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

Under conditions of iron starvation, Bacteroides fragilis expresses various iron-repressible outer membrane proteins (IROMPs). A 44-kDa protein appears to be one of the major outer membrane proteins (OMPs) in B. fragilis under iron stress and plays a role in heme uptake by this bacterium. To determine whether the 44-kDa IROMP of B. fragilis is expressed in vivo and whether this protein is immunogenic, we used Western immunoblotting to examine serum samples from patients with an infection caused by Bacteroides species. All the serum samples from patients and from normal controls showed reactivity with several proteins of B. fragilis. Only serum samples from patients infected with B. fragilis showed immunoreactivity with the 44-kDa protein. We also used a rat infection model to study the immune response against this protein during the process of an intra-abdominal infection in these animals. During the first 8 days of infection a gradual increase of antibodies to the 44-kDa protein in the rat was detected. These results suggest that the 44-kDa IROMP is expressed in vivo, since it induces an antibody response in patients and animals. We also analyzed 85 strains of the B. fragilis group for the presence of proteins antigenically related to the B. fragilis 44-kDa protein. The data indicate that this protein was conserved in B. fragilis strains and was absent in the other bacterial strains tested.
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PMID:Human immune response to an iron-repressible outer membrane protein of Bacteroides fragilis. 187 23

Structure-functional transformation fo respiratory chain, developed in response to 72 hrs starvation involved the following alterations: 1. in mitochondria of starved rats distinct increase ws observed in sensitivity of palmitocarnitine oxidation, but not of succinate, to benzhydroxamic acid--chelator of non-heme iron; 2. as compared with controls accumulation of malonic dialdehyde was completely inhibited in liver mitochondria of the starved rats in presence of benzhydroxamic acid; 3. considerable alteration in sensitivity of respiration and ATP synthesis to the effect of some inhibitors was found in liver mitochondria of starved rats. Results of the experiment are discussed on the basis of the assumption that existence of additional pathways of ATP synthesis, essential for adaptation-restoration processes, is biologically important under conditions of stress.
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PMID:[Features of oxidation of reserve lipids in liver mitochondria during starvation: the role of non-heme iron and free radical fatty acid oxidation]. 194 86

The proliferative response of peripheral blood mononuclear cells (PBMC) in synthetic serum-free media depends on the presence of sufficient amounts of transferrin (Tf). In the present communication we show that the reduction of Tf concentration in culture media results in a decreased proliferation, whereas lymphokine production and the expression of activation markers (IL-2 receptor; transferrin receptor, (TfR); HLA class II) remain unchanged. To examine whether this effect is due to iron depletion we added iron chelates (ferric citrate, FeCi; ferric nitrilotriacetic acid, FeNTA) which can be internalized by cells without the requirement for Tf. The iron chelates could fully restore the proliferative response even in complete absence of Tf, suggesting that the observed inhibitory effect was indeed caused by iron depletion. Addition of a monoclonal TfR antibody, J 64, also caused a marked inhibition of proliferation of PBMC in regular serum-containing medium as well as in Tf-free synthetic medium; this effect could not be overcome by any of the tested iron chelates. Therefore, growth inhibition caused by J 64 cannot simply be attributed to iron starvation. These data suggest that J 64 may interfere with processes others than iron uptake and that the TfR might confer a necessary promoting signal for lymphocyte proliferation.
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PMID:The role of the transferrin receptor for the activation of human lymphocytes. 198 60

Porphyromonas gingivalis W50, W83, A7A1-28, and ATCC 33277 were investigated for their abilities to lyse sheep, human, and rabbit erythrocytes. All of the P. gingivalis strains studied produced an active hemolytic activity during growth, with maximum activity occurring in late-exponential-early-stationary growth phase. The enzyme was cell bound and associated with the outer membrane. Fractionation of P. gingivalis W50 localized the putative hemolysin almost exclusively in the outer membrane fraction, with significant hemolytic activity concentrated in the outer membrane vesicles. Ca2+ and Mg2+ ions significantly increased the expression of hemolytic activity. Hemolytic activity was inhibited by proteinase K, trypsin, the proteinase inhibitors Na-P-tosyl-L-lysine chloromethyl ketone and benzamidine, the metabolic inhibitor M-chlorophenyl-hydrazone, and iodoacetate. KCN and sodium azide (NaN3) only partially inhibited P. gingivalis hemolytic activity, while antiserum to whole cells of each of the P. gingivalis strains had a significant inhibitory effect on hemolytic activity. The P. gingivalis W50 hemolysin was inhibited by cysteine, dithiothreitol, and glutathione at concentrations of at least 10 mM; at low concentrations (i.e., 2 mM), dithiothreitol did not completely inhibit hemolytic activity. Heating to temperatures above 55 degrees C resulted in an almost complete inhibition of hemolytic activity. The effect of heme limitation (i.e., iron) on hemolysin production indicated that either limitation or starvation for heme resulted in significantly increased hemolysin production compared with that of P. gingivalis grown in the presence of excess heme.
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PMID:Hemolytic activity in the periodontopathogen Porphyromonas gingivalis: kinetics of enzyme release and localization. 203 55

