CGP 41251, a novel protein kinase inhibitor with in vitro selectivity for protein kinase C, strongly inhibits immunological activation of human skin mast cells and human basophils

The process of high-affinity IgE receptor (Fc epsilon RI)-mediated signal transduction in human basophils and mast cells is accompanied by activation of protein kinase C (PKC). The present study investigated the effects of a novel protein kinase inhibitor with in vitro selectivity for PKC (CGP 41251) in comparison with the potent but non-selective PKC inhibitor staurosporine on the activation of human peripheral basophilic leukocytes and enzymatically isolated human skin mast cells. CGP 41251 exerted strong concentration-dependent inhibitory effects on Fc epsilon RI-mediated histamine release from both cell populations. In addition, the IgE-mediated generation of arachidonic acid metabolites (leukotriene C4/D4 and prostaglandin E2) from human basophils was also significantly inhibited by this compound. Its action was not significantly different from the action of staurosporine. Direct activation of cellular PKC by the phorbol ester 12-o-tetradecanoyl-phorbol-13-acetate and subsequent histamine release from basophils was also inhibited by both compounds. CGP 41251 did not suppress N-formyl-met-leu-phe- or A23187-induced activation of basophils, whereas A23187-induced mediator release from human skin mast cells was inhibited in a concentration-dependent fashion. We conclude that an increase of in vitro selectivity for PKC does not significantly enhance inhibitory effects on immunological activation of histamine-containing cells. Moreover, nonimmunological pathways of signal transduction in basophils and mast cells appear to be mediated by distinct biochemical events.     

Protein tyrosine kinases in activation signal of human basophils through the immunoglobulin E receptor type l

Human basophils activated through high-affinity immunoglobulin E (IgE) receptors (Fc epsilon RI) are involved in the late phase of the allergic reaction. To investigate the possible involvement of protein-tyrosine kinases in this activation we used human acute basophilic leukemia (ABL) cells in culture as well as a pure population of normal basophils in vitro-derived from human bone marrow precursor cells (HBMB). ABL cells were 50-80% basophils at various stages of maturation as assessed by staining, morphology, ultrastructure, and flow cytometry analysis, and only basophils in ABL cells expressed Fc epsilon RI. Aggregation of Fc epsilon RI by IgE and anti-IgE, IgE and antigen, or anti-Fc epsilon RI monoclonal antibodies on ABL cells or on HBMB, led to increased tyrosine phosphorylation of 120-, 100-, 80-, 72-, 50- to 65-, and 38-kDa substrates. Tyrosine phosphorylations in ABL cells were in basophils because 1) they were detected after a 5-s stimulation, 2) they were observed under conditions where mediator release is minimal, i.e., in the absence of extracellular calcium, 3) hapten addition during antigen stimulation resulted in almost total disappearance of tyrosine phosphorylations within 30 s. There was correlation between histamine release and tyrosine phosphorylation in anti-IgE dose-responses and in dose-responses of the tyrosine kinase inhibitor genistein. The tyrosine kinase p72syk was detected in the cells. Stimulation of ABL cells for 1 min resulted in extracellular calcium-independent tyrosine phosphorylation and activation of p72syk. Therefore, tyrosine kinases are involved in the early steps of human Fc epsilon RI signaling in basophils. Tyrosine kinases and their substrates could represent new potential therapeutic targets to prevent the development of the allergic reaction.     

Presence of IgM antibodies to Trypanosoma cruzi urinary antigen in sera from patients with acute Chagas'' disease

