Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The invasion and intracellular survival of Bordetella bronchiseptica in mouse dendritic cells were investigated. The results obtained suggest that B. bronchiseptica binds specifically to glycosylated receptors present on the plasma membrane of dendritic cells, thereby inducing a signal that triggers an actin polymerization-dependent phagocytic process, probably via a protein kinase-dependent transducing phosphorylation signal. The energy required for the uptake process by host cells is provided mainly by the glycolytic pathway. An intact microtubule system and de novo protein synthesis in eukaryotic and prokaryotic cells are essential for efficient uptake and intracellular survival. The interaction of B. bronchiseptica with dendritic cells may be pertinent to natural infections that follow a chronic clinical course and predispose to secondary infections, and to the T-cell response involved in protective immunity following infections caused by Bordetella spp.
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PMID:Mechanisms involved in uptake of Bordetella bronchiseptica by mouse dendritic cells. 796 Jan 36

Astrocytes have been shown to express endothelin (ET) receptors functionally coupled, via different heterotrimeric G proteins, to several intracellular pathways. To assess the relative contribution of each subtype in the astrocytic responses to ET-1, effects of BQ123, an antagonist selective for the ET receptor subtype A (ETA-R), and IRL1620, an agonist selective for the ET receptor subtype B (ETB-R), were investigated in primary cultures of rat astrocytes. Binding experiments indicated that the ETB-R is the predominant subtype in these cells. Inhibition of forskolin-stimulated cyclic AMP production was observed under. ETB-R stimulation. Bordetella pertussis toxin (PTX) pretreatment completely abolished this effect, indicating that this pathway is coupled to the ETB-R via Gi protein. Increases of tyrosine phosphorylation of cellular proteins, stimulation of mitogen-activated protein kinase (MAPK), and DNA synthesis were also found to be mediated by the ETB-R, but through PTX-insensitive G protein. IRL1620-induced MAPK activation involved the adapter proteins Shc and Grb2 and the serine/threonine kinase Raf-1. This study reveals that the various effects of ET-1 in astrocytes are mediated by the ETB-R, which couples to multiple signaling pathways including the MAPK cascade.
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PMID:Coupling of ETB endothelin receptor to mitogen-activated protein kinase stimulation and DNA synthesis in primary cultures of rat astrocytes. 859 14

In a cell-free system from neutrophil cytosol GTP(&ggr ;)S can induce an increase in the number of free filament barbed ends and massive actin polymerisation and cross-linking. GTP(&ggr ;)S stimulation was susceptible to an excess of GDP, but not Bordetella pertussis toxin and could not be mimicked by aluminium fluoride, myristoylated GTPgammaS.Gialpha2 or Gbeta1gamma2 subunits of trimeric G proteins. In contrast, RhoGDI and Clostridium difficile toxin B (inactivating Rho family proteins) completely abrogated the effect of GTPgammaS. When recombinant, constitutively activated and GTPgammaS-loaded Rac1, RhoA, or Cdc42 proteins alone or in combination were probed at concentrations >100 times the endogenous, however, they were ineffective. Purified Cdc42/Rac-interactive binding (CRIB) domain of WASP or C3 transferase did not prevent actin polymerisation by GTPgammaS. The action of GTPgammaS was blocked by mM [Mg2+], unless a heat- and trypsin-sensitive component present in neutrophil plasma membrane was added. Liberation of barbed ends seems therefore to be mediated by a toxin B-sensitive cytosolic Rho-family protein, requiring a membrane-associated guanine nucleotide exchange factor (GEF) for its activation by GTPgammaS under physiologic conditions. The inefficiency of various protein kinase and phosphatase inhibitors (staurosporine, genistein, wortmannin, okadaic acid and vanadate) and removal of ATP by apyrase, suggests that phosphate transfer reactions are not required for the downstream propagation of the GTPgammaS signal. Moreover, exogenously added phosphoinositides failed to induce actin polymerisation and a PtdIns(4,5)P2-binding peptide did not interfere with the response to GTPgammaS. The speed and simplicity of the presented assay applicable to protein purification techniques will facilitate the further elucidation of the molecular partners involved in actin polymerisation.
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PMID:GTPgammaS-induced actin polymerisation in vitro: ATP- and phosphoinositide-independent signalling via Rho-family proteins and a plasma membrane-associated guanine nucleotide exchange factor. 958 May 66

