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)

In the haloarchaea Haloferax volcanii, ribosomes are found in the cytoplasm and membrane-bound at similar levels. Transformation of H. volcanii to express chimeras of the translocon components SecY and SecE fused to a cellulose-binding domain substantially decreased ribosomal membrane binding, relative to non-transformed cells, likely due to steric hindrance by the cellulose-binding domain. Treatment of cells with the polypeptide synthesis terminator puromycin, with or without low salt washes previously shown to prevent in vitro ribosomal membrane binding in halophilic archaea, did not lead to release of translocon-bound ribosomes, indicating that ribosome release is not directly related to the translation status of a given ribosome. Release was, however, achieved during cell starvation or stationary growth, pointing at a regulated manner of ribosomal release in H. volcanii. Decreased ribosomal binding selectively affected membrane protein levels, suggesting that membrane insertion occurs co-translationally in Archaea. In the presence of chimera-incorporating sterically hindered translocons, the reduced ability of ribosomes to bind in the transformed cells modulated protein synthesis rates over time, suggesting that these cells manage to compensate for the reduction in ribosome binding. Possible strategies for this compensation, such as a shift to a post-translational mode of membrane protein insertion or maintained ribosomal membrane-binding, are discussed.
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PMID:In the Archaea Haloferax volcanii, membrane protein biogenesis and protein synthesis rates are affected by decreased ribosomal binding to the translocon. 1547 49

Autophagy is a survival mechanism necessary for eukaryotic cells to overcome nutritionally challenged environments. When autophagy is triggered, cells degrade nonselectively engulfed cytosolic proteins and free ribosomes that are evenly distributed throughout the cytoplasm. The resulting pool of free amino acids is used to sustain processes crucial for survival. Here we characterize an autophagic degradation of the endoplasmic reticulum (ER) under starvation conditions in addition to cytosolic protein degradation. Golgi membrane protein was not engulfed by the autophagosome under the same conditions, indicating that the uptake of ER by autophagosome was the specific event. Although the ER exists in a network structure that is mutually connected and resides predominantly around the nucleus and beneath the plasma membrane, most of autophagosome engulfed ER. The extent of the ER uptake by autophagy was nearly identical to that of the soluble cytosolic proteins. This phenomenon was explained by the appearance of fragmented ER membrane structures in almost all autophagosomes. Furthermore, ER dynamism is required for this process: ER uptake by autophagosomes occurs in an actin-dependent manner.
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PMID:Starvation triggers the delivery of the endoplasmic reticulum to the vacuole via autophagy in yeast. 1556 45

The cercariae of Schistosoma mansoni become transformed into schistosomula during host skin penetration. We have found that large acidophilic compartments are detected in schistosomula but not in cercariae or in any other stages of the parasite by use of the fluorescent dye LysoTracker, a dye specific for mammalian lysosomes. Some of these large acidic compartments incorporated monodansylcadaverine, a specific dye for autophagosomes. We have used potent inhibitors (wortmannin and 3-methyladenine) and a potent inducer (starvation) of autophagy to show that the pathway to the formation of the acidic compartments requires specific molecular signals from the environment and from the genome. Certain doses of ultraviolet light inhibited significantly the formation of the acidic compartments, which may indicate disruption of the lysosome/autophagosome pathway. We have also defined two proteins that are commonly associated with lysosomes and autophagosomes in mammalian cells, the microtubule-associated membrane protein (MAP-LC3) and lysosome-associated membrane protein (LAMP-1), in extracts of schistosomula. We suggest that the autophagy pathway could be developed in transformed schistosomula.
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PMID:The role of acidic organelles in the development of schistosomula of Schistosoma mansoni and their response to signalling molecules. 1579 14

Chaperone-mediated autophagy (CMA) is a selective lysosomal protein degradative process that is activated in higher organisms under conditions of prolonged starvation and in cell culture by the removal of serum. Ketone bodies are comprised of three compounds (beta-hydroxybutyrate, acetoacetate, and acetone) that circulate during starvation, especially during prolonged starvation. Here we have investigated the hypothesis that ketone bodies induce CMA. We found that physiological concentrations of beta-hydroxybutyrate (BOH) induced proteolysis in cells maintained in media with serum and without serum; however, acetoacetate only induced proteolysis in cells maintained in media with serum. Lysosomes isolated from BOH-treated cells displayed an increased ability to degrade both glyceraldehyde-3-phosphate dehydrogenase and ribonuclease A, substrates for CMA. Isolated lysosomes from cells maintained in media without serum also demonstrated an increased ability to degrade glyceraldehyde-3-phosphate dehydrogenase and ribonuclease A when the reaction was supplemented with BOH. Such treatment did not affect the levels of lysosome-associated membrane protein 2a or lysosomal heat shock cognate protein of 70 kDa, two rate-limiting proteins in CMA. However, pretreatment of glyceraldehyde-3-phosphate and ribonuclease A with BOH increased their rate of degradation by isolated lysosomes. Lysosomes pretreated with BOH showed no increase in proteolysis, suggesting that BOH acts on the substrates to increase their rates of proteolysis. Using OxyBlot analysis to detect carbonyl formation on proteins, one common marker of protein oxidation, we showed that treatment of substrates with BOH increased their oxidation. Neither glycerol, another compound that increases in circulation during prolonged starvation, nor butanol or butanone, compounds closely related to BOH, had an effect on CMA. The induction of CMA by ketone bodies may provide an important physiological mechanism for the activation of CMA during prolonged starvation.
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PMID:Ketone bodies stimulate chaperone-mediated autophagy. 1588 60

