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)

Fatty acid amidohydrolase, a membrane-bound enzyme found in a variety of mammalian cells, is responsible for the catabolism of neuromodulatory fatty acid amides, including anandamide. In an earlier study we reported that Tetrahymena pyriformis was able to secrete a FAAH-like activity in starvation medium (Karava V., Fasia L., Siafaka-Kapadai A., FEBS Lett. 508 (2001) 327-331). In this study the endocannabinoid anandamide, was found to be metabolized by T. pyriformis homogenate by the action of a FAAH-like enzyme, in a time- and concentration-dependent manner. The main metabolic products of [3H]anandamide hydrolysis were [3H]arachidonic acid and ethanolamine. Amidohydrolase activity was maximal at pH 9-10, it was inhibited by phenylmethylsulfonyl fluoride and arachidonyltrifluoromethyl ketone and was Ca2+ and Mg(2+)-independent. Kinetic experiments demonstrated that the enzyme had an apparent K(m) of 2.5 microM and V(max) of 20.6 nmol/min mg. Subcellular fractionation of T. pyriformis homogenate showed that the activity was present in every subcellular fraction with highest specific activity in the microsomal as well as in non-microsomal membrane fraction. Immunoblot analysis of selected subcellular fractions, using an anti-FAAH polyclonal antibody, revealed the presence of an immunoreactive protein with a molecular mass approximately 66 kDa similar to the molecular mass of the mammalian enzyme. In conclusion, this study demonstrates that a FAAH similar to the mammalian enzyme is present in a unicellular eukaryote, indicating the importance of FAAH activity throughout evolution. It also supports the notion that Tetrahymena species may be a suitable model for metabolic studies on endocannabinoids, as well as for the study of drugs targeted towards FAAH.
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PMID:Anandamide metabolism by Tetrahymena pyriformis in vitro. Characterization and identification of a 66 kDa fatty acid amidohydrolase. 1595 Oct 97

The activity of the hydrophilic Vibrio sp. strain DW1 and the hydrophobic Pseudomonas sp. strain S9, which both undergo starvation-induced responses, was examined at nutrient-enriched and nutrient-deficient interfaces. The initial period of response to a starvation regime ("dwarfing" phase) is a sequence of two processes: fragmentation and continuous size reduction of the fragmented cells. This dwarfing phase is also one of intense metabolic activity as supported by O(2) uptake measurements of the endogenous metabolism and the use of inhibitors of the proton flow, the electron transport chain, and membrane-bound ATPase. Hydrophilic bacteria become even smaller at nutrient-deficient surfaces than in the liquid phase upon starvation, and this is reflected in a higher endogenous metabolism exhibited by surface-associated cells compared with those in the liquid phase. On the other hand, hydrophobic bacteria dwarfing at surfaces did not exhibit a greater size reduction and exhibited an endogenous metabolism that was only slightly higher than that of cells in the liquid phase. Bacterial scavenging of surface-localized nutrients is related to the degree of irreversible binding of dwarf and starved bacteria, which in turn may be related to the degree of cell surface hydrophobicity.
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PMID:Initial phases of starvation and activity of bacteria at surfaces. 1634 33

Dictyostelium discoideum cells possess multiple cyclic nucleotide phosphodiesterases that belong either to class I enzymes that are present in all eukaryotes or to the rare beta-lactamase class II. We describe here the identification and characterization of DdPDE4, the third class I enzyme of Dictyostelium. The deduced amino acid sequence predicts that DdPDE4 has a leader sequence, two transmembrane segments, and an extracellular catalytic domain that exhibits a high degree of homology with human cAMP-specific PDE8. Expression of the catalytic domain of DdPDE4 shows that the enzyme is a cAMP-specific phosphodiesterase with a K(m) of 10 microm; cGMP is hydrolyzed at least 100-fold more slowly. The full-length protein is shown to be membrane-bound with catalytic activity exposed to the extracellular medium. Northern blots and activity measurements reveal that expression of DdPDE4 is low during single cell stages and increases at 9 h of starvation, corresponding with mound stage. A function during multicellular development is confirmed by the phenotype of ddpde4(-) knock-out strains, showing normal aggregation but impaired development from the mound stage on. These results demonstrate that DdPDE4 is a unique membrane-bound phosphodiesterase with an extracellular catalytic domain regulating intercellular cAMP during multicellular development.
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PMID:DdPDE4, a novel cAMP-specific phosphodiesterase at the surface of dictyostelium cells. 1664 29

