UMLS:C0038187 - FACTA Search

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)

1. The effects of altering metabolism on Na(+)-K(+)-Cl- co-transport were studied in ferret red cells. Na(+)-K(+)-Cl- co-transport was measured as the bumetanide-sensitive uptake of 86Rb. 2. Glucose, but not inosine or adenosine, sustained metabolism and maintained cell ATP content ([ATP]i) at the physiological level. [ATP]i could be reduced by prolonged incubation of cells in a substrate-free medium or more quickly by incubating cells with 2-deoxyglucose or with a mixture of iodoacetamide and glucose. 3. Na(+)-K(+)-Cl- co-transport activity was inhibited when [ATP]i was reduced to below 100 mumol (1 cell)-1 by starvation or by treatment with 2-deoxyglucose. However, a unique relationship between [ATP]i and activity could not be found. [ATP]i and the method and time course of ATP depletion all influenced activity. The inhibition of Na(+)-K(+)-Cl- co-transport, caused by reducing [ATP]i could be partially reversed by restoring [ATP]i to normal. 4. Increasing the concentration of intracellular ionized magnesium [( Mg2+]i) did not stimulate co-transport activity in ATP-depleted cells. This contrasts with the substantial stimulation seen in cells with normal [ATP]i. 5. Vanadate stimulated Na(+)-K(+)-Cl- co-transport activity in ATP-depleted cells but not in cells with normal [ATP]i. Fluoride did not affect activity at any [ATP]i. 6. The effects of some sulphydryl reagents on Na(+)-K(+)-Cl- co-transport were also examined. n-Ethylmaleimide (1 mM) inhibited Na(+)-K(+)-Cl- co-transport while it stimulated bumetanide-resistant potassium transport. Dithiothreitol (1 mM) did not affect activity. Iodoacetamide (6 mM) appeared to reduce the inhibition of cotransport activity seen at low [ATP]i but also greatly increased cell fragility. 7. The data suggest that activity of the Na(+)-K(+)-Cl- co-transport system is controlled by a cycle of phosphorylation and dephosphorylation with the phosphorylated form being active. Phosphorylation and transport appear to be almost maximal in ferret red cells with normal [ATP]i. Reduction of [ATP]i may allow changes in phosphatase activity to manifest as changes in transport rate. Differences in the balance between phosphorylation and dephosphorylation may explain tissue-dependent variations in the response of the system to various stimuli.
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PMID:The effects of metabolism on Na(+)-K(+)-Cl- co-transport in ferret red cells. 189 Jun 46

Frankia vesicles are differentiated during nitrogen starvation; they contain nitrogenase whether produced by free-living frankiae or by frankiae in actinorhizal root nodules. Vesicles are surrounded by envelopes of several monolayers of uncharacterized lipid. It has been suggested that the envelope limits diffusion of O2 into the vesicle cytoplasm, thereby preventing inactivation of nitrogenase. Whole vesicles were prepared on sucrose gradients and sonicated, and vesicle envelopes were isolated on top of a cushion of 40% sucrose. Transmission electron microscopy of potassium permanganate-fixed envelopes confirmed the purity of these preparations. Only the outer and inner envelope layers were visible in permanganate-fixed intact vesicles; the laminae were not visible in aldehyde-osmium-fixed, lead citrate-uranyl acetate-stained whole vesicles. However, the laminated nature of the envelope was clearly evident in sonicated vesicles and in envelope fragments fixed with KMnO4. The observations indicate that partial disruption of the vesicle envelope enables its visualization with permanganate fixation, and these observations open the way for further studies on the relationship of the vesicle surface to environmental conditions.
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PMID:Isolation and structure of the lipid envelopes from the nitrogen-fixing vesicles of Frankia sp. strain CpI1. 200 7

