UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The alpha subunit of Gz (alpha(z)) harbors two N-terminal serine residues (at positions 16 and 27) that serve as protein kinase C-mediated phosphorylation sites. The cognate residues in the alpha subunit of Gt1 provide binding surfaces for the beta1 subunit. We used three serine-to-alanine mutants of alpha(z) to investigate the functional importance of the two N-terminal serine residues. Wild-type or mutant alpha(z) was transiently coexpressed with different receptors and adenylyl cyclase isozymes in human embryonic kidney 293 cells, and agonist-dependent regulation of cyclic AMP accumulation was examined in a setting where all endogenous alpha subunits of G1 were inactivated by pertussis toxin. Replacement of one or both serine residues by alanine did not alter the ability of alpha(z) to interact with delta-opioid, dopamine D2, or adenosine A1 receptors. Its capacity to inhibit endogenous and type VI adenylyl cyclases was also unaffected. Functional release of betagamma subunits from the mutant alpha(z) subunits was not impaired because they transduced betagamma-mediated stimulation of type II adenylyl cyclase. Constitutively active mutants of all four alpha(z) subunits were constructed by the introduction of a Q205L mutation. The activated mutants showed differential abilities to inhibit human choriogonadotropin-mediated cyclic AMP accumulation in luteinizing hormone receptor-transfected cells. Loss of both serine residues, but not either one alone, impaired the receptor-independent inhibition of adenylyl cyclase by the GTPase-deficient mutant. Thus, replacement of the amino-terminal serine residues of alpha(z) has no apparent effect on receptor-mediated responses, but these serine residues may be essential for ensuring transition of alpha(z) into the active conformation.
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PMID:Functional role of amino-terminal serine16 and serine27 of G alphaZ in receptor and effector coupling. 916 47

Serotonin (5-HT) was recently reported to inhibit cAMP generation in oppossum (OK) cells. We thus investigated the effects of 5-HT upon the Na(+)-Pi cotransport in cultured OK cells and its interactions with dopamine. Incubation of OK cells with 1 nM-10 microM 5-HT resulted in dose-dependent stimulation of Na(+)-Pi contransport (ED50 approximately equal to 8 nM) and also counteracted inhibition of Na(+)-Pi cotransport elicited by dopamine. Pre-incubation with 5-HT decreased cAMP accumulation elicited by forskolin or dopamine and pre-treatment with pertussis toxin abolished both the inhibitory effect of 5-HT upon cAMP levels and stimulation of Na(+)-Pi cotransport. Incubation of OK cells with the 5-HT precursor 5-hydroxytryptophan resulted in time- and dose-dependent accumulation of 5-HT in the medium that also elicited an increase in Na(+)-Pi cotransport. Both the effects of 5-HT and dopamine on Na(+)-Pi cotransport were prevented by carbidopa. The stimulatory effect of 5-HT was specific for the Na(+)-Pi cotransport system since no effects were observed on Na(+)-alanine cotransport. The results indicate that 5-HT stimulates Na(+)-Pi cotransport at least in part via inhibition of cAMP accumulation. We propose that 5-HT and dopamine have opposite actions as paracrine/autocrine regulators of Na(+)-Pi cotransport via opposite effects upon cAMP formation.
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PMID:Opposite paracrine effects of 5-HT and dopamine on Na(+)-Pi cotransport in opossum kidney cells. 921 57