Cells of Anacystis nidulans strain R2 and of Synechococcus cedrorum were grown in an iron-deficient medium. Iron starvation induced several pronounced effects without influencing the viability of these cells. The phycocyanin and chlorophyll contents of these cells were depressed, and the absorption maxima of membrane-bound chlorophyll was blue-shifted by 5 nanometers. Cells showed a dramatic increase in original and in maximal chlorophyll fluorescence when monitored at room temperature. Low temperature chlorophyll fluorescence revealed a loss in fluorescence at 696 and 716 nanometers; much of the remaining fluorescence emission was at 686 nanometers. These changes suggest an alteration of membrane composition and structure. This was documented by an electrophoretic analysis of iron-deficient membranes. The prominent findings were: (a) large chlorophyll-protein complexes were not observed in iron-deficient membranes, although the chlorophyll-binding proteins were present; (b) the staining of acrylamide gels with 3,3',5,5'-tetramethylbenzidine plus peroxide indicated that iron deficiency led to a decrease in the quantity of cytochromes. These results support a structural model of the relation between fluorescence and chlorophyll organization in Anacystis. In addition, they suggest a method for studying cytochrome and chlorophyll protein assembly in these membranes.
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PMID:Organization and Function of Chlorophyll in Membranes of Cyanobacteria during Iron Starvation. 1666 3

Adenylate cyclase, guanylate cyclase, and the cyclic nucleotide phosphodiesterases of Cylindrotheca fusiformis were characterized in crude and partially purified preparations. Both cyclases were membrane-bound and required Mn(2+) for activity, though Mg(2+) gave 50% activity with adenylate cyclase. Properties of adenylate cyclase were similar to those of higher eukaryotic cyclases in some respects, and in other respects were like lower eukaryotic cyclases. Guanylate cyclase was typical of other lower eukaryotic enzymes.Two phosphodiesterase activities were found, one selective for cyclic AMP, the other for cyclic GMP. The 5'-nucleoside monophosphate was the major product of both activities and each of the enzymes had distinctive divalent cation requirements, pH optima, and kinetic parameters. Both phosphodiesterases were similar to those of other lower eukaryotes with one notable difference: the cyclic AMP enzyme was inhibited by calcium.Changes in the cyclic nucleotide levels were quantitated in light-dark and silicon-starvation synchronized cultures using a more sensitive radioimmunoassay than used in a previously published study (Borowitzka and Volcani 1977 Arch Microbiol 112: 147-152). Contrary to the previous report, the cyclic GMP level did not change significantly in either synchrony. The cyclic AMP level increased dramatically very early in the period of DNA replication with the peak cyclic AMP accumulation substantially preceding that of DNA synthesis in both synchronies. There was no significant change in the activity of either cyclase or either phosphodiesterase during either synchrony. Thus, the mechanism for the rise in cAMP level remains unclear.
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PMID:Role of Silicon in Diatom Metabolism : Cyclic Nucleotide Levels, Nucleotide Cyclase, and Phosphodiesterase Activities during Synchronized Growth of Cylindrotheca fusiformis. 1666 4

Unlike phosphate or potassium transport, uptake of nitrate by roots is induced, in part, by contact with the substrate ion. Plasmalemma influx of (13)N-labeled nitrate in maize roots was studied in relation to induction of the uptake system, and the influence of short-term N starvation. Maize (Zea mays) roots not previously exposed to nitrate had a constitutive transport system (state 1), but influx increased 250% during six hours of contact with 100 micromolar nitrate, by which time the transport mechanism appeared to be fully synthesized (state 2). A three-day period of N starvation prior to induction and measurement of nitrate influx resulted in a greater capacity to transport nitrate than in unstarved controls, but this was fully expressed only if roots were kept in contact with nitrate for the six hours needed for full induction (state 2E). A kinetic analysis indicated a 160% increase in maximum influx in N-starved, induced roots with a small decrease in K(m). The inducible component to nitrate influx was induced only by contact with nitrate. Full expression of the nitrate inducible transport system was dependent upon mRNA synthesis. An inhibitor of cytoplasmic protein synthesis (cycloheximide) eliminated the formation of the transport system while inhibition by chloramphenicol of mitochondrial- or plastid-coded protein synthesis had no effect. Poisoning of membrane-bound proteins effectively disabled both the constitutive and induced transport systems.
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PMID:Induction of nitrate transport in maize roots, and kinetics of influx, measured with nitrogen-13. 1666 16

Renal cell carcinoma primary tumors and lung metastases are infiltrated by activated natural killer (NK) cells. Interleukin (IL)-15, a major cytokine involved in cross-talk between accessory cells (dendritic cells and macrophages) and NK cells, is produced by epithelial renal cells. We show that renal cell carcinoma cells and normal renal cells express IL-15 mRNA and membrane-bound IL-15 (MbIL-15). These cells also express IL-15 receptor alpha (IL-15Ralpha). Silencing of IL-15Ralpha by specific small interfering RNA in renal cell carcinoma had no effect on MbIL-15 production, indicating that the cytokine is not cross-presented by IL-15Ralpha in renal cell carcinoma cells but anchored to the membrane. Furthermore, we show that MbIL-15 from renal cell carcinoma cells is functional and involved in rapid nuclear translocation of phosphorylated signal transducers and activators of transcription 3 in IL-2-starved NK cells. MbIL-15 on the target did not interfere with resting NK cell activation and target cell cytolysis but rescued NK cells from IL-2 starvation-induced apoptosis through contact-dependent interaction. Masking of MbIL-15 with soluble IL-15Ralpha molecules restored NK cell apoptosis. These findings suggest that IL-15 produced by renal tumor cells is involved in the maintenance of active NK cells at the tumor site.
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PMID:Membrane-bound interleukin (IL)-15 on renal tumor cells rescues natural killer cells from IL-2 starvation-induced apoptosis. 1757 22