The decision to initiate total parenteral nutrition (TPN) in hospitalised patients should be based on the presence of clinically significant starvation and dysfunction of the gastrointestinal tract. It must also take into account the clinical status of the patient, considering major treatment strategies and the need for prolonged hospitalisation, the benefits of feeding and the attendant risks of central venous alimentation. Recent evidence in surgical patients in intensive care provides the impetus for early parenteral feeding; withholding TPN and inducing a cumulative caloric deficit of greater than or equal to 10,000 calories has been associated with a survival disadvantage compared to those patients with a positive caloric balance. Moreover, the incidence of serious organ failure was consistently higher in the group with cumulative caloric deficits. Additional evidence favouring the provision of TPN exists, but the axiom 'if the gut works, use it' still prevails. Exceptions to this precept do exist, however, particularly in critically ill patients. The metabolic derangements encountered in these patients could be so severe that it may be impossible to correct the electrolyte and acid-base abnormalities via the enteral route. For example, such patients may have large potassium requirements and/or severe alkalaemia necessitating systemic acidification with hydrochloric acid, precluding enteral delivery due to gastrointestinal intolerance. In this setting, combined enteral feeding with 10 to 20 ml/h to maintain gut integrity (via a post-pyloric feeding tube) and TPN during the acute phases of illness is an exciting possibility. Once the decision to feed is made, the amount of nutrition prescribed may assume equal importance with respect to patient outcome. The frequent use of the Harris-Benedict equation, plus a multiplying factor for stress, may overestimate caloric requirements; this is particularly true during critical illness. The dangers of overfeeding may be just as harmful as not feeding at all. The use of indirect calorimetry provides the most accurate measurement of resting energy expenditure. However, in the absence of indirect calorimetry, modified equations to estimate caloric needs are available. Caution must be observed as caloric intakes exceeding the range of 25 to 35 kcal/kg may be dangerous, particularly in the severely ill patient with preexisting organ failure. The amount of protein and the 'calorie-mix' necessary for optimal nutritional support is open to debate. Recent evidence has demonstrated no additional benefit to nitrogen balance in severely septic patients when protein was given at a level exceeding 1.5 g/kg/day.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Total parenteral nutrition 1990. A review of its current status in hospitalised patients, and the need for patient-specific feeding. 212 57

The internist plays a critical role in the care of eating disorder patients, especially in the management of the life-threatening medical complications of these conditions. In anorexia nervosa, the immediate danger is related to the effects of voluntary starvation, including hypophosphatemia, bone marrow failure, cardiac decompensation, and shock. Patients with bulimia nervosa more often experience severe fluid and electrolyte abnormalities resulting in hypovolemia, secondary hyperaldosteronism, depletion of total body potassium, and cardiac arrhythmias. Immediate management of medical complication and correction of nutritional deficits are necessary before patients can benefit from psychotherapy. The need for continued involvement of the internist in the ongoing care of the eating disorder patient is stressed. The high mortality and the likelihood of chronicity without early intervention underscore the need for early recognition and skilled management of eating disorders.
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PMID:Medical complications of anorexia nervosa and bulimia nervosa. 220 58

Three mutants of Saccharomyces cerevisiae resistant to triethyltin (an inhibitor of mitochondrial ATPase) on non-fermentative media, and non-resistant to this drug on fermentative media, were isolated and named TTR1, TTR2 and TTR3. Apart from triethyltin resistance, these mutants show the following common characteristics: (1) Increased intracellular cytochrome c concentration. (2) Increased respiration rate. (3) Decreased growth yield. (4) Increased growth sensitivity to several drugs inhibiting oxidative phosphorylation: namely, CCCP (permeabilizing inner mitochondrial membrane to protons), valinomycin (permeabilizing inner mitochondrial membrane to potassium) and oligomycin (inhibitor of mitochondrial ATPase). (5) Increased sensitivity to carbon source starvation. For each mutant, these characteristics appeared to be due to a single pleiotropic nuclear mutation. Mutation TTR1 causes additional phenotypic characteristics which do not appear in mutants TTR2 and TTR3: (1) Pinkish coloration of colonies which is more pronounced after a long growth period. (2) Inability of the cells to store glycogen. (3) Growth defect of the cells on a galactose-containing medium. (4) Inability of a diploid homozygote mutant strain to sporulate. All these phenotypic characteristics have already been described in yeast mutants deregulated in cAMP-dependent protein phosphorylation. Crossing of a strain bearing the TTR1 mutation with a strain mutated in the adenylate cyclase structural gene suggested that the TTR1 phenotype is due to a modification in regulation of cAPK by cAMP, making cell multiplication possible without intracellular cAMP.
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PMID:Isolation and genetic study of triethyltin-resistant mutants of Saccharomyces cerevisiae. 220 22

Paranoiac and related mutants of Paramecium tetraurelia display altered membrane excitability. We describe an extension of behavioral characterizations of the paranoiac, fast-2, and tetraethylammonium-insensitive mutants, comparing in detail their reactions to sodium stimulation under standard culture conditions, when grown at various temperatures and when starved. We also use freeze-fracture electron microscopic techniques to analyze in these stocks the morphology of organized arrays of membrane particles, the ciliary plaques. This group of mutants is diverse, showing differences in behavior under standard culture conditions and different reactions to temperature and starvation stresses. Ciliary plaque morphology is altered in some, but not all, of the mutants. The possibility is discussed that these plaques may be sites of potassium or sodium transport.
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PMID:Phenotypic characterization of paranoiac and related mutants in Paramecium tetraurelia. 245 66