The regulation of mitogenic signalling pathways by G-protein-coupled receptors has been studied in Rat-1 fibroblasts stably transfected with the murine delta opioid receptor. We showed recently that stimulation of this receptor led to the activation of the p42 and p44 isoforms of mitogen-activated protein (MAP) kinase [Burt, Carr, Mullaney, Anderson and Milligan (1996) Biochem. J. 320, 227-235]. The present study has examined the role of the ribosomal S6 kinase p70(s6k) in mitogenic signalling by the delta opioid receptor. Treatment of Rat-1 fibroblasts expressing this receptor with the synthetic enkephalin [d-Ala,d-Leu]-enkephalin (DADLE) led to a dose-dependent increase in p70(s6k) enzyme activity. Activation of p70(s6k) was dependent on the level of delta opioid receptor expressed and was sustained above basal levels for several hours. Immunoblotting revealed that p70(s6k) was subject to increased phosphorylation, the extent of which coincided temporally with enzyme activation. Activation of p70(s6k) by DADLE, but not by platelet-derived growth factor, was blocked by pretreatment of cells with pertussis toxin. Activation of p70(s6k) was also partly blocked by wortmannin, indicating that phosphoinositide 3-OH kinase is required for full activation of p70(s6k) by opioid receptor agonists. Activation of the delta opioid receptor in transfected cells led to increased DNA synthesis. This increase was prevented by rapamycin, which also completely blocked activation of p70(s6k) by DADLE. In addition, prevention of the activation of p42 and p44 MAP kinases also blocked the induction of DNA synthesis by DADLE. These results suggest that the activation of both MAP kinases and p70(s6k) might be crucial to the induction of mitogenic responses by Gi-linked receptors such as the delta opioid receptor.
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PMID:Mitogenic signalling by delta opioid receptors expressed in rat-1 fibroblasts involves activation of the p70s6k/p85s6k S6 kinase. 922 49

Chronic opioid treatment of Neuro2A cells stably expressing either delta-opioid receptor (DOR) or mu-opioid receptor (MOR) resulted in agonist-dependent receptor down-regulation. Although there is high homology in the DOR and MOR amino acid sequences, there is an apparent difference in the regulation of the cellular levels of these two receptors. The ability of 24-hr [D-Pen2,D-Pen5]enkephalin (DPDPE) treatment to internalize and down-regulate DORs expressed in Neuro2A remained intact after pertussis toxin (PTX) pretreatment, which uncouples the receptor from G proteins. In contrast, the ability of [D-Ala2,N-MePhe4,Gly-ol5]enkephalin (DAMGO) to internalize and down-regulate MORs in Neuro2A cells was completely abolished by PTX pretreatment. The requirement of functional MOR but not DOR in agonist-induced receptor down-regulation was further demonstrated by site-directed mutagenesis of the receptors. When Asp114 in transmembrane 2 of MOR was converted to alanine, the ability was abolished of DAMGO or morphine to inhibit forskolin-stimulated [3H]cAMP production in Neuro2A cells stably expressing this mutant receptor. There was a parallel decrease in agonist affinity and elimination of the agonist-induced receptor down-regulation. On the other hand, although the equivalent mutation of Asp95 to alanine in DOR likewise resulted in the inability of DPDPE to inhibit [3H]cAMP production, the ability of DPDPE to down-regulate this mutant receptor after 24-hr treatment was unaffected. This difference in MOR and DOR down-regulation could be caused by the differences in the ability of these two receptors to form high affinity complexes with G proteins. DOR retained the ability to form high affinity complexes even after PTX pretreatment or after mutation of Asp95 in transmembrane 2. In contrast, MOR existed only in the low affinity, uncoupled state after PTX pretreatment or after conversion of Asp114 to alanine. Therefore, in Neuro2A cells, agonist-induced opioid receptor down-regulation seems to depend directly on the formation of the high affinity receptor complexes and not on the activation of the receptors and subsequent transduction of the signals.
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PMID:The mu-opioid receptor down-regulates differently from the delta-opioid receptor: requirement of a high affinity receptor/G protein complex formation. 922 19

