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)

The development of siderosis of liver and spleen was investigated in rats subjected alternately to periods of starvation and periods of feeding of diets rich in iron (0.71% or 1.23% Fe) or of control diets, during periods ranging up to 245 days. With 0.71% iron in the diet, cyclic starvation-feeding markedly enhanced the accumulation of iron in rat livers by comparison to feeding ad libitum even though rats fed ad libitum ingested far greater total amounts of iron than cyclically fed rats. With 1.23% iron in the diet, the concentration of iron in livers reached more or less the same plateau in cyclically starved-fed rats and in rats fed ad libitum (betwen 4 and 5 mg Fe/g wet weight); but the mean rate of accumulation of iron in the livers of cyclically starved and fed rats was more than twice that in rats fed ad libitum, whereas mean ingestion of iron per feeding day was only 16% higher in the former group. Surgical removal of the spleen enhanced the accumulation of iron in the liver in cyclically starved-fed rats and in rats fed ad libitum. Histologically, siderosis of the liver was moderate in rats fed the diet with 0.71% iron but was severe in rats fed the diet with 1.23% iron and most severe in those without spleens. Stainable iron was deposited in hepatocytes and in Kupffer cells. None of the rats developed cirrhosis of the liver. The data suggest that in rats a barrier to the absorption of iron from the gut, or to its later utilization, is surmounted if the concentration of iron in the food exceeds a certain limit value, somewhere between 0.71 and 1.23%. With iron in the food below this value, cyclic starvation-feeding markedly potentiates accumulation of iron in the liver in the course of several months, but siderosis is moderate. With iron in the food above the limit value, cyclic starvation-feeding and feeding ad libitum can equally lead to massive siderosis of the liver.
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PMID:Effects of cyclic starvation-feeding and of splenectomy on the development of hemosiderosis in rat livers. 481 98

1. It has been confirmed that the xanthine-dehydrogenase activity of chick liver is enhanced by starvation and by administration of inosine; the effects of these treatments are not additive. 2. Inosine has no effect when given to chicks depleted of the enzyme by feeding a low-protein diet. 3. Actinomycin D prevents the effect of inosine, but itself enhances the activity of xanthine dehydrogenase. 4. The xanthine-dehydrogenase activity is unchanged after addition of orotic acid to the diet, and is stimulated by injection of inorganic iron.
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PMID:Regulation of xanthine dehydrogenase in chick liver. Further experiments on the effects of inosine, actinomycin D and other factors. 602 10

Iron-starved meningococci grown at either pH 7.2 or 6.6 were capable of removing and incorporating iron from human transferrin by a saturable, cell surface mechanism that specifically recognized transferrin rather than iron. The maximum expression of the iron uptake system occurred after 4 h of iron starvation. The uptake of the iron was dependent upon a functioning electron transport chain and was sensitive to 60 degrees C and trypsin. Cells grown under iron-sufficient conditions were incapable of accumulating iron from transferrin. No evidence was found for a primary role for cell-free soluble siderophores in the removal of iron from transferrin. The nonpathogenic neisseriae, Neisseria flava and N. sicca, were unable to utilize iron on transferrin.
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PMID:Expression of a high-affinity mechanism for acquisition of transferrin iron by Neisseria meningitidis. 621 Jun 35

Shigella flexneri strains were assayed for the ability to synthesize and utilize phenolate and hydroxamate siderophores. The hydroxamate aerobactin was synthesized by all isolates tested, whereas phenolates were only rarely produced. Expression of aerobactin was accompanied by production of a single iron-regulated outer membrane protein (Mr = 74,000). This protein was not produced by a mutant defective in aerobactin utilization and may serve as the aerobactin receptor. Phenolate (enterobactin)-producing strains synthesized three additional outer membrane proteins (Mr = 74,000, 81,000, and 83,000) in response to iron starvation. These proteins are the same apparent size as those produced by Escherichia coli K-12 strains. Ent sequences are apparently present in strains which do not synthesize this compound. Although normally silent, ent genes can be activated in Ent- strains to produce Ent+ variants. These laboratory variants are phenotypically indistinguishable from clinical Ent+ isolates.
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PMID:Expression of hydroxamate and phenolate siderophores by Shigella flexneri. 622 75

