrations were highest in patients receiving 50% BCAA. Plasma free fatty acids and blood lactate concentrations were unchanged by either the operation or BCAA administration. Serum glucose concentration was unaffected by the different amino acid administrations and followed the pattern induced by stress initially and later by starvation. beta-Hydroxybutyrate concentrations increased as starvation proceeded and were highest in patients receiving the 15.6% BCAA solution. Branched-chain amino acid-enriched solutions without additional energy may be administered safely to patients recovering from operative trauma. Plasma amino acid concentrations and fuel substrate profiles appear to follow metabolic patterns determined by the physiologic response to stress and starvation and can be affected by large quantities of BCAAs.
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PMID:Branched-chain amino acid administration in surgical patients. Effects on amino acid and fuel substrate profiles. 359 66

Fed and 48-h starved rats were infused on day 21.5 of gestation for 20 min through the left uterine artery with [U-14C-]-D-glucose, [U-14C]-glycerol, or [U-14C]-L-alanine. The mother and fetuses from both uterine horns were processed separately for radioactivity measurements in plasma and liver. Differences in radioactivity values between fetuses from the left and the right sides are used as indexes of placental transference of the infused tracers prior to their distribution and transformation in the maternal circulation. After infusion of [U-14C]-D-glucose, [U-14C]-glycerol, or [U-14C]-L-alanine, plasma radioactivity values and specific activities corresponding to the respective infused tracer appeared much higher in fetuses from the left than the right uterine side. Plasma 14C-lactate values also were higher in the left than the right fetuses indicating that fetoplacental structures produced lactate from those placentally transferred 14C-metabolites. No difference in plasma 14C-glucose between left and right uterine horn fetuses was observed after maternal infusion with either [U-14C]-glycerol or [U-14C]-L-alanine, either in fed or 48-h starved rats. In the mother both [U-14C]-glycerol and [U-14C]-L-alanine were efficiently converted to 14C-glucose, and this process was significantly enhanced with starvation. 14C-fatty acids present in fetal liver after maternal infusions with either [U-14C]-D-glucose or [U-14C]-glycerol were decreased by starvation whereas no fatty acid synthesis from [U-14C]-L-alanine was detected.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lactate production and absence of gluconeogenesis from placental transferred substrates in fetuses from fed and 48-H starved rats. 362 73

The relative importance of the main glucogenic and ketogenic substrates, and interactions between fatty acids availability and ketogenesis have been investigated in virgin or 21 day pregnant rats. Fed pregnant rats displayed elevated lactatemia and the production of lactate by portal-drained viscera was markedly reduced. In contrast, the production of alanine and propionate from digestion was almost similar in fed pregnant and virgin rats. The release of glucose by the liver in fed animals was higher in pregnant rats, and lactate was the main glucogenic substrate taken up whereas alanine uptake was reduced. The hepatic utilization of propionate was not different between the two groups of fed animals. Hepatic gluconeogenesis and lactate extraction were enhanced by starvation; the contribution of lactate to glucose release remained higher in pregnant than in virgin rats, whereas the contribution of alanine was lower, owing to its decreased availability in afferent blood. There was a large uptake of intestinally-derived acetate in fed rates, and a slight release, parallel to ketogenesis, was observed in starved pregnant rats. Free fatty acids were elevated and efficiently taken up by the liver in fed pregnant rats, but without any noticeable ketogenesis. Hepatic ketogenesis was enhanced in starved animals, with marked hyperketonaemia in pregnant rats. However, in those animals, the hepatic release of ketone bodies was not proportional to ketonaemia and was almost similar to the release in starved virgin rats.
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PMID:Adaptation of hepatic gluconeogenesis and ketogenesis to altered supply of substrates during late pregnancy in the rat. 374 34

Changes in hepatic levels of lactate, pyruvate, phosphoenolpyruvate, alpha-ketoglutarate, malate, oxaloacetate, adenine nucleotides, inorganic phosphate, ketone bodies, alanine, serine, glycine, aspartate, glutamate, valine and urea were examined in adult rats during the first 24 h of either starvation or consumption of a high protein (HP) diet. No differences were found between these two conditions in the concentration of metabolites studied or the cytosolic redox state. Under both conditions, the cytosolic phosphorylation state decreased to a low 15 h into the experiment but the changes were more pronounced on the HP diet. Hepatic ketone bodies rose sharply after 12 h, with the increase 2.5 times greater for starved rats. In starvation, hepatic aspartate, valine, and urea were low and glycine was high, whereas the opposite was seen for the HP diet. In both groups, alanine fell within 9 h and remained low thereafter. These findings suggest that, in the first 24 h of starvation, the energy necessary for gluconeogenesis is obtained from fatty acid oxidation, while during HP feeding the energy for both gluconeogenesis and ureagenesis are derived from fatty acid oxidation and amino acid oxidation.
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PMID:Comparison between starvation and consumption of a high protein diet in rats: hepatic metabolites and amino acid levels during the first 24 hours. 380 77

Gluconeogenesis from dihydroxyacetone (DHA), glycerol, lactate, pyruvate or alanine was studied in the absence or in the presence of glucagon in hepatocytes isolated from starved rats or from rats fed a high protein diet for 2-48 h. In both groups, gluconeogenesis from DHA, glycerol, lactate and pyruvate exhibited similar changes over 48 h; the rates of glucose production increased progressively until 24 h and then plateaued. During the early phase (2-11 h), gluconeogenesis from DHA and glycerol were higher than gluconeogenesis from lactate and pyruvate. During the first 24 h of the experiment, gluconeogenesis from alanine displays a kinetic similar to that from lactate or pyruvate. After feeding a high protein diet for 24 to 48 h, gluconeogenesis from alanine was slightly higher than that in starved rats and paralleled the increase in alanine aminotransferase activity. Glucagon stimulated gluconeogenesis from DHA up to 48 h, but with glycerol this effect occurred only during the early phase (2-11 h). Glucagon stimulated gluconeogenesis from lactate, pyruvate or alanine by 1.35-fold throughout the experimental period. These findings suggest that the development of gluconeogenesis during starvation or after feeding a high protein diet displays different kinetics, depending on the substrate used and on the level of entry in the gluconeogenic pathway: triose phosphates or pyruvate.
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PMID:Development of gluconeogenesis from various precursors in isolated rat hepatocytes during starvation or after feeding a high protein, carbohydrate-free diet. 381 63

Eleven different amino acids are encoded in the ilvB leader mRNA. Starvation for leucine or valine, but not for any of the other nine amino acids, resulted in high levels of acetohydroxy acid synthase I. These results are discussed in terms of a report (C.A. Hauser and G.W. Hatfield, Proc. Natl. Acad. Sci. U.S.A. 81:76-79, 1984) which suggests that threonine and alanine, in addition to leucine and valine, are involved in the regulation of the ilvB operon.
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PMID:Starvation for ilvB operon leader amino acids other than leucine or valine does not increase acetohydroxy acid synthase activity in Escherichia coli. 388 65


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