The involvement of basic residues of interleukin(IL)-8 receptors in coupling to the Gi and G16 proteins was investigated by using a series of IL-8 receptor mutants. Substitution of the basic amino acids in the third inner loop of the receptor does not alter the abilities of the receptor mutants to activate recombinant Galpha16 or phosphoinositide-specific phospholipase C (PLC) beta2 expressed in COS-7 cells. However, an IL-8 receptor mutant with double mutations at residues Lys158 and Arg159 of the second inner loop loses its abilities to activate Galpha16 but retains its ability to activate PLC beta2. The activation of PLC beta2 by an IL-8 receptor that is sensitive to pertussis toxin has been previously demonstrated to be mediated through Gbetagamma. Surprisingly, the IL-8 receptor mutants with substitution of Ala for either residue Lys158 or Arg159 can still activate Galpha16, which suggests that either of the two basic residues in the second inner loop of the IL-8 receptor is sufficient for Galpha16 coupling.
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PMID:Two basic amino acids in the second inner loop of the interleukin-8 receptor are essential for Galpha16 coupling. 931 98

Bordetella pertussis fimbriae bind to sulfated sugars such as heparin through the major subunit Fim2. The Fim2 subunit contains two regions, designated H1 and H2, which show sequence similarity with heparin binding regions of fibronectin, and the role of these regions in heparin binding was investigated with maltose binding protein (MBP)-Fim2 fusion proteins. Deletion derivatives of MBP-Fim2 showed that both regions are important for binding to heparin. The role of H2 in heparin binding was confirmed by site-directed mutagenesis in which basic amino acids were replaced by alanine. These studies revealed that Lys-186 and Lys-187 are important for heparin binding of MBP-Fim2, whereas Arg-179 is not required. Peptides derived from H1 and H2 (pepH1 and pepH2) also showed heparin binding activity. Using a series of peptides, in each of which a different basic amino acid was substituted for alanine, we demonstrated that the structural requirements for heparin binding differ significantly among pepH1 and pepH2 peptides. A Pepscan analysis of Fim2 revealed regions outside H1 and H2 which bind heparin and showed that not only basic amino acids but also tyrosines may be important for binding to sulfated sugars. A comparison of the heparin binding regions of Fim2 with homologous regions of Fim3 and FimX, two closely related but antigenically distinct fimbrial subunits, showed that basic amino acids and tyrosines are generally conserved. The major heparin binding regions identified in Fim2 are part of epitopes recognized by human antibodies, suggesting that the heparin binding regions are exposed at the fimbrial surface and are immunodominant. Since B. pertussis fimbriae show weak serological cross-reactivity, the differences in primary structure in the heparin binding regions of Fim2, Fim3, and FimX may affect antibody binding but not heparin binding, allowing the bacteria to evade antibody-mediated immunity by switching the fimbrial gene expressed.
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PMID:Identification and characterization of heparin binding regions of the Fim2 subunit of Bordetella pertussis. 957 15

A synthetic tridecapeptide, corresponding to the 30-42 fragment of the S1 subunit of pertussis toxin, has been structurally characterised by using NMR spectroscopy. The molecule corresponds to a T-cell epitope of the bacterial toxin which has been extensively analysed with the alanine scanning approach to check the relevance of each residue for the biological activity of the peptide. Five of these Ala-substituted analogs have also been spectroscopically studied. In the experimental conditions used, different extents of helicity were found for the six peptides in a way which cannot be related to their capabilities of of binding to major histocompatibility complex (MHC) class II and inducing T-cell proliferation. Backbone flexibility around helical transient conformations seems to constitute the structural intermediate step between the structure of the corresponding sequence within the parental protein and in the MHC class II complex. A model of the latter complex, which accounts for the different biological activities of the analogs, is proposed.
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PMID:NMR studies on the structure/function correlations of T-cell-epitope analogs from pertussis toxin. 966 Jan 85

