Wegener's granulomatosis (WG) and microscopic polyangiitis are systemic autoimmune diseases characterized by the presence of ANCA in the sera of patients. Little is known about the aetiologic factors and genetic predisposition as well as the pathogenesis of these disease entities. A slightly decreased representation of HLA-DRB1*13 and HLA-DQB1*0603 individuals was observed in our cohort of ANCA-associated systemic vasculitis (AASV) patients compared with controls. In addition, HLA-DRB1*04 individuals were over-represented in a subgroup of patients with WG in end-stage renal disease as a result of renal vasculitis. In order to identify other genes relevant for these diseases, we investigated highly polymorphic markers in the vicinity of several immunorelevant genes, i.e. tumour necrosis factor (TNF)alpha, IL-2, IL-5 receptor alpha (IL-5RA), in a group of 102 patients with AASV and compared the representation with controls. Furthermore, functional polymorphisms were directly analysed in the promotor region of TNFalpha as well as in the coding region of the FcgammaIIRA genes. Polymorphisms of the TNFalpha promotor (TNF-308) as well as in the FcgammaIIRA gene were excluded as risk factors for the disease in our cohort. No major phenotype distribution differences were observed between patients and controls for the IL-2 and IL-5RA microsatellites. Most importantly, several haplotypes on chromosome 6p appeared strongly associated with proteinase 3 (PR3)-ANCA+ AASV. Thus, as in other autoimmune diseases, different predisposing factors play differential aetiopathogenic roles in various groups of AASV patients. (+info)
Regulation of the expression of Fc gamma receptor on circulating neutrophils and monocytes in Kawasaki disease.
(74/3171)
To investigate the regulation of Fc gamma receptor (Fc gamma R) expression on circulating phagocytes in Kawasaki disease (KD), we analysed the expressions of Fc gamma RI, II and III on neutrophils and monocytes in 20 patients with KD, 10 with a bacterial infection (BI), 10 with a viral infection (VI), and 10 healthy controls (HC) using flow cytometric analysis. The KD patients had a significantly higher level of Fc gamma RI expression on neutrophils, but not on monocytes, than the BI, VI and HC patients. Fc gamma RII expression on neutrophils was significantly higher in KD, BI and VI than HC, but there was no significant difference in Fc gamma RII expression among KD, BI and VI. Fc gamma RIII expression on neutrophils in KD was significantly lower than in VI and HC, but was higher on monocytes. A kinetic analysis of Fc gamma R expression in KD demonstrated the expression of Fc gamma RI and II on neutrophils to decline, but no remarkable change was observed in the monocytes, from the subacute phase through the convalescent phase. In addition, Fc gamma RIII expression on neutrophils increased, while Fc gamma RIII expression on monocytes decreased during the time course of KD. Fc gamma R expression in the acute phase of KD is thus characterized by markedly increased expression of Fc gamma RI on neutrophils, followed by a subsequent decrease, and decreased expression of Fc gamma RIII on neutrophils and increased expression of Fc gamma RIII on monocytes followed by a reverse kinetics during the clinical course. These findings are thus considered to reflect the functional up-regulation of neutrophils and monocytes in KD. (+info)
Immune complex-induced integrin activation and L-plastin phosphorylation require protein kinase A.