Iron-responsive elements (IREs) are regulatory RNA elements which are characterized by a phylogenetically defined sequence-structure motif. Their biological function is to provide a specific binding site for the IRE-binding protein (IRE-BP). Iron starvation of cells induces high affinity binding of the cytoplasmic IRE-BP to an IRE which has at least two different known biological consequences, repression of ferritin mRNA translation and stabilization of the transferrin receptor transcript. We report the identification of a novel, evolutionarily conserved IRE motif in the 5' UTR of murine and human erythroid-specific delta-aminolevulinic acid synthase (eALAS) mRNA which encodes the first, and possibly rate limiting, enzyme of the heme biosynthetic pathway. We demonstrate the function of the eALAS IRE as a specific binding site for the IRE-BP by gel retardation analyses and by in vitro translation experiments. In addition, we show that the 5' UTR of eALAS mRNA is sufficient to mediate iron-dependent translational regulation in vivo. These findings strongly suggest involvement of the IRE-IRE-BP system in the control of heme biosynthesis during erythroid differentiation.
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PMID:Identification of a novel iron-responsive element in murine and human erythroid delta-aminolevulinic acid synthase mRNA. 205 Jan 26

Technological advances in the intensive care of low birth weight (LBW) infants have resulted in major increases in their survival. New challenges in meeting their nutritional needs have emerged. Very low birth (VLBW) weight infants have very little body fat or glycogen reserves at birth, making them susceptible to starvation. If fed enterally, they require at least 120 calories/kg per day for growth. Numerous immaturities in the gastrointestinal tract and liver limit protein digestion, absorption, and metabolism. Several amino acids not considered essential to the older child or adult are essential to the VLBW infant. Supplying a high protein load with an inappropriate amino acid composition may lead to metabolic imbalances. The digestion and absorption of fats differs from the older child or adult. Lingual and gastric lipases are important, and the lack of bile acids limits fat absorption. Lipoprotein lipase deficiency causes problems when too much fat or fat of incorrect composition is provided. There are controversies regarding the most appropriate carbohydrate source, but research shows that lactose remains an important carbohydrate source for most of these infants. Calcium, magnesium, and phosphorus requirements pose questions in both enterally and parenterally nourished infants. Studies of iron usage suggest that VLBW infants fed either human milk or formula should receive iron supplements. Vitamin E may be helpful in preventing oxygen toxicity. Vitamin D deficiency contributes to bone demineralization and rickets. Controversy exists regarding the correlation between vitamin A nutrition and development of chronic lung disease. Guidelines have been developed for recommended intakes, but much needs to be learned to provide a sound scientific basis upon which to provide optimal nourishment for the high risk, LBW infant.
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PMID:Scientifically-based strategies for nutrition of the high-risk low birth weight infant. 212 45

The tonB gene is required for the transport of several different iron-siderophore complexes across the Escherichia coli outer membrane. In this study, transcriptional regulation of the tonB gene was investigated by using three different tonB-lacZ fusions to monitor tonB expression under aerobic conditions and in the presence of a wild-type tonB gene. Prior work by other laboratories suggests that tonB is expressed at low constitutive levels regardless of changes in iron availability or the fur locus. In contrast, these data show that tonB transcription is repressed threefold by growth in the presence of FeCl3 compared with growth in the presence of the iron chelator dipyridyl and that this repression requires the fur locus. A 168-base-pair DNA fragment carrying the tonB promoter was sufficient for the observed transcriptional regulation. In addition, the tonB gene appeared to have a substantially stronger promoter than previously recognized. The inability of other laboratories to detect tonB transcription regulation appears to be due to the extremely slow growth of iron-starved tonB strains and the use of Mu d1(lac Apr)- or lambda plac Mu53-generated fusions that encode a thermolabile TrpA-LacZ hybrid protein. The data also suggest that the previously reported growth phase regulation of tonB occurs only in media with intermediate levels of available iron and is due to iron starvation-induced derepression as the culture approaches stationary phase.
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PMID:Aerobic regulation of the Escherichia coli tonB gene by changes in iron availability and the fur locus. 213 45