We have investigated the ability of an antisense immunoglobulin E (IgE) receptor alpha-subunit oligodeoxynucleotide (Fc epsilon RI alpha ODN) specifically to inhibit IgE-mediated allergic reactions in the mouse. Synthetic antisense Fc epsilon RI alpha ODN dose-dependently inhibited passive cutaneous anaphylaxis and histamine release from the mouse peritoneal mast cells (MPMC) activated by anti-dinitrophenyl (DNP) IgE. Northern blot analysis showed that the mast cells treated with antisense Fc epsilon RI alpha ODN exhibited no detectable levels of L-histidine decarboxylase mRNA after anti-DNP IgE stimulation, whereas the cells treated with sense Fc epsilon RI alpha ODN possessed significant amounts of this mRNA. Examination of the elevation of cAMP levels in MPMC following the activation with anti-DNP IgE demonstrated a significant rise in activated cells, but not in the antisense Fc epsilon RI alpha ODN-treated cells. Moreover, antisense Fc epsilon RI alpha ODN had a significant inhibitory effect on anti-DNP IgE-induced tumour necrosis factor-alpha production. Our results demonstrated that antisense Fc epsilon RI alpha ODN inhibited the IgE-mediated allergic reaction in vivo and in vitro.     

IgE antibody up-regulates high affinity IgE binding on murine bone marrow-derived mast cells

We have examined 3-week-old alcian blue positive cells (putatively mast cells) derived from mouse bone marrow for their expression of Fc epsilon RI. Using an indirect method of sensitizing the cells with immunoglobulin E (IgE) antibody (anti-DNP IgE) and detecting the level of bound IgE antibody by flow cytometry, we found that prolonged culture (1-5 days) with IgE, but not IgG, increased the total receptor density 6 +/- 1.9 fold. During the same period, histamine release in response to antigen (DNP-HSA) increased approximately 6-fold while the cell's response to either thrombin or ionomycin remained constant. The greatest up-regulation occurred in the first 2 days of culture. Using 2.4G2 to detect Fc epsilon RII RIII, we could not detect any up-regulation of this receptor. Culturing the cells for 1 h after sensitization did not result in any loss of cell surface IgE, suggesting a reasonably high affinity binding similar to that expected for Fc epsilon RI. This up-regulation was completely inhibited by co-culture with 2 micrograms/ml cycloheximide. These data suggest that IgE is capable of inducing a significant, protein synthesis, dependent up-regulation of its own high affinity receptor on mast cells/basophils.     

In vivo induction of specific cytotoxic T lymphocytes in mice and rhesus macaques immunized with DNA vector encoding an HIV epitope fused with hepatitis B surface antigen

BACKGROUND: In human blood basophils, cross-linking the high-affinity IgE receptor Fc epsilonRI with multivalent antigen activates a signaling pathway leading to Ca2+ mobilization, actin polymerization, shape changes, secretion, and cytokine production. METHODS AND RESULTS: The role of tyrosine kinases in human Fc epsilonRI signaling was explored by using human basophils isolated by Percoll gradient centrifugation followed by negative and/or positive selection with antibody-coated magnetic beads. Fc epsilonRI cross-linking of more than 95% pure basophil preparations activates the protein-tyrosine kinases Lyn and Syk, previously linked to Fc epsilonRI-coupled rodent mast cell activation, as well as Zap-70, previously implicated in T-cell receptor signaling, and causes the tyrosine phosphorylation of multiple proteins. The presence of Lyn, Syk, and Zap-70 in basophils was confirmed by Western blotting in lysates of highly purified basophils and independently by confocal fluorescence microscopy in cells labeled simultaneously with kinase-specific antibodies and with the basophil-specific antibody 2D7. Comparable amounts of Lyn and Syk were found in basophils and B cells, whereas T cells appear to have greater amounts of Zap-70 than basophils. The tyrosine kinase inhibitor piceatannol spares IgE-mediated Lyn activation but inhibits IgE-induced Syk and Zap-70 activation as well as overall protein tyrosine phosphorylation and secretion. Overall protein-tyrosine phosphorylation increases steadily over a range of anti-IgE concentrations that are low to optimal for secretion. However, tyrosine phosphorylation continues to increase at high anti-IgE concentrations that elicit very little secretion (the characteristic high-dose inhibition of secretion). CONCLUSIONS: Our data demonstrate the association of anti-IgE-stimulated, protein-tyrosine phosphorylation by a cascade of tyrosine kinases, including Zap-70 as well as Lyn and Syk, with the initiation of Fc epsilonRI-mediated signaling in human basophils.     