Since its discovery in 1956, cyclic AMP (cAMP) has been shown to be a ubiquitous second messenger. It functions as one of many signaling molecules enabling cells to respond to external signals. cAMP is synthesized by adenylyl cyclases (ACs), enzymes that convert adenosine triphosphate (ATP) to cAMP. Three classes of ACs have been cloned based on the conservation of their catalytic domains; they include: class I-ACs from Enterobacteria, including Escherichia coli; class II-"toxic" ACs, including calmodulin-activated enzymes from Bordetella pertussis and Bacillus anthracis; class III-ACs homologues from bacteria to human; they include nine isoformes found in mammals, and designated AC-1 to AC-9. Although ACs can exist in particulate and soluble forms, the former form predominates-at least in mammals. Nine (AC-1-AC-9) mammalian enzymes are stimulated by an "alpha" subunit of Gs-protein (Gs alpha) and by the diterpene forskolin, albeit to varying degrees (with AC-9 being least sensitive to forskolin). In addition to their core signaling capability in response to signals from Gs alpha, the different ACs are capable of receiving signals from a variety of sources, including other G-protein subunits, such as Gi alpha (inhibitory) or G beta gamma (stimulatory or inhibitory, depending on the enzyme), protein kinases (protein kinase A, PKA; protein kinase C, PKC; and calmodulin kinase, Ca(2+)-CaM), and Ca2+ by itself. The effects of activators are often highly synergistic or conditional, suggesting function of ACs as coincidence detectors. The plethora of G-protein-coupled receptors, together with functional differentiation among G-protein subunits and many AC isoforms, permits assembly of a very complex signaling systems with a wide variety of integrative characteristics. This survey presents basic facts on ACs classification and characteristics, and gives a brief review of the recent developments in this important and rapidly growing field of cyclic AMP research.
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PMID:[Adenylyl cyclase--isoforms, regulation and function]. 1035 82

Bordetella pertussis interacts with very-late antigen-5 (VLA-5) receptors on the human monocyte resulting in cross-linking of these receptors followed by activation of complement receptor 3 (CR3) and firm adhesion of B. pertussis to these monocytes. In the present study we investigated whether protein tyrosine kinases are involved in the activation of CR3 on monocytes, which was assessed by the binding of C3bi-coated erythrocytes (EC3bi). Pre-incubation of monocytes with tyrphostin-A47, a specific protein tyrosine kinase inhibitor, before adherence of the cells to an anti-VLA-5 monoclonal antibody-coated surface, or addition of tyrphostin-A47 within 10 min of the adherence to such surface, reduced the binding of EC3bi to monocytes significantly. Pre-incubation of monocytes with tyrphostin-A47 reduced the binding of B. pertussis to such monocytes as well. Inhibitors of protein kinase A and/or C had no effect on EC3bi binding to monocytes. Cross-linking of VLA-5 on monocytes resulted in tyrosine phosphorylation of several proteins. Together, these results indicate that protein tyrosine kinases are involved in the VLA-5-induced activation of CR3 on human monocytes.
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PMID:Activation of complement receptor 3 on human monocytes by cross-linking of very-late antigen-5 is mediated via protein tyrosine kinases. 1054 Feb 18