Plectin, a widespread intermediate filament-based cytolinker protein capable of interacting with a variety of cytoskeletal structures and plasma membrane-bound junctional complexes, serves essential functions in maintenance of cell and tissue cytoarchitecture. We have generated a mouse line bearing floxed plectin alleles and conditionally deleted plectin in stratified epithelia. This strategy enabled us to study the consequences of plectin deficiency in this particular type of tissues in the context of the whole organism without plectin loss affecting other tissues. Conditional knockout mice died early after birth, showing signs of starvation and growth retardation. Blistering was observed on their extremities and on the oral epithelium after initial nursing, impairing food uptake. Knockout epidermis was very fragile and showed focal epidermal barrier defects caused by the presence of small skin lesions. Stratification, proliferation and differentiation of knockout skin seemed unaffected by epidermis-restricted plectin deficiency. In an additionally generated mouse model, tamoxifen-induced Cre-ER(T)-mediated recombination led to mice with a mosaic plectin deletion pattern in adult epidermis, combined with microblister formation and epidermal barrier defects. Our study explains the early lethality of plectin-deficient mice and provides a model to ablate plectin in adult animals which could be used for developing gene or pharmacological therapies.
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PMID:Conditional targeting of plectin in prenatal and adult mouse stratified epithelia causes keratinocyte fragility and lesional epidermal barrier defects. 1760 98

The mRNA expression of lipogenic genes Scd-1 and Fas is regulated partly by the insulin-sensitive transcription factor SREBP-1c and liver X receptor alpha (LXRalpha). Compared with normal mice, the increase in the mRNA expression of hepatic Scd-1, Fas, and Srebp-1c was severely attenuated in peroxisome proliferator-activated receptor alpha (PPARalpha)-deficient mice during the transition from the starved to the re-fed states. The concentration of the membrane-bound form of SREBP-1c was also lower in the livers of the PPARalpha-deficient mice during re-feeding but there was little difference in the concentration of the active, nuclear form, or in the abundance of Insig-2a mRNA. The response of plasma insulin to starvation and re-feeding was normal in the PPARalpha-deficient mice. Rat hepatocytes transfected with an adenovirus encoding a dominant negative form of PPARalpha were resistant to the stimulatory effects of insulin on Fas and Scd-1 mRNA expression in vitro. When LXRalpha was activated in vivo by inclusion of a non-steroidal ligand in the diet, the expression of the mRNA for hepatic Srebp-1c, Fas, and Scd-1 was increased severalfold in mice of both genotypes and resistance associated with PPARalpha deficiency was abolished during re-feeding. However, although re-feeding the LXRalpha ligand induced the immature form of SREBP-1c equally in the livers of both genotypes, the concentration of the nuclear form remained relatively low in the livers of the PPARalpha-deficient mice. We conclude that intact PPARalpha is required to mediate the response of Scd-1 and Fas gene expression to insulin and that this is normally achieved directly by activation of LXRalpha.
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PMID:Peroxisome proliferator-activated receptor alpha deficiency abolishes the response of lipogenic gene expression to re-feeding: restoration of the normal response by activation of liver X receptor alpha. 1807 24

Under conditions of nitrogen limitation, the general transcription factor TnrA in Bacillus subtilis activates the expression of genes involved in assimilation of various nitrogen sources. Previously, TnrA activity has been shown to be controlled by protein-protein interaction with glutamine synthetase, the key enzyme of ammonia assimilation. Furthermore, depending on ATP and 2-oxoglutarate levels, TnrA can bind to the GlnK-AmtB complex. Here, we report that upon transfer of nitrate-grown cells to combined nitrogen-depleted medium, TnrA is rapidly eliminated from the cells by proteolysis. As long as TnrA is membrane-bound through GlnK-AmtB interaction it seems to be protected from degradation. Upon removal of nitrogen sources, the localization of TnrA becomes cytosolic and degradation occurs. The proteolytic activity against TnrA was detected in the cytosolic fraction but not in the membrane, and its presence does not depend on the nitrogen regime of cell growth. The proteolytic degradation of TnrA as a response to complete nitrogen starvation might represent a novel mechanism of TnrA control in B. subtilis.
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PMID:Inactivation of the general transcription factor TnrA in Bacillus subtilis by proteolysis. 1866 67

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