Effects of tea infusions of various varieties or different manufacturing types on inhibition of mouse mast cell activation

We investigated effects of various tea infusions on mast cell activation using mouse mast cells. Among various tea extracts, infusions from cultivar 'Benihomare' and Taiwan lineage strongly inhibited histamine release after Fc epsilon RI cross-linking. Among three types of tea (from cultivar 'Benihomare'), extract from oolong tea or black tea inhibited histamine release more strongly than green tea extract. Furthermore, 'Benihomare' oolong tea extract suppressed tyrosine phosphorylation of cellular proteins after Fc epsilon RI cross-linking, but polyvinyl polypyrrolidone treatment of the extract to remove phenolic compounds, weakened the suppressive effect.     

Metabolic activation of halothane to neoantigens in C57Bl/10 mice: immunochemical studies

Previous studies have shown that protein-serine/threonine kinases and protein-tyrosine kinase(s) are activated by cross-linking of the high-affinity receptor for IgE, Fc epsilon RI, on mast cells and basophils. In vitro kinase assays (ISDR kinase assays) on cellular proteins immobilized on polyvinylidene difluoride membrane after denaturation and renaturation were employed to estimate the complexity of protein kinases expressed in mouse mast cells. The results demonstrated that a large number (more than 60) of both serine/threonine- and tyrosine-specific kinases are present in a mouse mast cell line, PT-18. Cross-linking of Fc epsilon RI-induced activation of a subset of both serine/threonine kinases and tyrosine kinases in PT-18 as well as bone marrow-derived mouse mast cells, as revealed by the ISDR kinase assay. Among them, MAP kinase (or ERK2) was shown to be tyrosine phosphorylated and activated transiently upon Fc epsilon RI cross-linking, suggesting its potential role in mast cell signal transduction.     

Critical role for the tyrosine kinase Syk in signalling through the high affinity IgE receptor of mast cells

Activation of the high affinity IgE receptor (Fc epsilon RI) of mast cells, a member of the antigen receptor family, leads to the release of allergic mediators, a critical event in the onset of immediate hypersensitivity. Stimulation of Fc epsilon RI results in the rapid association and activation of the Syk tyrosine kinase. Using Syk-deficient mast cells we show that they fail to degranulate, synthesize leukotrienes and secrete cytokines when stimulated through Fc epsilon RI, conclusively demonstrating an essential role for Syk in Fc epsilon RI signalling. Furthermore, our data strongly supports a model of Fc epsilon RI engagement leading to the sequential activation of the tyrosine kinases Lyn and then Syk. A similar mechanism is likely to apply to signal transduction through all members of the antigen receptor family.     

The identification and characterization of umbilical cord blood-derived human basophils

Cross-linking allergen-specific immunoglobin E on human peripheral blood basophils results in the release of histamine and other inflammatory mediators that initiate allergy and asthma. The signaling pathways leading from IgE binding to mediator release have not been well established, mainly due to the difficulty in obtaining adequate numbers of highly purified basophils. It was the goal of this study to easily obtain Fc epsilonRI-positive human basophils in high yield and purity for studies of signal transduction pathways. We describe an in vitro culture system in which pulsing normal human cord blood leukocytes with interleukin-3 (IL-3) for 3-4 h followed by incubation in medium with fetal bovine serum generates a cell population that is predominately Fc epsilonRI positive between 14 and 28 days of culture. These cells resemble peripheral blood basophils when examined by light and electron microscopy. Like normal blood basophils, they express the integrins, CD11b, CD18, CD29, and CD49d. A majority of the IL-3-pulsed cells also express a marker recognized by the basophil-specific antibody, 2D7. Fc epsilonRI cross-linking results in a time and dose-dependent release of histamine. Fc epsilonRI cross-linking also stimulates protein-tyrosine phosphorylation, thought to be the first event leading to the IgE-mediated activation of peripheral blood basophils. These studies establish cord blood as an accessible source from which basophil-like cells can be developed to examine Fc epsilonRI-mediated signal transduction.     