Anabaena sp. strain 6411, which produces the dihydroxamate siderophore schizokinen to facilitate iron uptake, is also capable of using the related siderophore aerobactin. The two siderophores compete for the same iron transport system, but there is a markedly higher affinity for ferric schizokinen than for ferric aerobactin. The trihydroxamate siderophore ferrioxamine B is far less effective as an iron donor in this organism. Anabaena sp. strain 7120 appears to be closely related to strain 6411. It synthesizes schizokinen as its major siderophore and shows rates of iron uptake from ferric schizokinen, ferric aerobactin, and ferrioxamine B which are similar to those observed with strain 6411. Anabaena cylindrica Lemm. 7122 and 1611, on the other hand, differ from strain 6411. In contrast to schizokinen, the hydroxamate which they produce in response to iron starvation cannot be extracted with water from the organic layer and does not support the growth of the siderophore auxotroph Arthrobacter flavescens JG-9. Strain 7122 can use its endogenous siderophore or schizokinen to promote iron uptake, but at 50-fold-lower rates than are observed with Anabaena sp. strain 6411 or 7120.
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PMID:Siderophore-mediated iron uptake in different strains of Anabaena sp. 622 8

A murine hybridoma has been obtained that produces a monoclonal antibody against the human transferrin receptor. In contrast to previously characterized monoclonal antibodies that recognize the transferrin receptor, this antibody, designated 42/6, blocks the binding of transferrin to its receptor and inhibits the growth of the human T leukemic cell line, CCRF-CEM, in vitro. Inhibition of cell growth was dose dependent, and as little as 2.5 micrograms of purified antibody per ml had a detectable effect, even though transferrin was present in the tissue culture medium in large molar excess. Cells grown in the presence of antibody for 7 days accumulated in S phase of the cell cycle. The addition of iron to antibody-treated cultures in the form of ferric complexes or ferrous sulfate did not overcome the growth inhibitory effects of the anti-transferrin-receptor antibodies. This result suggests that either transferrin is the only means by which CCRF-CEM leukemic cells can be provided with sufficient iron in vitro or that other factors in addition to iron starvation are involved in the antibody-mediated growth inhibition. The inhibition of cell growth by 42/6 monoclonal antibody suggests that monoclonal antibodies against proliferation-associated cell surface antigens, such as the transferrin receptor, may be useful pharmacological reagents to modify cell growth in vitro.
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PMID:Monoclonal antibody to transferrin receptor blocks transferrin binding and inhibits human tumor cell growth in vitro. 628 Jan 71

Iron starvation as a means of controlling the proliferation of microorganisms was evaluated in vitro with spermidine catecholamide iron chelators. The growth of Escherichia coli and Pseudomonas aeruginosa was sensitive only to (D,L)-parabactin, whereas the growth of Candida albicans and Staphylococcus aureus was sensitive to a variety of catecholamide chelators. The disappearance of catecholamide activity upon methylation of the catechol hydroxyls, as well as iron reversal experiments, strongly suggests that the mechanism by which these compounds suppress growth is dependent upon their ability to sequester iron.
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PMID:Bacteriostatic and fungostatic action of catecholamide iron chelators. 641 73

