Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Extracellular cyclic-nucleotide phosphodiesterase of Dictyostelium discoideum has previously been purified and characterized [Orlow et al. (1981) J. Biol. Chem. 256, 7620-7627]. Antisera have been raised against the purified enzyme. Following cell-free translation of RNA extracted from cells at various stages of development and immunoprecipitation with anti-phosphodiesterase serum, cAMP phosphodiesterase synthesized in vitro and labeled with L-[35S]methionine can be detected by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and fluorography. The cell-free translation product is an Mr-48 000 polypeptide and can be immunoprecipitated with antiserum raised against active Mr-50 000 cAMP phosphodiesterase or antiserum raised against heat-denatured cAMP phosphodiesterase. Purified native cAMP phosphodiesterase blocks immunoprecipitation of the cAMP-phosphodiesterase polypeptide synthesized in vitro. A detectable level of cAMP-phosphodiesterase mRNA is present in axenically grown cells. After starvation of the cells in phosphate buffer for 1 h an increase of translatable cAMP-phosphodiesterase mRNA occurs, followed by a decrease and another increase. When cells are starved in the presence of the slowly hydrolyzed cAMP analogue, adenosine 3',5'-thiophosphate, the level of translatable cAMP-phosphodiesterase mRNA increases about tenfold and does not show a temporary decline. A maximum of 0.015% of the total acid-insoluble radioactivity is incorporated into the Mr-48 000 cAMP-phosphodiesterase polypeptide.
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PMID:Developmental regulation of the cyclic-nucleotide-phosphodiesterase mRNA of Dictyostelium discoideum. Analysis by cell-free translation and immunoprecipitation. 608 52

Clone pB41-6 (2.5 kb) contains sequences that are repeated 200-300 times in the Dictyostelium genome; about 40 of these sequences are part of a 4.5 kb repeated and apparently transposable genomic element. Clone pB41-6 hybridizes to a large number of cytoplasmic polyadenylated RNAs whose accumulation begins in the first hour of differentiation. In order to understand the regulation of these repeated sequences, we have sequenced pB41-6. It contains three long open reading frames in the "sense" strand. Remarkably, about 70 bases upstream of the transcription initiation site is a sequence identical to that responsible for induction of the Drosophila heat shock genes. A search of published sequences also generated a similar sequence upstream of one of the Dictyostelium actin genes. Indeed, we found that both pB41-6-related RNAs and actin mRNAs are increased as a result of heat shocking growing cells, and that transcription of pB41-6 sequences is induced by heat shock. Thus Dictyostelium contains a set of genes that are induced as a response to heat shock or to the stresses that trigger the initiation of development. We show here that the principal component of this "stress" is not amino acid starvation but the high density of the cells.
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PMID:A repetitive Dictyostelium gene family that is induced during differentiation and by heat shock. 619 94

Incorporation of 5-bromodeoxyuridine (5-BUdR) into nuclear DNA severely interrupts the life cycle of Dictyostelium discoideum after the first generation of growth. Loose cellular aggregates are then formed, but no spore or stalk cells are detectable and no other morphological transformations are observed. The perturbation of gene expression in the life cycle has been studied at the protein level by two-dimensional gel electrophoresis after pulse labelling with 35S-methionine and also by changes in the patterns of polysomal messenger RNA population. The latter was monitored by hybridisation studies using specific cDNA probes for "vegetative" and "18 hr" messenger RNAs. In the presence of 5-BUdR major anomalies in polypeptide synthesis were observed after the loose aggregation stage. Some vegetative polypeptides, including actin, which are normally abundant only during growth to the aggregation stage, are oversynthesised during the period 12-24 hr after starvation. In this same interval the normal decline in the abundance of vegetative mRNA species was not observed. In marked contrast virtually half the normal "18 hr-specific polypeptides" were poorly synthesised. Likewise, the normal increase in abundance of the corresponding "18 hr-specific" poly A + RNA species in the polysomes did not occur. No major alteration in the timing of the appearance of new macromolecules during the cell cycle was observed in spite of extensive modification of gene expression by the incorporation of 5-BUdR into genomic DNA.
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PMID:Changes in protein synthesis and in RNA poly A+ population after treatment of Dictyostelium amoebae by 5-bromo-2'-deoxyuridine. 624 33