Downstream signals initiated in mast cells by Fc epsilon RI and other receptors

The significant contributions this past year to our understanding of IgE receptor (Fc epsilon RI) signaling in mast cells include studies with truncated Syk in a vaccinia expression system and Syk-negative variants of rat basophilic (RBL-2H3) cells. These studies demonstrate an essential role for Syk in initiating signals for secretion and release of arachidonic acid via phospholipase A2 and mitogen-activated protein kinase. A newly recognized addition to the repertoire of Fc epsilon RI-mediated signaling systems is the activation of sphingosine kinase, which contributes to calcium mobilization in mast cells. Advances have been made in our understanding of other receptors that regulate proliferation and differentiation of mast cells, and in our understanding of the ability of mast cells to mount acquired and acute responses to antigenic and bacterial challenge.     

Amino acid residues that influence Fc epsilon RI-mediated effector functions of human immunoglobulin E

Immunoglobulin E (IgE) mediates its effector functions via the Fc region of the molecule. IgE binding to and subsequent aggregation of the high-affinity receptor (Fc epsilon RI) by allergen plays a pivotal role in type I hypersensitivity responses. Earlier studies implicated the C epsilon 2 and 3 interface and the A-B loop in C epsilon 3 in the IgE-Fc epsilon RI interaction. These regions and glycosylation sites in C epsilon 3 were now targeted by site-specific mutagenesis. IgE binding to Fc epsilon RI was compared with surface plasmon resonance (SPR) measurements, which assessed the binding of the soluble extracellular domain of Fc epsilon RI to IgE. Kinetic analysis based on a pseudo-first-order model agrees with previous determinations. A more refined SPR-based kinetic analysis suggests a biphasic interaction. A model-free empirical analysis, comparing the binding strength and kinetics of native and mutant forms of IgE, identified changes in the kinetics of IgE-Fc epsilon RI interaction. Conservative substitutions introduced into the A-B loop have a small effect on binding, suggesting that the overall conformation of the loop is important for the complementary interaction, but multiple sites across the C epsilon 3 domain may influence IgE-Fc epsilon RI interactions. Asn394 is essential for the generation of a functional IgE molecule in mammalian cells. A role of Pro333 in the maintenance of a constrained conformation at the interface between C epsilon 2-3 emerged by studying the functional consequences of replacing this residue by Ala and Gly. These substitutions cause a dramatic decrease in the ability of the ligand to mediate stimulus secretion coupling, although only small changes in the association and dissociation rates are observed. Understanding the molecular basis of this phenomenon may provide important information for the design of inhibitors of mast cell degranulation.     

Endogenous hematopoietic reconstitution induced by human umbilical cord blood cells in immunocompromised mice: implications for adoptive therapy

Cross-linking the heterotrimeric (alpha beta gamma 2) IgE receptor, Fc epsilon RI, of mast cells activates two tyrosine kinases: Lyn, which phosphorylates beta and gamma subunit immunoreceptor tyrosine-based activation motifs, and Syk, which binds gamma-phospho-immunoreceptor tyrosine-based activation motifs and initiates cellular responses. We studied three Fc epsilon RI-dimerizing mAbs that maintain similar dispersed distributions over the surface of RBL-2H3 mast cells but elicit very different signaling responses. Specifically, mAb H10 receptor dimers induce very little inositol 1,4,5-trisphosphate synthesis, Ca2+ mobilization, secretion, spreading, ruffling, and actin plaque assembly, whereas dimers generated with the other anti-Fc epsilon RI mAbs induce responses that are only modestly lower than that to multivalent Ag. H10 receptor dimers activate Lyn and support Fc epsilon RI beta and gamma subunit phosphorylation but are poor Syk activators compared with Ag and the other anti-Fc epsilon RI mAbs. H10 receptor dimers have two other distinguishing features. First, they induce stable complexes between activated Lyn and receptor subunits. Second, the predominant Lyn-binding phospho-beta isoform found in mAb H10-treated cells is a less tyrosine phosphorylated, more electrophoretically mobile species than the predominant isoform in Ag-treated cells that does not coprecipitate with Lyn. These studies implicate Lyn dissociation from highly phosphorylated receptor subunits as a new regulatory step in the Fc epsilon RI signaling cascade required for Syk activation and signal progression.     

