1,091 research outputs found

    Cross-Desensitization Among Receptors for Platelet Activating Factor and Peptide Chemoattractants: Evidence for Independent Regulatory Pathways

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    Cross-desensitization among receptors for peptide chemoattractants have been shown to involve two independent processes, receptor phosphorylation and inhibition of phospholipase C (PLC) activation. Receptors for lipid chemoattractants, i.e. platelet activating factor (PAF) and leukotriene B4, did not inhibit the responses of peptide chemoattractant receptors, suggesting distinct signaling pathways. To examine cross-desensitization between receptors for lipid and peptide chemoattractants, cDNA encoding the PAF receptor (PAFR) was co-expressed into RBL-2H3 cells with cDNAs encoding receptors for either formylated peptides (FR), a product of the fifth component of complement (C5aR) or interleukin-8 A (IL-8RA). PAFR was homologously phosphorylated and desensitized by PAF, and cross-phosphorylated and cross-desensitized by fMet-Leu-Phe, C5a, and IL-8. In contrast, the receptors for peptide chemoattractants were neither cross-phosphorylated nor cross-desensitized by PAF. Staurosporine blocked cross-phosphorylation and cross-desensitization of the PAFR by peptide chemoattractants. Truncation of the cytoplasmic tail of PAFR (mPAFR) abolished its homologous and cross- phosphorylation. mPAFR was also resistant to cross-desensitization by peptide chemoattractants at the level of PLC activation. Interestingly, mPAFR mediated a sustained Ca2+ mobilization in response to PAF and was more active in inducing GTPase activity, phosphoinositide hydrolysis, secretion, and phospholipase D activation than the wild type PAFR. In contrast to PAFR, stimulation of the mPAFR cross-phosphorylated and cross-desensitized responses to IL-8RA. As expected, FR, which is resistant to cross- phosphorylation by C5aR and IL-8RA, was not phosphorylated by mPAFR. However, unlike C5aR and IL-8RA, mPAFR did not inhibit the ability of FR to activate PLC. Blocking Ca2+ influx inhibited mPAFR-mediated sustained Ca2+ response, phospholipase D activation and secretion, but not phosphoinositide hydrolysis and cross-phosphorylation and cross-desensitization of IL-8RA. The data herein suggest that cross-desensitization of PAFR by peptide chemoattractants is solely due to receptor phosphorylation. The PAFR and the peptide chemoattractant receptors do not cross-regulate each other at the level of PLC, suggesting distinct regulatory pathways

    Multiple Signaling Pathways of Human Interleukin-8 Receptor A: Independent Regulation by Phosphorylation

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    Interleukin-8 (IL-8) receptor A (CXCR1) couples to a pertussis toxin- sensitive G protein to mediate phospholipase CĪ² (PLCĪ²) activation and cellular responses. Responses to CXCR1 are attenuated by prior exposure of neutrophils to either IL-8, a cleavage product of the fifth component of complement (C5a) or n-formylated peptides (formylmethionylleucylphenylalanine, fMLP). To characterize the role of receptor phosphorylation in the regulation of the CXCR1, a phosphorylation- deficient mutant, M2CXCR1, was constructed. This receptor, stably expressed in RBL-2H3 cells, coupled more efficiently to G protein and stimulated enhanced phosphoinositide hydrolysis, cAMP production, exocytosis, and phospholipase D activation, and was resistant to IL-8-induced receptor internalization. The rate and total amount of ligand stimulated actin polymerization remained unchanged, but interestingly, chemotaxis was decreased by ~30% compared with the wild type receptor. To study the role of receptor phosphorylation in cross-desensitization of chemoattractant receptors, M2CXCR1 was coexpressed with cDNAs encoding receptors for either fMLP (FR), C5a (C5aR), or platelet-activating factor (PAFR). Both C5aR and PAFR were cross-phosphorylated upon M2CXCR1 activation, resulting in attenuated guanosine 5\u27-3\u27-O-(thio)triphosphate (GTPĪ³S) binding in membranes. In contrast, FR and M2CXCR1 were resistant to cross- phosphorylation and cross-inhibition of GTPĪ³S binding by other receptors. Despite the resistance of M2CXCR1 to cross-phosphorylation and receptor/G protein uncoupling, its susceptibility to cross-desensitization of its Ca2+ response by fMLP and C5a, was equivalent to CXCR1. Regardless of the enhancement in certain receptor functions in M2CXCR1 compared with the wild type CXCR1, the mutated receptors mediated equivalent PLCĪ²3 phosphorylation and cross-desensitization of Ca2+ mobilization by FR, C5aR, and PAFR. The results herein indicate that phosphorylation of CXCR1 regulates some, but not all of the receptors functions. While receptor phosphorylation inhibits G protein turnover, PLC activation, Ca2+ mobilization and secretion, it is required for normal chemotaxis and receptor internalization. Since phosphorylation of CXCR1 had no effect on its ability to induce phosphorylation of PLCĪ²3 or to mediate class-desensitization, these activities may be mediated by independently regulated pathways