In the first few hours after starvation, the developing cAMP secretory system in Dictyostelium discoideum has been observed to be successively in one of four states: (a) quiescent, (b) excitable (capable of relay), (c) autonomously oscillating, and (d) secreting at a high steady level. A theoretical model is presented which demonstrates that the proximal cause of the transitions between different types of behavior may be slow changes in the activities of the enzymes adenylate cyclase and phosphodiesterase. These changes affect the stability properties of the steady state admitted by the cAMP signalling system. Sustained oscillations develop when the steady state is unstable, whereas relay of cAMP signals occurs upon perturbation of a stable steady state for parameter values close to those which produce oscillations. The developmental path suggested in the adenylate cyclase-phosphodiesterase space for the sequential transitions compares with the time course observed for the synthesis of these enzymes after starvation. It is suggested that there is general significance for the understanding of differentiation in the example given of a state-point following a developmental path in parameter space, moving from one behavioral domain to another, and thereby bringing about shifts in qualitative behavior.
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PMID:Control of developmental transitions in the cyclic AMP signalling system of Dictyostelium discoideum. 625 48

We have studied the changes in glycoprotein patterns on the surface of Dictyostelium discoideum cells during development on a membrane filter and in suspension culture. Cell-surface carbohydrates were detected by a periodate-[3H]borohydride method. The appearance and the increase of some glycoproteins during the early developmental stage on a membrane filter were induced 6 h after the onset of starvation. In suspension culture the same proteins appeared about 2 h earlier and less copies per cell were made. Some glycoproteins present in growth-phase cells, especially with high molecular weights, partially disappear during development on a membrane filter. However, the latter changes were not observed in suspension culture. Pulses of cAMP, which generally accelerate cell development, induced only the appearance of one glycoprotein. We conclude that the changes in patterns of plasma membrane glycoproteins during early development are regulated by several factors; starvation, pulses of cAMP, cell-cell contact and transfer onto a membrane filter.
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PMID:Developmentally regulated glycoprotein alterations in Dictyostelium discoideum. 627 78

The motion of cells in the aggregation phase of Dictyostelium discoideum development is complex. To probe its mechanisms we applied precisely timed (+/- 1 s) and positioned (+/-2 micrometers) pulses of cyclic AMP to fields of cells of moderate density using a micropipette. We recorded cell behavior by time lapse microcinematography and extracted cell motion data from the film with our Galatea computer system. Analysis of these data reveals: (a) Chemotaxis lasts only about as long as the cyclic AMP signal; in particular, brief pulses (approximately 5 s) do not induce chemotaxis. (b) Chemotactic competence increases gradually from within an hour after the initiation of development (starvation) to full competence at approximately 15 h when aggregation begins under our conditions. (c) Cell motion reverses rapidly (within 20 s) when the external gradient is reversed. There is no refractory period for motion. We present a new description of the process of aggregation consistent with our result and other recent findings. (d) The behavioral response to cyclic AMP includes a phenomenon we call "cringing." In a prototypical cringe the cell speed drops within 3 s after a brief cyclic AMP stimulus, and the cell stops and rounds and then resumes motion after 25 s. (e) The development of the speed response in cringing as the cells age closely parallels the development of the cyclic AMP-induced light-scattering response of cells in suspension. (f) Cringing occurs in natural populations during weak oriented movement. The computerized analysis of cell behavior proves to be a powerful technique which can reveal significant phenomena that are not apparent to the eye even after repeated examination of the film.
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PMID:Cell behavior in Dictyostelium discoideum: preaggregation response to localized cyclic AMP pulses. 628 94