A novel semisynthetic scheme was developed to couple amine-reactive labeling reagents to the muramyl peptide tracheal cytotoxin (TCT) without affecting a critical amine group. Tracheal cytotoxin, N-acetylglucosaminyl-1, 6-anhydro-N-acetylmuramyl-Ala-gamma-Glu-A2pmAla (A2pm, diaminopimelic acid), is released by Bordetella pertussis, the etiologic agent of whooping cough. This glycopeptide reproduces the specific ciliated cell damage observed in the respiratory tract during B. pertussis infection. To examine binding of TCT to target respiratory cells, we have produced labeled TCT analogs. Structure-function studies have shown that the primary amine of the A2pm side chain is essential for TCT toxicity in respiratory tissue. The methodology described here allows coupling of amine-reactive reagents to TCT without affecting this essential amine. The terminal N-acetylglucosamine ring is opened by oxidation with periodic acid, a dihydrazide linker is coupled to the oxidized ring, and pH control is used to selectively derivatize the free hydrazide with an N-hydroxysuccinimide ester, while the A2pm side-chain amine remains free. Using this method, we have coupled the Bolton-Hunter reagent to TCT, producing a biologically active 125I-labeled TCT analog.
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PMID:Muramyl peptide probes derived from tracheal cytotoxin of Bordetella pertussis. 978 86

Myristoylated alanine-rich C kinase substrate (MARCKS) is a widely distributed specific protein kinase C (PKC) substrate and has been implicated in membrane trafficking, cell motility, secretion, cell cycle, and transformation. We found that amyloid beta protein (A beta) (25-35) and A beta (1-40) phosphorylate MARCKS in primary cultured rat microglia. Treatment of microglia with A beta (25-35) at 10 nM or 12-O-tetradecanoylphorbol 13-acetate (1.6 nM) led to phosphorylation of MARCKS, an event inhibited by PKC inhibitors, staurosporine, calphostin C, and chelerythrine. The A beta (25-35)-induced phosphorylation of MARCKS was inhibited by pretreatment with the tyrosine kinase inhibitors genistein and herbimycin A, but not with pertussis toxin. PKC isoforms alpha, delta, and epsilon were identified in microglia by immunocytochemistry and western blots using isoform-specific antibodies. PKC-delta was tyrosine-phosphorylated by the treatment of microglia for 10 min with A beta (25-35) at 10 nM. Other PKC isoforms alpha and epsilon were tyrosine-phosphorylated by A beta (25-35), but only to a small extent. We propose that a tyrosine kinase-activated PKC pathway is involved in the A beta (25-35)-induced phosphorylation of MARCKS in rat microglia.
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PMID:Amyloid beta protein (25-35) phosphorylates MARCKS through tyrosine kinase-activated protein kinase C signaling pathway in microglia. 1003 91

The prostaglandin E-prostanoid (EP)3 receptor signals primarily through the inhibitory G protein Gi, thereby decreasing intracellular cAMP levels. To study the signal transduction properties of the rabbit EP3 receptor, five splice variants were expressed in HEK293tsA201 cells: 72A, 74A, 77A, 80A and the novel splice variant NT, which lacks the C-terminal sequence. The ability of the EP3 receptor splice variants to modulate expression of a beta-galactosidase reporter gene under the control of a promoter containing cAMP response elements (CRE) was assessed. Each splice variant induced sulprostone-mediated increase in beta-galactosidase enzymatic activity with EC50 ranging from 0.8 nM for the NT splice variant to 3.1 nM for the 77A splice variant. Substitution of either Asp338 with Ala, or Arg329 with Ala or Glu in the 77A splice variant resulted in a loss of receptor-evoked increases in beta-galactosidase activity, whereas substitution of Lys300 with alanine had no effect on signal transduction. These phenotypes correlate with the inhibition of cAMP generation by direct cAMP measurement. Signal transduction was insensitive to pretreatment of cells with pertussis toxin, suggesting that a nonGi/Go pathway is activated by the EP3 receptor. Direct measurement of second messenger levels confirmed that there was no increase in cAMP levels mediated by the 77A splice variant, however, there was a modest increase in intracellular Ca2+. Partial blockade of the reporter activity with kinase inhibitors demonstrates that CRE activation is mediated in part by a Ca2+-dependent kinase pathway. These data suggest that the EP3 receptor signals through a novel cAMP response element binding protein/CRE pathway.
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PMID:Prostaglandin E-prostanoid-3 receptor activation of cyclic AMP response element-mediated gene transcription. 1008 97

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