Lipid bilayer experiments were performed with one OmpF-PhoE and several OmpC-PhoE hybrid porins of Escherichia coli K-12. All hybrid pores had approximately the same pore-forming activity, which indicated that the structure of the pores remained essentially unchanged by the genetic manipulation. This result was supported by single-channel experiments because all pores had similar single-channel conductances in potassium chloride. Measurements with other salts indicated a drastic change in the ionic selectivity when the fusion site in the ompC-phoE hybrid genes passed along the sequence of the porins from the N-terminal to the C-terminal end. Selectivity measurements using zero-current membrane potentials showed that the selectivity suddenly changed from anion to cation selectivity when a relatively short portion from the N-terminal end of PhoE was replaced by the corresponding part of OmpC. The replacement of increasing portions led to an increase in the cation selectivity until that of OmpC was reached. The change in the anion to cation selectivity is correlated with exchange of lysine-18 and serine-28 by aspartic acids. The anion selectivity of the phosphate starvation-inducible PhoE porin is closely related to the presence of several lysines spread along the primary sequence of the polypeptide chain.
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PMID:Molecular basis of porin selectivity: membrane experiments with OmpC-PhoE and OmpF-PhoE hybrid proteins of Escherichia coli K-12. 247 Apr 9

The adaptation of enteric bacteria in seawater has previously been described in terms of nutrient starvation. In the present paper, we bring experimental arguments suggesting that survival of these microorganisms could also depend on their ability to overcome the effects of osmotic stress. We analyzed the influence of osmoregulatory mechanisms (potassium transport, transport and accumulation of organic osmolytes) on the survival of Escherichia coli in seawater microcosms by using mutants lacking components of the osmotic stress response. Long-term protection was afforded to cells by growth in a medium whose osmotic pressure was increased by either NaCl, LiCl, or saccharose. Achievement of the protection state depended at least partly on osmoregulatory mechanisms, but differed when these were activated or induced during prior growth or in resting cells suspended in phosphate buffer or in seawater. When achieved during growth, K+ transport, glycine-betaine (GBT) synthesis or transport, and trehalose synthesis helped increase the ability to survive in seawater. Protection by GBT was also obtained with resting cells in a phosphate buffer at high osmotic pressure. However, when added only to the seawater, GBT did not change the survival ability of cells no matter what their osmoregulation potential. These results showed that the survival of E. coli cells in seawater depends, at least partly, on whether they possess certain genes which enable them to regulate osmotic pressure and whether they can be stimulated to express those genes before or after their release into the environment. This expression requires nutrients as the substrates from which the corresponding gene products are made.
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PMID:Influence of osmoregulation processes on starvation survival of Escherichia coli in seawater. 267 63

Amino acid transport was studied in C1 cells which contain amplified levels of sodium- and potassium-activated adenosine triphosphatase (Na,K-ATPase), in C4 cells which are ouabain-sensitive revertants, and in parental HeLa S3. Sodium-dependent uptake of aminoisobutyric acid and alanine was increased 2-fold in the amplified C1 cells. After a 6 h amino acid starvation period, the rate of sodium-dependent uptake of methylaminoisobutyric acid was 70-90% greater for C1 than for C4 and HeLa. This uptake was inhibitable by ouabain and the apparent Km values for high affinity uptake were similar in all three lines. Overall, neutral amino acid uptake through Systems A, ASC, and L was 2-fold higher in the Na,K-ATPase amplified C1 cells relative to C4 or HeLa. The induction of System A uptake of methylaminoisobutyric acid after starvation was more rapid in both the amplified C1 cells and the revertant C4 when compared to HeLa, which suggests that the selection for amplification of the Na,K-ATPase produced membrane alterations affecting the adaptive regulation of System A.
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PMID:Alterations in amino acid transport in Na,K-ATPase amplified HeLa cells. 300 Oct 56

Sindbis virus infection of baby hamster kidney cells or chick embryo cells resulted in a significant increase in the rate of uptake of [2-3H]deoxy-D-glucose ([3H]dGlu). Stimulation of hexose transport in Sindbis virus-infected cells occurred only if the cells were rendered quiescent by culturing at high density or by serum starvation. In contrast, Sindbis virus-induced inhibition of potassium transport, measured as a decrease in the uptake of 86Rb+, was independent of cell growth state. Stimulation of [3H]dGlu uptake in Sindbis virus-infected cells was the result of an increase in the Vmax of the hexose transporter, but not a change in the Km. The stimulation of [3H]dGlu uptake induced by Sindbis virus was insensitive to the drug actinomycin D, but was blocked by cordycepin. The stimulation was also insensitive to treatment with tunicamycin, which prevented the virally induced inhibition of the plasma membrane-associated Na+/K+ ATPase and termination of host protein synthesis.
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PMID:Sindbis virus infection increases hexose transport in quiescent cells. 302 95

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