PHOSPHATE TRANSPORTER1 (PHT1) genes encode phosphate (Pi) transporters that play a fundamental role in Pi acquisition and remobilization in plants. Mutation of the Arabidopsis thaliana PHOSPHATE TRANSPORTER TRAFFIC FACILITATOR1 (PHF1) impairs Pi transport, resulting in the constitutive expression of many Pi starvation-induced genes, increased arsenate resistance, and reduced Pi accumulation. PHF1 expression was detected in all tissues, particularly in roots, flowers, and senescing leaves, and was induced by Pi starvation, thus mimicking the expression patterns of the whole PHT1 gene family. PHF1 was localized in endoplasmic reticulum (ER), and mutation of PHF1 resulted in ER retention and reduced accumulation of the plasma membrane PHT1;1 transporter. By contrast, the PIP2A plasma membrane protein was not mislocalized, and the secretion of Pi starvation-induced RNases was not affected in the mutant. PHF1 encodes a plant-specific protein structurally related to the SEC12 proteins of the early secretory pathway. However, PHF1 lacks most of the conserved residues in SEC12 proteins essential as guanine nucleotide exchange factors. Although it functions in early secretory trafficking, PHF1 likely evolved a novel mechanism accompanying functional specialization on Pi transporters. The identification of PHF1 reveals that plants are also endowed with accessory proteins specific for selected plasma membrane proteins, allowing their exit from the ER, and that these ER exit cofactors may have a phylum-specific origin.
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PMID:PHOSPHATE TRANSPORTER TRAFFIC FACILITATOR1 is a plant-specific SEC12-related protein that enables the endoplasmic reticulum exit of a high-affinity phosphate transporter in Arabidopsis. 1628 8

Changes in culturability and outer membrane protein profiles were investigated in Pseudomonas fluorescens DF57 and Pseudomonas putida DF14 during starvation for carbon, nitrogen, and phosphorus. P. fluorescens DF57 remained fully culturable for 4 days in all starvation regimes. The cell mass increased during starvation for nitrogen and phosphorus, indicating the accumulation of storage compounds, whereas it decreased slightly in carbon-starved cells. P. putida DF14 lost culturability during phosphorus starvation, and the mass of phosphate-starved cells did not increase. Analysis of additional P. fluorescens and P. putida strains, however, showed that the ability to preserve culturability during phosphorus starvation was not species but strain dependent. In DF57, an outer membrane protein of 55 kDa appeared during starvation for phosphorus, while another protein of 63 kDa was seen during all starvation conditions. DF14 induced two outer membrane proteins of 28 and 29 kDa during starvation for carbon and nitrogen, but no phosphorus-specific starvation protein could be detected. Therefore, starvation-induced outer membrane proteins do not seem to be conserved among the fluorescent pseudomonads and a unique starvation response might be found in individual strains.
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PMID:Culturability and Expression of Outer Membrane Proteins during Carbon, Nitrogen, or Phosphorus Starvation of Pseudomonas fluorescens DF57 and Pseudomonas putida DF14. 1634 59