This study evaluated the effect of 5 days of starvation followed by 5 days of refeeding on immunoreactive plasma and serum fibronectin and associated opsonic activity as studied by peritoneal macrophage monolayer bioassay in 12 healthy women volunteers. The temporal alteration of fibronectin was compared with the serum albumin, total iron-binding capacity, and retinol-binding protein levels. Fibronectin concentration and opsonic activity were also determined in two cachectic patients who were 61 and 78% of their ideal body weight. Prior to starvation, plasma fibronectin was 292 +/- 20 micrograms/ml and serum fibronectin was 182 +/- 16 in all subjects. After 5 days of starvation, immunoreactive fibronectin decreased (p less than 0.05) by 20-25%. This decrease was not great enough to impair opsonic activity as tested by the in vitro macrophage assay. Starvation caused no decrease in serum albumin or total iron-binding capacity, although retinol-binding protein decreased by 35%. During refeeding, subjects were randomized to a diet with (n = 6) and without (n = 6) carbohydrate. After 5 days of refeeding, fibronectin levels were normalized on the carbohydrate-containing diet, but were still low (82% of normal) on the carbohydrate-free diet. Retinol-binding protein did not fully normalize after 5 days of refeeding. In the two cachectic patients, fibronectin levels prior to total parenteral nutrition were 25 and 75% of normal. Thus, starvation can lower fibronectin levels and this protein is rapidly restored with adequate nutrition.
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PMID:Decreased plasma fibronectin during starvation in man. 642 59

Three classes of mutants defective in the biosynthesis of the siderophore agrobactin were isolated from Agrobacterium tumefaciens A217 after N-methyl-N'-nitro-N-nitrosoguanidine mutagenesis. Class I mutants produced uniquely the catechol 2,3-dihydroxybenzoic acid, whereas classes II and III produced no detectable catechol. Class II differed from class III mutants in that exogenous 2,3-dihydroxybenzoic acid was utilized only by the former to synthesize agrobactin. Growth of strains B6 and A217, under iron starvation, led to enhanced production of several envelope proteins migrating in the 80,000-dalton range upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. One mutant, defective in agrobactin iron utilization, lacked one of these proteins. This protein may represent a siderophore receptor or fragment or subunit thereof. With a single exception, all of the mutants obtained in this work were capable of initiating tumorous growth in sunflower plants and on carrot root disks, provided pTiB6806 was present. Comparison of the catechols produced by strain B6806 and its nononcogenic, Ti-plasmid-deficient derivative A217, indicated that the genes encoding agrobactin synthesis are not associated with the virulence plasmid of A. tumefaciens B6806. Analysis of gall tissue for agrobactin did not reveal the presence of this siderophore. Finally, citrate, an iron-carrier in plants, enhanced significantly the growth of the agrobactin-deficient mutants in a low-iron medium. These results suggest that the production of agrobactin in planta is not requisite to infection and that citrate may serve as an alternative carrier of iron for A. tumefaciens within the host.
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PMID:Relationship of siderophore-mediated iron assimilation to virulence in crown gall disease. 645 14

After long term starvation, the crayfish, Procambarus clarki was administered protein silver, iron lactate and olive oil, and its hepatopancreas was subsequently examined by electron microscopy. The reserve cells showed changes suggesting the absorption of these materials from the acinar lumen had taken place. In contrast, the hindgut of crayfish seemed to have no absorptive ability. In crustaceans the hepatopancreas is the largest gland in the body. The chief functions of this gland are the secretion of digestive juice into the stomach and absorption of digested food. It is also where materials which are necessary for hardening of animals that have undergone ecdysis are stored. Although these roles are commonly accepted, the absorptive ability of the gland has been rarely studied. Yonge (1924) and van Weel (1955) attempted to obtain evidence for the absorptive function of hepatopancreas cells of Nephrops norvegicus and Atya spinides using iron lactate and iron saccharate, and obtained some positive results. They used the histochemical Prussian blue test to demonstrate absorbed iron. Vonk (1960) referred to the results of a few authors who had tried to show fat deposits in reserve cells of the hepatopancreas after the administration of olive oil to the animals. But because starvation did not affect the quantity of stored fat in the hepatopancreas cells, the attempt failed to reveal the absorption of fat by the hepatopancreas. In the present paper, the authors describe the results of studies on the absorption of experimentally administered materials by hepatopancreas cells of the crayfish, Procambarus clarki, using electron microscopy.
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PMID:Absorption of experimentally administered materials by the hepatopancreas cells of the crayfish, Procambarus clarki. 650 62

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