(75/3171)
Integrins in resting leukocytes are poorly adhesive, and cell activation is required to induce integrin-mediated adhesion. We recently demonstrated a close correlation between phosphorylation of Ser(5) in L-plastin (LPL), a leukocyte-specific 67-kDa actin bundling protein, and activation of alpha(M)beta(2)-mediated adhesion in polymorphonuclear neutrophils (PMN) (Jones, S. L., Wang, J., Turck, C. W., and Brown, E. J. (1998) Proc. Natl. Acad. Sci. U. S. A. 95, 9331-9336). However, the kinase that phosphorylates LPL Ser(5) has not been identified. We found that cAMP-dependent protein kinase (PKA), but not a variety of other serine kinases, can specifically phosphorylate LPL and LPL-derived peptides on Ser(5) in vitro. The cell-permeable cAMP analog 8-bromo-cAMP and the adenylate cyclase activator forskolin both induce LPL phosphorylation in cells. Two PKA inhibitors, H89 and KT5720, inhibited immune complex (IC)-stimulated LPL phosphorylation as well as IC-induced activation of alpha(M)beta(2)-mediated adhesion in PMN. The dose response of H89 inhibition of PMN adhesion correlated with its inhibition of LPL phosphorylation in response to IC. IC stimulation also transiently increased intracellular cAMP concentration in PMN. Thus, PKA functions in an integrin activation pathway initiated by IC binding to Fcgamma receptors in addition to its better known role as a negative regulator of cell activation by G protein-coupled receptors. In contrast, LPL Ser(5) phosphorylation and PMN adhesion induced by formylmethionyl-leucylphenylalanine or phorbol myristate acetate were not affected by PKA inhibitors, suggesting that a different kinase(s) is responsible for LPL phosphorylation in response to these agonists. Phosphoinositidyl 3-kinase also is required for FcgammaR but not formylmethionyl-leucylphenylalanine- or phorbol myristate acetate-induced LPL phosphorylation and activation of alpha(M)beta(2). Two phosphoinositidyl 3-kinase inhibitors blocked FcgammaR-induced cAMP accumulation, demonstrating that this kinase acts upstream of PKA. These data demonstrate a necessary role for PKA in IC-induced integrin activation and LPL phosphorylation. (+info)
Lipopolysaccharide enhances FcgammaR-dependent functions in vivo through CD11b/CD18 up-regulation.
(76/3171)
Fc receptors for immunoglobulin G (IgG) (FcgammaR) mediate several defence mechanisms in the course of inflammatory and infectious diseases. In Gram-negative infections, cellular wall lipopolysaccharides (LPS) modulate different immune responses. We have recently demonstrated that murine LPS in vivo treatment significantly increases FcgammaR-dependent clearance of immune complexes (IC). In addition, we and others have reported the induction of adhesion molecules on macrophages and neutrophils by LPS in vivo and by tumour necrosis factor-alpha (TNF-alpha) in vitro. The aim of this paper was to investigate CD11b/CD18 participation in LPS enhancing effects on Fcgamma-dependent functionality of tissue macrophages. Our results have demonstrated that LPS can enhance antibody-dependent cellular cytotoxicity (ADCC) and IC-triggered cytotoxicity (IC-Ctx), two reactions which involve the Fcgamma-receptor but different lytic mechanisms. In vitro incubation of splenocytes from LPS-treated mice with anti-CD11b/CD18 abrogated ADCC and IC-Ctx enhancement, without affecting FcgammaR expression. Similar results were obtained with physiological concentrations of fibrinogen. In this way cytotoxic values of LPS-splenocytes decreased to the basal levels of control mice. Time and temperature requirements for such inhibition strongly suggested that anti-CD11b/CD18 could modulate intracellular signals leading to downregulation of FcgammaR functionality. Data presented herein support the hypothesis that functional and/or physical associations between integrins and FcgammaR could be critical for the modulation of effector functions during an inflammatory response. (+info)
Augmentation of pulmonary host defense against Pseudomonas by FcgammaRIIA cDNA transfer to the respiratory epithelium.
(77/3171)
Fcgamma receptors on the surface of phagocytic cells bind the Fc region of IgG and mediate binding, phagocytosis, and destruction of particulate antigens opsonized by the antigen-specific IgG molecule. The present study evaluates the feasibility of converting lung epithelial cells into phagocytic cells using adenovirus (Ad) vector-mediated gene transfer of FcgammaRIIA cDNA to induce expression of the human FcgammaRIIA receptor. Binding and phagocytosis of opsonized sheep red blood cells (SRBCs) by the A549 human lung epithelial cell line after Ad-mediated FcgammaRIIA gene transfer was demonstrated using light and fluorescence microscopy and phagocytic assays with (51)Cr-labeled SRBCs. When A549 cells were infected with an Ad vector expressing a FcgammaRIIA mutant in which 2 of 3 cytoplasmic tyrosines have been replaced with phenylalanine, only binding, but not phagocytosis, of opsonized SRBCs was observed. In vivo expression of FcgammaRIIA in the lung after intratracheal administration of the AdFcgammaRIIA enhanced clearance of opsonized Pseudomonas aeruginosa from the lung in normal rats and in mice deficient in Fcgamma receptor expression. Similar results were observed with a chimeric FcgammaRIIA construct containing the extracellular domain of FcgammaRIIIA. Together, these data demonstrate that Ad-mediated FcgammaRIIA receptor cDNA expression can mediate the binding and phagocytosis of opsonized particulate antigens by normally nonphagocytic cells, suggesting that gene-transfer strategies might be used to utilize nonphagocytic cells to clear bacteria or other opsonized particulate antigens from the respiratory tract. (+info)
The major receptor for C-reactive protein on leukocytes is fcgamma receptor II.