Dictyostelium amoebae are professional phagocytes, which ingest bacteria as the principal source of food. We have cloned the Dictyostelium homologue of human natural resistance-associated membrane protein 1 (Nramp1) [solute carrier family 11 member 1 (Slc11a1)], an endo-lysosomal membrane protein that confers on macrophages resistance to infection by a variety of intracellular bacteria and protozoa. The Dictyostelium Nramp1 gene encodes a protein of 53 kDa with 11 putative transmembrane domains. The Nramp1 gene is transcribed during the growth-phase and downregulated to barely detectable levels upon starvation. To gain insights into their intracellular localization, we fused Nramp1 or the vatB subunit of the V-H(+)ATPase with green fluorescent protein and expressed in cells. Green fluorescent protein-vatB was inserted in membranes of all acidic compartments and the contractile vacuole network and decorated macropinosomes and phagosomes. Green fluorescent protein-Nramp1 decorated macropinosomes and phagosomes, in addition to intracellular vesicular compartments positive for endosomal SNARE protein Vti1 or vacuolin, a marker of the exocytic pathway. Nramp1 disruption generated mutants that were more permissive hosts than wild-type cells for intracellular growth of Legionella pneumophila and Micobacterium avium. Nramp1 overexpression protected cells from L. pneumophila infection. Evidence is provided that Nramp1 transports metal cations out of the phagolysosome in an ATP-dependent process and that L. pneumophila and M. avium use different mechanisms to neutralize Nramp1 activity.
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PMID:Function and mechanism of action of Dictyostelium Nramp1 (Slc11a1) in bacterial infection. 1644 84

The disruption of the gene encoding the Dictyostelium Ras subfamily protein, RasC, results in a strain that does not aggregate and has defects in both cAMP signal relay and cAMP chemotaxis. Disruption of a second gene in the rasC(-) strain by Restriction Enzyme Mediated Integration produced cells that were capable of forming multicellular structures in plaques on bacterial lawns. The disrupted gene (dmpA) encoded a novel membrane protein that was designated Dmp1. Although the rasC(-)/dmpA(-) cells progressed through early development, they did not form aggregation streams on a plastic surface under submerged starvation conditions. Phosphorylation of PKB in response to cAMP, which is significantly reduced in rasC(-) cells, remained low in the rasC(-)/dmpA(-) cells. However, in spite of this low PKB phosphorylation, the rasC(-)/dmpA(-) cells underwent efficient chemotaxis to cAMP in a spatial gradient. Cyclic AMP accumulation, which was greatly reduced in the rasC(-) cells, was restored in the rasC(-)/dmpA(-) strain, but cAMP relay in these cells was not apparent. These data indicate that although the rasC(-)/dmpA(-) cells were capable of associating to form multicellular structures, normal aggregative cell signaling was clearly not restored. Disruption of the dmpA gene in a wild-type background resulted in cells that exhibited a slight defect in aggregation and a more substantial defect in late development. These results indicate that, in addition to the role played by Dmp1 in aggregation, it is also involved in late development.
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PMID:A secondary disruption of the dmpA gene encoding a large membrane protein allows aggregation defective Dictyostelium rasC- cells to form multicellular structures. 1649 Jan 88

The fhuE gene of Escherichia coli encodes the FhuE protein, which is a receptor protein in the coprogen-mediated siderophore iron-transport system. A fhuE gene homologue from Azospirillum brasilense, a nitrogen-fixing soil bacterium that lives in association with the roots of cereal grasses, was cloned, sequenced, and characterized. The A. brasilense fhuE encodes a protein of 802 amino acids with a predicted molecular weight of approximately 87 kDa. The deduced amino-acid sequence showed a high level of homology to the sequences of all the known fhuE gene products. The fhuE mutant was sensitive to iron starvation and defective in coprogen-mediated iron uptake. The mutant failed to express one membrane protein of approximately 78 kDa that was induced by iron starvation in the wild type. Complementation studies showed that the A. brasilense fhuE gene, when present on a low-copy number plasmid, could restore the functions of the mutant. Mutation in fhuE gene did not affect nitrogen fixation.
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PMID:Cloning, sequencing, and characterization of the Azospirillum brasilense fhuE gene. 1650 88

The physiological changes of Vibrio anguillarum in response to growth in salmon intestinal mucus were investigated. Growth, survival, and changes in protein expression during growth in media supplemented with mucus were compared to growth and starvation in the identical media without mucus. V. anguillarum exhibited a rapid decline in CFU following growth in mucus as the sole carbon source. No such decline was observed in Luria broth with a 2% NaCl concentration, in glucose-minimal broth (3M), or during starvation in a carbon-, nitrogen-, and phosphorus-free salt solution (NSS). The changes in protein expression during growth in mucus were examined by labeling cells with [(sup35)S]methionine and analyzing the labeled proteins by one- and two-dimensional gel electrophoresis and autoradiography. Comparison of [(sup35)S]methionine-labeled proteins from mucus-grown cells with 3M-grown cells and NSS-starved cells revealed four de novo mucus-inducible proteins (Mips). These Mips were localized in the membrane fraction of V. anguillarum. Additionally, at least one other membrane protein was found to have increased expression in response to growth in mucus.
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PMID:Growth of Vibrio anguillarum in Salmon Intestinal Mucus. 1653 37

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