In Dictyostelium discoideum, cytological and physiological studies on macrocyst formation revealed that this process consists of at least two steps: the production of giant cells, which are believed to be formed from the fusion of cells of two opposite mating types, and the subsequent induction of macrocyst development by the giant cells. The conditions that had been considered formerly to be required for macrocyst formation, such as darkness at the presence of two cells of complementary mating types in heterothallic strains, were actually required only for the production of the giant cells. Once giant cells are produced, the surrounding cells can aggregate and form macrocysts even in the light. Furthermore, it was demonstrated that giant cells can switch the developmental mode of the surrounding cells to macrocyst formation. That is, if a critical number of the isolated giant cells are introduced into a cell population of a single strain of NC4, which normally would produce only fruiting-bodies, macrocysts are formed instead. When in the presence of giant cells, the development of macrocysts may be initiated by starvation. Therefore, if all cells are made to starve simultaneously development begins and proceeds synchronously. Using this technique of synchronous development, the developmental kinetics of enzyme activities were assayed during macrocyst and fruiting-body formation. Considerable differences in the patterns of those enzyme activities were demonstrated between the two developmental modes of D. discoideum.
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PMID:Macrocyst development in Dictyostelium discoideum. I. Induction of synchronous development by giant cells and biochemical analysis. 628 96

The inhibitor of the cAMP phosphodiesterase of Dictyostelium discoideum is a cysteine-rich glycoprotein, which binds to the enzyme and inactivates it. When the inhibitor is removed, enzymatic activity is restored. Following translation in vitro of RNA from developing cells and immunoprecipitation with anti-inhibitor serum, newly synthesized inhibitor can be detected by sodium dodecylsulfate/polyacrylamide gel electrophoresis and fluorography. The inhibitor can be labeled using [35S]cysteine but not [35S]methionine, in agreement with the previously determined amino acid composition, and can be detected after cell-free translation only if it has been previously acetylated. Purified native inhibitor blocks immunoprecipitation of the inhibitor polypeptide synthesized in vitro. No inhibitor mRNA was detected in growing cells. Translatable mRNA was present 2 h after the beginning of starvation, reached a maximal level after 3 h, and decreased thereafter. Addition of 1 mM cAMP at the beginning of starvation delayed the appearance of translatable inhibitor mRNA. In the presence of 5 microM adenosine cyclic-3',5'-phosphorothioate, a slowly hydrolyzed cAMP analogue, no translatable mRNA could be detected. Following removal of the analogue, the mRNA appeared within one hour and inhibitor was secreted after another hour.
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PMID:Detection and regulation of the mRNA for the inhibitor of extracellular cAMP phosphodiesterase of Dictyostelium discoideum. 630 86

Synchronized cells of the cellular slime mould Dictyostelium discoideum were prepared by mitotic wash-off. Cell counts and DNA synthesis measurements indicated a high degree of synchrony. Cells from each phase of the cell cycle were fluorescently labelled and mixed with unlabelled asynchronous cells. Cells that were in S-phase and very early G2 at the onset of starvation demonstrated a strong tendency to sort to the tip of the subsequent slugs. With reference to these results and published evidence, we discuss the possible role of cell-cycle-related adhesion differences in cell sorting.
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PMID:The cell cycle and sorting behaviour in Dictyostelium discoideum. 637 42

Upon starvation, the cellular slime mould Dictyostelium discoideum initiates a 24-h programme of differentiation. Within 6 h, cells move towards aggregation centres in response to pulsatile synthesis and secretion of cyclic AMP. At about 12 h, aggregates of 10(5) cells are formed, held together by newly made surface adhesion molecules. The cells then differentiate into the two principal types found in the terminal stage of development, spores and stalks. Here we show that the chemotaxis and aggregation stages of this developmental programme can be described as a series of sequential events in which these extracellular signals--starvation, cyclic AMP and cell-cell contact--induce specific, sequential changes in the pattern of gene expression.
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PMID:Mechanism of sequential induction of cell-type specific mRNAs in Dictyostelium differentiation. 642 48


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