Under iron-limiting conditions, many bacteria secrete ferric iron-specific ligands, generically termed siderophores, to aid in the sequestering and transport of iron. One strain of the nitrogen-fixing soybean symbiont Bradyrhizobium japonicum, 61A152, was shown to produce a siderophore when 20 B. japonicum strains were screened with all six chemical assays commonly used to detect such production. Production by strain 61A152 was detected via the chrome azurol S assay, a general test for siderophores which is independent of siderophore structure. The iron-chelating compound was neither a catechol nor a hydroxamate and was ninhydrin negative. It was determined to be citric acid via a combination of thin-layer chromatography and high-voltage paper electrophoresis; this identification was verified by a specific enzymatic assay for citric acid. The inverse correlation which was observed between citric acid release and the iron content of the medium suggested that ferric citrate could serve as an iron source. This was confirmed via growth and transport assays. Exogenously added ferric citrate could be used to overcome iron starvation, and iron-deficient cells actively transported radiolabeled ferric citrate. These results, taken together, indicate a role for ferric citrate in the iron nutrition of this strain, which has been shown to be an efficient nitrogen-fixing strain on a variety of soybean cultivars.
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PMID:Citrate as a siderophore in Bradyrhizobium japonicum. 214 May 66

The composition and antibiotic permeability barrier of the outer membrane of Serratia marcescens were assessed in cells grown in vivo and in vitro. Intraperitoneal diffusion chambers implanted in rats were used for the in vivo cultivation of bacteria. Outer membranes isolated from log-phase bacterial cells recovered from these chambers were compared with membranes isolated from cells grown in vitro. Analysis revealed that the suspected 41-kilodalton porin and the OmpA protein were recovered on sodium dodecyl sulfate-polyacrylamide gels in equal quantities. Several high-molecular-weight proteins, thought to be iron starvation induced, appeared in the diffusion chamber-grown cells. The outer membrane permeability barriers to cephaloridine were similar in in vivo- and in vitro-grown cells based on permeability coefficient calculations. The permeability coefficient of cephaloridine in S. marcescens cells (30.3 x 10(-5) to 38.9 x 10(-5) cm s-1) was greater than that obtained for an Escherichia coli strain expressing only porin OmpC but smaller than those obtained for the E. coli wild type and a strain expressing only porin OmpF. Functional characterization of the suspected porin was performed by using the planar lipid bilayer technology. The sodium dodecyl sulfate-0.4 M NaCl-soluble porin from both in vitro- and in vivo-grown cells showed an average single-channel conductance in 1 M KCl of 1.6. A partial amino acid sequence (19 residues) was obtained for the S. marcescens porin. The sequence showed a very high homology to the E. coli OmpC porin. These data identified the S. marcescens outer membrane 41-kilodalton protein as a porin by both functional and amino acid analyses. Also, the methodology used allowed for efficient growth and recovery of diffusion chamber-grown bacterial cells and permitted identification of specific in vivo-induced changes in bacterial cell membrane composition.
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PMID:Outer membrane and porin characteristics of Serratia marcescens grown in vitro and in rat intraperitoneal diffusion chambers. 215 67

Transferrin (TF) and lactoferrin (LF) are probably the major sources of iron (Fe) for Neisseria gonorrhoeae in vivo. We isolated mutants of N. gonorrhoeae FA19 that were unable to grow with Fe bound to either TF (TF-) or LF (LF-) or to both TF and LF ([TF LF]-). The amount of Fe internalized by each of the mutants was reduced to background levels from the relevant iron source(s). The wild-type parent strain exhibited saturable specific binding of TF and LF; receptor activity was induced by Fe starvation. The TF(-)-specific or LF(-)-specific mutants were almost completely lacking in receptor activity for TF or LF, respectively, whereas the [TF LF]- mutants bound both TF and LF as well as the wild-type strain. All mutants utilized citrate and heme normally as Fe sources. These results demonstrate that ability to bind TF or LF is essential for gonococci to scavenge appreciable amounts of Fe from these sources in vitro. In addition, the TF and LF Fe acquisition pathways are linked by the mutual use of a nonreceptor gene product that is essential to Fe scavenging from both of these sources; this gene product is not required for Fe acquisition from other sources.
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PMID:Genetic evidence that Neisseria gonorrhoeae produces specific receptors for transferrin and lactoferrin. 216 77


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