    Role of Phospholipase CĪ²3 Phosphorylation in the Desensitization of Cellular Responses to Platelet-Activating Factor

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    Platelet-activating factor (PAF) stimulates a diverse array of cellular responses through receptors coupled to G proteins that activate phospholipase C (PLC). Truncation of the cytoplasmic tail of the receptor to remove phosphorylation sites (mutant PAF receptor, mPAFR) results in enhancement of PAF-stimulated responses. Here we demonstrate that PAF or phorbol 12- myristate 13-acetate (PMA) pretreatment inhibited wild type PAFR-induced PLC- mediated responses by ~90%, whereas these responses to the phosphorylation- deficient mPAFR were inhibited by ~50%, despite normal G protein coupling, suggesting a distal inhibitory locus. PAF and PMA, as well as a membrane permeable cyclic AMP analog, stimulated phosphorylation of PLCĪ²3. A protein kinase C (PKC) inhibitor blocked phosphorylation of PLCĪ²3 stimulated by PAF and PMA but not by cAMP. Activation of protein kinase A (PKA) by cAMP did not result in inhibition of Ca2+ mobilization stimulated by PAF. In contrast, cAMP did inhibit the response to formylpeptide chemoattractant receptor. These data suggest that homologous desensitization of PAF-mediated responses is regulated via phosphorylation at two levels in the signaling pathway, one at the receptor and the other at PLCĪ²3 mediated by PKC but not by PKA. Phosphorylation of PLCĪ²3 by PKA could explain the inhibition of formylpeptide chemoattractant receptor signaling by cAMP. As PAF and formylpeptide chemoattractant receptors activate PLC via different G proteins, phosphorylation of PLCĪ²3 by PKC and PKA could provide distinct regulatory control for classes of G protein-coupled receptors

    Algebraic Bethe Ansatz for a discrete-state BCS pairing model

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    We show in detail how Richardson's exact solution of a discrete-state BCS (DBCS) model can be recovered as a special case of an algebraic Bethe Ansatz solution of the inhomogeneous XXX vertex model with twisted boundary conditions: by implementing the twist using Sklyanin's K-matrix construction and taking the quasiclassical limit, one obtains a complete set of conserved quantities, H_i, from which the DBCS Hamiltonian can be constructed as a second order polynomial. The eigenvalues and eigenstates of the H_i (which reduce to the Gaudin Hamiltonians in the limit of infinitely strong coupling) are exactly known in terms of a set of parameters determined by a set of on-shell Bethe Ansatz equations, which reproduce Richardson's equations for these parameters. We thus clarify that the integrability of the DBCS model is a special case of the integrability of the twisted inhomogeneous XXX vertex model. Furthermore, by considering the twisted inhomogeneous XXZ model and/or choosing a generic polynomial of the H_i as Hamiltonian, more general exactly solvable models can be constructed. -- To make the paper accessible to readers that are not Bethe Ansatz experts, the introductory sections include a self-contained review of those of its feature which are needed here.Comment: 17 pages, 5 figures, submitted to Phys. Rev.