We have investigated the synergistic interactions of a naturally occurring peptidoglycan fragment (muramyl peptide) and bacterial endotoxin in the induction of inflammatory processes within respiratory epithelial cells, at the levels of both signal transduction events and ultimate cellular metabolic effects. The source of the muramyl peptide is Bordetella pertussis, the causative agent of the respiratory disease pertussis. During log-phase growth, B. pertussis releases the muramyl peptide tracheal cytotoxin (TCT), which has the structure N - acetylglucosaminyl - 1,6 - anhydro - N - acetylmuramyl - (L) - alanyl - gamma - (D) - glutamyl - meso - diaminopimelyl - (D) - alanine, equivalent to a monomeric subunit of gram-negative bacterial peptidoglycan. When applied to hamster trachea epithelial (HTE) cells, TCT and endotoxin were found to be highly synergistic in the induction of interleukin-1alpha (IL-1alpha), type II (inducible) nitric oxide synthase (iNOS), nitric oxide production, and inhibition of DNA synthesis. Neither molecule alone significantly triggered these responses. The serine/threonine protein kinase inhibitor H7 blocked induction of both IL-1alpha and iNOS. More selective inhibitors of protein kinase C, cyclic AMP-dependent protein kinase, and cyclic GMP-dependent protein kinase were not capable of blocking the effects of TCT and endotoxin, suggesting that the H7-inhibited component in this pathway is not among the commonly described kinase targets of H7. Treatment of HTE cells with exogenous IL-1 reproduced the induction of iNOS and DNA synthesis inhibition caused by TCT and endotoxin. H7 was not capable of interfering with effects caused by exogenous IL-1, implying that the H7-sensitive step in the pathway is upstream of IL-1 protein production. Similar assays with the phorbol ester phorbol myristate acetate indicate that it could effectively synergize with endotoxin but not with TCT, suggesting that TCT and endotoxin induce different signal transduction events that combine synergistically. The synergy observed with TCT and endotoxin in epithelial cells is significantly different from their interaction with other cell types, revealing a unique inflammatory response by epithelial cells to these natural bacterial products.
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PMID:Synergistic epithelial responses to endotoxin and a naturally occurring muramyl peptide. 1067 32

The edema factor exotoxin produced by Bacillus anthracis is an adenylyl cyclase that is activated by calmodulin (CaM) at resting state calcium concentrations in infected cells. A C-terminal 60-kDa fragment corresponding to the catalytic domain of edema factor (EF3) was cloned, overexpressed in Escherichia coli, and purified. The N-terminal 43-kDa domain (EF3-N) of EF3, the sole domain of edema factor homologous to adenylyl cyclases from Bordetella pertussis and Pseudomonas aeruginosa, is highly resistant to protease digestion. The C-terminal 160-amino acid domain (EF3-C) of EF3 is sensitive to proteolysis in the absence of CaM. The addition of CaM protects EF3-C from being digested by proteases. EF3-N and EF3-C were expressed separately, and both fragments were required to reconstitute full CaM-sensitive enzyme activity. Fluorescence resonance energy transfer experiments using a double-labeled CaM molecule were performed and indicated that CaM adopts an extended conformation upon binding to EF3. This contrasts sharply with the compact conformation adopted by CaM upon binding myosin light chain kinase and CaM-dependent protein kinase type II. Mutations in each of the four calcium binding sites of CaM were examined for their effect on EF3 activation. Sites 3 and 4 were found critical for the activation, and neither the N- nor the C-terminal domain of CaM alone was capable of activating EF3. A genetic screen probing loss-of-function mutations of EF3 and site-directed mutations based on the homology of the edema factor family revealed a conserved pair of aspartate residues and an arginine that are important for catalysis. Similar residues are essential for di-metal-mediated catalysis in mammalian adenylyl cyclases and a family of DNA polymerases and nucleotidyltransferases. This suggests that edema factor may utilize a similar catalytic mechanism.
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PMID:An extended conformation of calmodulin induces interactions between the structural domains of adenylyl cyclase from Bacillus anthracis to promote catalysis. 1092 33

