EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During formation of the Dictyostelium slug extracellular cAMP signals direct the differentiation of prespore cells and DIF, a chlorinated hexaphenone, induces the differentiation of prestalk cells. At culmination the slug transforms into a fruiting body, composed of a stalk supporting a ball of spores. A dominant inhibitor of cAMP-dependent protein kinase (PKA) expressed under the control of a prestalk-specific promoter blocks the differentiation of prestalk cells into stalk cells. Analysis of a gene specifically expressed in stalk cells suggests that PKA acts to remove a repressor that prevents the premature induction of stalk cell differentiation by DIF during slug migration. PKA is also necessary for the morphogenetic movement of prestalk cells at culmination. Expression of the PKA inhibitor under control of a prespore-specific promoter blocks the accumulation of prespore mRNA sequences and prevents terminal spore cell differentiation. Thus PKA is essential for progression along both pathways of terminal differentiation but with different mechanisms of action. On the stalk cell pathway it acts to regulate the action of DIF while on the spore cell pathway PKA itself seems to act as the inducer of spore cell maturation. Ammonia, the extracellular signal which regulates the entry into culmination, acts by controlling the intracellular concentration of cAMP and thus exerts its effects via PKA. The fact that PKA is necessary for both prespore and spore gene expression leads us to postulate the existence of a signalling mechanism which converts the progressive rise in cAMP concentration during development into discrete, PKA-regulated gene activation events.
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PMID:Regulation of Dictyostelium morphogenesis by cAMP-dependent protein kinase. 810 33

The similarity of the signal transduction systems controlling early development in Dictyostelium with those mediating the action of hormones and neurotransmitters in mammals suggests that these strategies were quickly refined as eukaryotic cells began to communicate. These simple, genetically tractable organisms thus offer a great opportunity to elucidate these pathways further. Combinations of the null mutants are being studied to address questions of redundancy, cross-talk, and networking. Since cAR1, cAR2, G alpha 2, G beta, ACA, CRAC, PKA, and PDE are essential to the program, the capacity to rescue these phenotypes also serves as a convenient screen for functional mutations in these proteins. Finally, random mutagenesis by the recently developed method of restriction enzyme-mediated insertion provides a means to isolate new genes (Kuspa et al., 1992). The clear phenotypes of the null mutants observed so far indicate that the Dictyostelium developmental program can be used as a guide to isolate novel components of G protein-linked pathways.
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PMID:G protein-linked signaling pathways control the developmental program of Dictyostelium. 811 Apr 55

A protein kinase from Dictyostelium discoideum which phosphorylates the synthetic peptide, calmodulin-dependent protein kinase substrate (CDPKS, amino acid sequence: PLRRTLSVAA) and is stimulated by Ca2+/calmodulin is described. This is the first report of a protein kinase with these characteristics in D. discoideum. The enzyme was partially purified by Q-Sepharose chromatography. The protein kinase is very labile, and rapidly loses Ca2+/calmodulin-dependence upon standing at 4 degrees C, even in the presence of protease inhibitors, making further purification and characterisation difficult. In the active fractions, a 55 kDa polypeptide is labelled with [gamma-32P]ATP in vitro under conditions in which intramolecular rather than intermolecular reactions are favoured. The phosphorylation of this peptide is stimulated in the presence of Ca2+ and calmodulin but not Ca2+ alone. Ca2+/calmodulin-dependent stimulation is inhibited in the presence of the calmodulin antagonist, trifluoperazine (TFP). It is proposed that the 55 kDa polypeptide may represent the autophosphorylated form of the enzyme.
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PMID:A calcium and calmodulin-dependent protein kinase present in differentiating Dictyostelium discoideum. 812 40

When Dictyostelium slugs are disaggregated and shaken in suspension prespore mRNAs disappear from the cells very rapidly but in the presence of extracellular cAMP the loss of prespore mRNA sequences is retarded. In a mutant which lacks a functional regulatory subunit of the cAMP-dependent protein kinase (PKA), and where the catalytic subunit is thereby rendered constitutively active, two prespore mRNA sequences persist for extended times after cellular disaggregation. Thus PKA is a component of the signaling pathway that allows prespore cells rapidly to dedifferentiate when extracellular cAMP signaling is disrupted. Analysis of cells expressing a dominant inhibitor of PKA shows there to be both a PKA-requiring and a non-PKA-requiring intracellular signaling pathway directing prespore-specific gene transcription and suggests that there may also be post-transcriptional regulation by PKA.
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PMID:A role for cAMP-dependent protein kinase in determining the stability of prespore cell differentiation in Dictyostelium. 817 84