    Multiple Signaling Pathways of Human Interleukin-8 Receptor A: Independent Regulation by Phosphorylation

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    Interleukin-8 (IL-8) receptor A (CXCR1) couples to a pertussis toxin- sensitive G protein to mediate phospholipase CĪ² (PLCĪ²) activation and cellular responses. Responses to CXCR1 are attenuated by prior exposure of neutrophils to either IL-8, a cleavage product of the fifth component of complement (C5a) or n-formylated peptides (formylmethionylleucylphenylalanine, fMLP). To characterize the role of receptor phosphorylation in the regulation of the CXCR1, a phosphorylation- deficient mutant, M2CXCR1, was constructed. This receptor, stably expressed in RBL-2H3 cells, coupled more efficiently to G protein and stimulated enhanced phosphoinositide hydrolysis, cAMP production, exocytosis, and phospholipase D activation, and was resistant to IL-8-induced receptor internalization. The rate and total amount of ligand stimulated actin polymerization remained unchanged, but interestingly, chemotaxis was decreased by ~30% compared with the wild type receptor. To study the role of receptor phosphorylation in cross-desensitization of chemoattractant receptors, M2CXCR1 was coexpressed with cDNAs encoding receptors for either fMLP (FR), C5a (C5aR), or platelet-activating factor (PAFR). Both C5aR and PAFR were cross-phosphorylated upon M2CXCR1 activation, resulting in attenuated guanosine 5\u27-3\u27-O-(thio)triphosphate (GTPĪ³S) binding in membranes. In contrast, FR and M2CXCR1 were resistant to cross- phosphorylation and cross-inhibition of GTPĪ³S binding by other receptors. Despite the resistance of M2CXCR1 to cross-phosphorylation and receptor/G protein uncoupling, its susceptibility to cross-desensitization of its Ca2+ response by fMLP and C5a, was equivalent to CXCR1. Regardless of the enhancement in certain receptor functions in M2CXCR1 compared with the wild type CXCR1, the mutated receptors mediated equivalent PLCĪ²3 phosphorylation and cross-desensitization of Ca2+ mobilization by FR, C5aR, and PAFR. The results herein indicate that phosphorylation of CXCR1 regulates some, but not all of the receptors functions. While receptor phosphorylation inhibits G protein turnover, PLC activation, Ca2+ mobilization and secretion, it is required for normal chemotaxis and receptor internalization. Since phosphorylation of CXCR1 had no effect on its ability to induce phosphorylation of PLCĪ²3 or to mediate class-desensitization, these activities may be mediated by independently regulated pathways

    Differential Cross-Regulation of the Human Chemokine Receptors CXCR1 and CXCR2. Evidence for Time-Dependent Signal Generation

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    Neutrophils and transfected RBL-2H3 cells were used to investigate the mechanism of cross-regulation of the human interleukin-8 (IL-8) receptors CXCR1 and CXCR2 by chemoattractants. In neutrophils, Ca2+ mobilization by the CXCR2-specific chemokine, growth-related oncogene Ī± (GroĪ±), was desensitized by prior exposure to the chemoattractants N-formylated peptides (fMLP) or a complement cleavage product (C5a). In contrast, growth-related oncogene Ī± did not desensitize the latter receptors. To investigate this phenomenon, CXCR2 was stably expressed in RBL-2H3 cells and mediated phosphoinositide hydrolysis, Ca2+ mobilization, chemotaxis, and secretion. In cells co-expressing CXCR2 and receptors for either C5a (C5aR) or fMLP (FR), CXCR2 was cross-phosphorylated and cross-desensitized by C5a and fMLP. However, neither C5aR nor FR was cross-phosphorylated or cross-desensitized by CXCR2 activation, although CXCR1 did mediate this process. Receptor internalization induced by IL-8 was more rapid and occurred at lower doses with CXCR2 than CXCR1, although both receptors mediated equipotent chemotaxis and exocytosis in RBL. Truncation of the cytoplasmic tail of CXCR2 (331T) prolonged its signaling relative to CXCR2, increased its resistance to internalization, and induced phospholipase D activation. 331T was resistant to homologous phosphorylation and cross-phosphorylation but not cross- desensitization of its Ca2+ mobilization by fMLP or C5a, indicating an inhibitory site distal to receptor/G protein coupling. In contrast to CXCR2, stimulation of 331T cross-desensitized Ca2+ mobilization by both FR and C5aR. CXCR2 and the mutant 331T induced phospholipase C Ī²3 phosphorylation to an extent equivalent to that of CXCR1. Taken together, these results suggest that CXCR1 and CXCR2 bind IL-8 to produce a group of equipotent responses, but their ability to generate other signals, including receptor internalization, cross-desensitization, and phospholipase D activation, are very different. The latter phenomena apparently require prolonged receptor activation, which in the case of CXCR2 is precluded by rapid receptor phosphorylation and internalization. Thus, receptors coupling to identical G proteins may trigger different cellular responses dependent on the length of their signaling time, which can be regulated by receptor phosphorylation