Bordetella pertussis generates a bacterial toxin utilized in signal transduction investigation because of its ability to ADP ribosylate specific G proteins. We previously noted that pertussis toxin (PTX) directly activates endothelial cells, resulting in disruption of monolayer integrity and intercellular gap formation via a signaling pathway that involves protein kinase C (PKC). We studied the effect of PTX on the activity of the 42- and 44-kDa extracellular signal-regulated kinases (ERK), members of a kinase family known to be activated by PKC. PTX caused a rapid time-dependent increase in bovine pulmonary artery endothelial cell ERK activity that was significantly attenuated by 1) pharmacological inhibition of MEK, the upstream ERK activating kinase, 2) an MEK dominant-negative construct, and 3) PKC inhibition with bisindolylmaleimide. There was little evidence for the involvement of either Gbetagamma-subunits, Ras GTPases, Raf-1, p60(src), or phosphatidylinositol 3'-kinases in PTX-mediated ERK activation. Both the purified beta-oligomer binding subunit of the PTX holotoxin and a PTX holotoxin mutant genetically engineered to eliminate intrinsic ADP ribosyltransferase activity completely reproduced PTX effects on ERK activation, suggesting that PTX-induced ERK activation involves a novel PKC-dependent signaling mechanism that is independent of either Ras or Raf-1 activities and does not require G protein ADP ribosylation.
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PMID:Pertussis toxin directly activates endothelial cell p42/p44 MAP kinases via a novel signaling pathway. 1128 37

The BvgAS virulence control system regulates the expression of type III secretion genes in Bordetella subspecies that infect humans and other mammals. We have identified five open reading frames, btrS, btrU, btrX, btrW and btrV, that are activated by BvgAS and encode regulatory factors that control type III secretion at the levels of transcription, protein expression and secretion. The btrS gene product bears sequence similarity to ECF (extracytoplasmic function) sigma factors and is required for transcription of the bsc locus. btrU, btrW and btrV encode proteins predicted to contain PP2C-like Ser phosphatase, HPK (His protein kinase)-like Ser kinase and STAS anti-sigma factor antagonist domains, respectively, which are characteristic of Gram-positive partner switching proteins in Bacillus subtilis. BtrU and BtrW are required for secretion of proteins that are exported by the bsc type III secretion system, whereas BtrV is specifically required for protein synthesis and/or stability. Bordetella species have thus evolved a unique cascade to differentially regulate type III secretion that combines a canonical phosphorelay system with an ECF sigma factor and a set of proteins with domain signatures that define partner switchers, which were traditionally thought to function only in Gram-positive bacteria. The presence of multiple layers and mechanisms of regulation most likely reflects the need to integrate multiple signals in controlling type III secretion. The bsc and btr loci are nearly identical between broad-host-range and human-specific Bordetella. Comparative analysis of Bordetella subspecies revealed that, whereas bsc and btr loci were transcribed in all subspecies, only broad-host-range strains expressed a functional type III secretion system in vitro. The block in type III secretion is post-transcriptional in human-adapted strains, and signal recognition appears to be a point of divergence between subspecies.
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PMID:Regulation of type III secretion in Bordetella. 1513 Jan 35

We have recently described a multicomponent cascade that regulates type III secretion in Bordetella. This cascade includes a group of proteins, BtrU, BtrW, and BtrV, that contain an array of domains that define partner-switching complexes previously characterized in gram-positive bacteria. BtrU contains a PP2C-like serine phosphatase domain, BtrW contains a serine kinase/anti-sigma factor motif, and BtrV includes an anti-sigma factor antagonist domain. On the basis of genetic studies and sequence similarity with the RsbU-RsbW-RsbV and SpoIIE-SpoIIAB-SpoIIAA partner switchers of Bacillus subtilis, a series of interactions between Bordetella orthologs have been proposed. Bacterial two-hybrid analysis, tagged protein pull-downs, and in vitro phosphorylation assays were used to characterize interactions between BtrW and BtrV. In addition, BtrV mutants predicted to mimic a constitutively phosphorylated form of BtrV or to be nonphosphorylatable and BtrW mutants defective in serine kinase activity or the ability to bind BtrV were constructed and analyzed. Our results demonstrate that (i) BtrW and BtrV interact with each other, (ii) BtrW phosphorylates BtrV at serine S55, (iii) the conserved serine residue S55 of BtrV plays a key role in BtrV-BtrW interactions, and (iv) the ability of BtrW to phosphorylate BtrV and disrupt BtrV-BtrW binding is essential for the type III secretion process.
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PMID:Interactions between partner switcher orthologs BtrW and BtrV regulate type III secretion in Bordetella. 1607 12


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