Extensive protein phosphorylation occurs during all phases of spore germination in Dictyostelium discoideum. The developmental changes were prevented when germination was inhibited by inhibitors of calmodulin function. In addition, differences in patterns of phosphorylation were detected based upon the method of spore activation. Several phosphoproteins were lost in heat activated as compared to autoactivated spores. In spite of the fact that several aspects (i.e. autoactivation, emergence) are calmodulin-dependent, there was no evidence that calcium- or calmodulin-dependent protein kinase activity is present during any phase of spore germination. This suggests that other CaM-dependent processes mediate the diverse aspects of spore germination in D. discoideum.
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PMID:Stage-specific changes in protein phosphorylation during spore germination in Dictyostelium: role of calmodulin. 819 6

Cell movement and cell-type-specific gene expression during Dictyostelium development are regulated by cAMP, which functions both as an extracellular hormone-like signal and an intracellular second messenger. Previous data indicated that aca- mutants, which lack adenylyl cyclase activity, fail to aggregate and do not express cell-type-specific genes. We show here that overexpression of ACG, a constitutively active adenylyl cyclase, which in wild-type cells is only expressed during spore germination, partially restores the coordination of cell movement and completely restores developmental gene expression. The aca- cells can also be induced to develop into viable spores by synergy with wild-type cells and, furthermore, form small but normal fruiting bodies, after a developmentally relevant regimen of stimulation with nanomolar cAMP pulses followed by micromolar cAMP concentrations. 2'-Deoxy cAMP, a cAMP analog that activates the cell-surface cAMP receptors but not cAMP-dependent protein kinase (PKA), also induces fruiting body formation as well as expression of prespore-specific and prestalk-enriched genes in aca- cells. Intracellular cAMP levels were not altered in aca- cells after stimulation with 2'-deoxy cAMP. Our data indicate that ACA is not required to provide intracellular cAMP for PKA activation but is essential to produce extracellular cAMP for coordination of cell movement during all stages of development and for induction of developmental gene expression.
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PMID:Extracellular cAMP is sufficient to restore developmental gene expression and morphogenesis in Dictyostelium cells lacking the aggregation adenylyl cyclase (ACA). 822 44

Eleven Entamoeba histolytica protein-serine/threonine-kinase gene segments were identified using the polymerase chain reaction (PCR) and degenerate oligonucleotide primers to conserved amino acids in subdomains VI and VIII of the catalytic domain of protein-serine/threonine kinases. These ameba gene segments were homologous to myosin light chain kinases, protein kinase C, phosphorylase b kinase, and kinases that regulate glucose repression in yeast and cell growth in mammalian cells. One of these PCR products, which was homologous to the Dictyostelium discoideum protein kinase 2, was used to identify a full-length protein-serine/threonine-kinase gene (Eh rac1) from an E. histolytica genomic library. The open reading frame of Eh rac1 was 409 amino acids long (encoding a 47-kDa protein) and included an amino terminal segment containing 87 mostly charged and polar amino acids and a 322-amino acid carboxyl terminal segment containing the catalytic domain. The catalytic domain of Eh rac1 was homologous to the rac family of protein-serine/threonine-kinases, which are related to cAMP-dependent protein kinases and protein kinase Cs. Southern blots of ameba DNA showed that the Eh rac1 gene was present as a single copy in all strains tested, however pathogenic amebae expressed four times more Eh rac1 mRNAs than did nonpathogenic amebae. These studies suggest that E. histolytica, a primitive unicellular eukaryote, has a complex protein kinase family.
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PMID:Molecular cloning of a rac family protein kinase and identification of a serine/threonine protein kinase gene family of Entamoeba histolytica. 823 9