(78/3171)
C-reactive protein (CRP) is an acute phase serum protein that shares several functions with immunoglobulin (Ig)G including complement activation and binding to receptors on monocytes and neutrophils. The identity of the receptor for CRP has been the target of extensive research. We previously determined that CRP binds to the high affinity receptor for IgG, FcgammaRI (CD64). However, this interaction could not account for the majority of binding of CRP to neutrophils or monocytic cells. We now determine that CRP also interacts with FcgammaRIIa (CD32), the low affinity receptor for IgG on monocytes and neutrophils. COS-7 cells were transfected with a construct containing the human FcgammaRIIA cDNA. CRP binding and the presence of CD32 were detected by mAb and analyzed by two-color flow cytometry. Cells expressing CD32 bound CRP in a dose-dependent and saturable manner consistent with receptor binding. CRP bound to transfectants and K-562 cells with similar kinetics, and in both cases binding was completely inhibited by aggregated IgG. On monocytic cell lines, treatment with Bt(2)cAMP increased FcgammaRII expression and enhanced CRP binding. CRP also specifically precipitated FcgammaRI and FcgammaRII from the monocytic cell line, THP-1. It is suggested that the major receptor for CRP on phagocytic cells is FcgammaRII. (+info)
The role of cholesterol and sphigomyelin in tyrosine phosphorylation of proteins and capping of Fcgamma receptor II.
(79/3171)
Cross-linking of cell surface receptors by multivalent ligands, e.g. by antibodies, evokes their clustering -- patching. Subsequently, these clusters can be translocated by the acto-myosin machinery toward one pole of the cell and assembly cap. Patching of FcgammaRII in U937 cells correlates with tyrosine phosphorylation of several proteins while cap assembly correlates with their dephosphorylation. To study the mechanism of activation of tyrosine kinases during FcgammaRII activation we disturbed the organization of the putative plasma membrane microdomains by depletion of membrane cholesterol and sphingomyelin. Cholesterol was removed with the use of beta-cyclodextrin while sphingomyelin was decomposed by exogenous sphingomyelinase. Cyclodextrin at 5-10 mM removed about 70% of cholesterol from the cells and abolished the assembly of FcgammaRII caps thereby arresting the receptors at the patching stage. Similarly, 70 mU/ml sphingomyelinase inhibited cap formation by 60%. Cholesterol and sphingomyelin depletion also suppressed the tyrosine phosphorylation of proteins which accompanied cross-linking of FcgammaRII. The observations indicate that cholesterol and sphingomyelin can control the interactions of tyrosine kinases with clustered FcgammaRII. (+info)
The human high-affinity immunoglobulin G receptor activates SH2-containing inositol phosphatase (SHIP).
(80/3171)
On cytokine-primed U937 cells, aggregation of the human high-affinity immunoglobulin receptor, FcgammaRI, initiates signal transduction cascades which lead to the release of calcium from intracellular stores and no significant calcium influx. In these cells, aggregation of FcgammaRI results in no significant increase in inositol trisphosphate production, but rather phospholipase D is activated. Here we show that, in interferon-gamma (IFN-gamma)-primed cells, the SH2 containing inositol 5' phosphatase, SHIP, is constitutively associated with the membrane fraction. Following aggregation of FcgammaRI, SHIP is rapidly and transiently tyrosine phosphorylated and becomes associated with the adapter molecule Shc. Shc also becomes tyrosine phosphorylated and translocates from the cytoplasm to the membrane fraction concomitant with the association between Shc and SHIP. Further, SHIP and Shc appear to be recruited to membrane-associated immune complexes following FcgammaRI aggregation. As no immunoreceptor inhibitory motif has been demonstrated to associate with FcgammaRI, these data suggest that SHIP may be recruited to the receptor through an SH2 domain interaction with Shc. (+info)