    Integrable model for interacting electrons in metallic grains

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    We find an integrable generalization of the BCS model with non-uniform Coulomb and pairing interaction. The Hamiltonian is integrable by construction since it is a functional of commuting operators; these operators, which therefore are constants of motion of the model, contain the anisotropic Gaudin Hamiltonians. The exact solution is obtained diagonalizing them by means of Bethe Ansatz. Uniform pairing and Coulomb interaction are obtained as the ``isotropic limit'' of the Gaudin Hamiltonians. We discuss possible applications of this model to a single grain and to a system of few interacting grains.Comment: 4 pages, revtex. Revised version to be published in Phys. Rev. Let

    Chemoattractant Receptors Activate Distinct Pathways for Chemotaxis and Secretion. Role of G-Protein Usage

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    Human leukocyte chemoattractant receptors activate chemotactic and cytotoxic pathways to varying degrees and also activate different G-proteins depending on the receptor and the cell-type. To determine the relationship between G-protein usage and the biological and biochemical responses activated, receptors for the chemoattractants formyl peptides (FR), platelet- activating factor (PAFR), and leukotriene B4 (BLTR) were transfected into RBL-2H3 cells. Pertussis toxin (Ptx) served as a GĪ±(i) inhibitor. These receptors were chosen to represent the spectrum of G(i) usage as Ptx had differential effects on their ability to induce calcium mobilization, phosphoinositide hydrolysis, and exocytosis with complete inhibition of all responses by FR, intermediate effects on BLTR, and little effect on PAFR. Ptx did not affect ligand-induced phosphorylation of PAFR and BLTR but inhibited phosphorylation of FR. In contrast, chemotaxis to formylmethionylleucylphenylalanine, leukotriene B4, and platelet-activating factor was completely blocked by Ptx. Wortmannin, a phosphotidylinositol 3- kinase inhibitor, also completely blocked ligand-induced chemotaxis by all receptors but did not affect calcium mobilization or phosphoinositide hydrolysis; however, it partially blocked the exocytosis response to formylmethionylleucylphenylalanine and the platelet-activating factor. Membrane ruffling and pseudopod extension via the BLTR was also completely inhibited by both Ptx and wortmannin. These data suggest that of the chemoattractant receptors studied, G-protein usage varies with FR being totally dependent on G(i), whereas BLTR and PAFR utilize both G(i) and a Ptx- insensitive G-protein. Both Ptx-sensitive and -insensitive G-protein usage can mediate the activation of phospholipase C, mobilization of intracellular calcium, and exocytosis by chemoattractant receptors. Chemotaxis, however, had an absolute requirement for a G(i)-mediated pathway

    Chemoattractant Receptor-Induced Phosphorylation of L-Selectin

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    The selectin adhesion molecules and chemoattractant receptors synergistically regulate leukocyte migration into lymphoid tissues and sites of inflammation, but little is known about how these families of receptors modulate each other\u27s function. In this study, L-selectin was found to be phosphorylated in lymphoblastoid cell lines, and phosphorylation was enhanced by phorbol ester (phorbol 12-myristate 13-acetate (PMA)) treatment. Interactions between L-selectin and chemoattractant receptors were therefore examined using transfected rat basophilic leukemia cell lines (RBL-2H3) that expressed human L-selectin along with human leukocyte chemoattractant receptors. L-selectin was rapidly phosphorylated in cells treated with chemoattractants, thrombin, IgE receptor agonists, or PMA. Pertussis toxin or the protein kinase C inhibitor, staurosporine, completely blocked chemoattractant receptor-induced phosphorylation of L-selectin. PMA-induced phosphorylation was on serine residues within the cytoplasmic tail of L- selectin that have been well conserved during recent evolution. Although L- selectin phosphorylation was not essential for basal levels of adhesion through L-selectin in transformed cell lines, the rapid increase in ligand binding activity of L-selectin that occurs following leukocyte activation was blocked by staurosporine. These results demonstrate that L-selectin can be phosphorylated following engagement of chemoattractant receptors and suggest that this may be a physiologically relevant mechanism for the synergistic regulation of these receptors during leukocyte migration
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