The ecmA and ecmB genes of Dictyostelium encode related extracellular matrix proteins and both are induced by DIF, the stalk cell-specific morphogen. The ecmA gene is expressed throughout the prestalk region of the migrating slug but only later, at culmination, do the prestalk cells express the ecmB gene. Expression of the ecmB gene is induced at the entrance to the stalk tube and we have identified two, apparently redundant, promoter elements that control this process. They act as repressors, preventing transcription in the tip of the migrating slug and the apical papilla of the culminant. They have a semi-palindromic consensus sequence TTGnCAA, where n is in one case 2 and in the other 4 bp. Either element alone is able to repress ecmB promoter activity in prestalk cells. Introduction of a single repressor element into the promoter of the ecmA gene changes its expression pattern to resemble that of the ecmB gene. Mutant elements, where n is altered, cause repression during the slug stage but allow premature ecmB expression during culmination; suggesting that the effective strength of the inductive signal may increase during culmination. Inhibition of cAMP-dependent protein kinase (PKA) in prestalk cells blocks both stalk cell maturation and ecmB gene expression. We show that the block to gene expression correlates precisely with the presence of a functional repressor element and this is consistent with the notion that expression of the ecmB gene is controlled by a PKA-dependent release from transcriptional repression.
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PMID:A repressor controls the timing and spatial localisation of stalk cell-specific gene expression in Dictyostelium. 826 39

We and others have previously shown that cAMP-dependent protein kinase (PKA) activity is essential for aggregation, induction of prespore gene expression and multicellular development in Dictyostelium. In this manuscript, we further examine this regulatory role. We have overexpressed the Dictyostelium PKA catalytic subunit (PKAcat) in specific cell types during the multicellular stages, using prestalk and prespore cell-type-specific promoters to make PKA activity constitutive in these cells (independent of cAMP concentration). To examine the effects on cell-type differentiation, we cotransformed the PKAcat-expressing vectors with reporter constructs expressing lacZ from four cell-type-specific promoters: ecmA (specific for prestalk A cells); ecmB (specific for prestalk B and anterior-like cells in the slug); ecmB delta 89 (specific for stalk cells); and SP60 (prespore-cell-specific). By staining for beta-galactosidase expression histologically at various stages of development in individual strains, we were able to dissect the morphological changes in these strains, examine the spatial localization of the individual cell types, and understand the possible roles of PKA during multicellular development. Expression of PKAcat from either the ecmA or ecmB prestalk promoters resulted in abnormal development that arrested shortly after the mound stage, producing a mound with a round apical protrusion at the time of tip formation. Prestalk A and prestalk B cells were localized in the central region and the apical mound in the terminal differentiated aggregate, while prespore cells showed an aberrant spatial localization. Consistent with a developmental arrest, these mounds did not form either mature spores or stalk cells and very few cells expressed a stalk-cell-specific marker. Expression of PKAcat from the prespore promoter resulted in abnormal morphogenesis and accelerated spore cell differentiation. When cells were plated on agar, a fruiting body was formed with a very large basal region, containing predominantly spores, and a small, abnormal sorocarp. Mature spore cells were first detected by 14 hours, with maximal levels reached by 18-20 hours, in contrast to 24-26 hours in wild-type strains. When cells were plated on filters, they produced an elongated tip from a large basal region, which continued to elongate as a tubular structure and produce a 'slug-like' structure at the end. The slug was composed predominantly of prestalk cells with a few prespore cells restricted to the junction between the 'slug' and tube. As the slug migrated, these prespore cells were found in the tube, while new prespore cells appeared at the slug/tube junction, suggesting a continual differentiation of new prespore cells at the slug's posterior.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:cAMP-dependent protein kinase differentially regulates prestalk and prespore differentiation during Dictyostelium development. 827 51

The prestalk-specific genes ecmA and ecmB in Dictyostelium are both induced by cAMP and DIF-1. In an attempt to understand the control mechanism of the differential expression of the two genes in multicellular aggregates, we examined the requirement for additional cellular interaction using low-cell-density cultures. We show that the whole process of inducing expression of these genes depends on high cell density. However, cells which have become responsive to DIF-1 expressed both genes at a low cell density in the presence of DIF-1 when incubated in a medium previously conditioned by developing cells. 8-Br-cAMP, which is believed to penetrate the cell membrane and activate protein kinase A, induced ecmB, but not ecmA, in the absence of the conditioned medium. These results suggest that there may be a specific inducer of ecmB in the conditioned medium which acts via activation of protein kinase A. Previously, the two genes were shown to respond differently to cAMP in late development at high cell densities, where there were cellular interactions. However, cAMP given to low-density-plated cells inhibited the conditioned medium-dependent induction of both genes to the same extent, suggesting that cAMP itself does not directly show the different effects on the two genes.
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PMID:Analysis of cellular interactions involved in differential control of prestalk genes in Dictyostelium discoideum. 829 79

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