Anaphylaxis mediated through a humanized high affinity IgE receptor

Mast cells and basophils, which are activated by IgE and allergens through the high affinity IgE receptor (Fc epsilon RI), play a prominent role in anaphylaxis in the mouse. Mice deficient in this receptor become resistant to passive anaphylaxis. As a first step in developing an in vivo model that more closely mimics the IgE-mediated responses in man, we used a combination of transgenic and embryonic stem cell technology to generate a mouse line in which the murine Fc epsilon RI alpha-chain has been replaced with its human homologue. We demonstrate here that these mice express a tetrameric high affinity IgE receptor, in which the human alpha-chain associates with the murine beta- and gamma-chains, and that upon triggering with relevant Ag, this receptor mediates the initiation of the expected intracellular events. In addition, we show that the human alpha-chain restores an anaphylactic response to the nonresponsive alpha-deficient parental mouse line. This "humanized" mouse represents a potentially important model system, not only for studying the role of IgE in human immune responses, but also for testing potential therapeutic reagents that can interfere with responses mediated through the human Fc epsilon RI receptor.     

Heterogeneous effects of protamine on human mast cells and basophils

To investigate the mechanisms of anaphylactoid reactions to protamine, we have examined the in vitro effects of increasing concentrations of protamine (10(-6)-3 x 10(-4) mol litre-1) on the release of preformed (histamine and tryptase) and de novo synthesized (peptide leukotriene C4 (LTC4) or prostaglandin D2 (PGD2)) mediators from human basophils and mast cells isolated from lung parenchyma, heart, skin and synovial tissues. Protamine 10(-6)-3 x 10(-4) mol litre-1 induced release of histamine, but not de novo synthesis of LTC4 from basophils. At concentrations from 10(-5) to 3 x 10(-4) mol litre-1 it induced histamine release from human heart (mean 6.5 (SEM 1.5)%), skin (17.7 (4.1)%) and to a lesser extent from synovial mast cells, but not from lung mast cells. Protamine also caused the release of tryptase from heart mast cells (12.8 (3.2) micrograms/10(7) cells), but did not induce de novo synthesis of LTC4 and PGD2 from lung and skin mast cells. In these experiments cross-linking of IgE by anti-IgE caused release of LTC4 or PGD2 from human basophils or mast cells. These results demonstrate that protamine acted as an incomplete secretagogue, causing the release of preformed mediators from human basophils and mast cells.     

Surface makers for mast cell subtypes: low affinity IgG receptors and gp49 family

Members of the Immunoglobulin Superfamily (Ig) present in the surface of rodent mast cells include the high affinity IgE receptor (Fc epsilon RI), the low affinity receptors for the Fc portion of IgG, the Fc gamma RII family and Fc gamma RIII as well as the recently cloned gp49 family that includes three members gp49A, gp49B1 and gp49B2. Fc epsilon RI and Fc gamma RIII are members of the multi-chain immune recognition receptor (MIRR) family since they possess a multimeric structure in which the signal transducing chains (gamma chains) contain six acids that conform the Antigen Homology Receptor 1 Motif (ARH1M), also present in the T cell receptor (TCR) transducing chains. gp49B1, gp49B2 and the FC gamma R family are monomeric chains that also contain the partial of full AHR1M motif in their cytoplasmic domain indicating the capability for signal transduction through tyrosine phosphorylation and the possibility of cell activation with mediator (s) or cytokine (s) release. Distribution of the Fc gamma R receptors and gp49 family members varies in the different stages of mast cell differentiation and maturation.     

Complement peptide C3a inhibits IgE-mediated triggering of rat mucosal mast cells

The relationship between mast cells' secretory response to stimulation via their type 1 Fc epsilon receptors (Fc epsilon RI) and that provided by the C3a fragment of the complement system was investigated in the rat mucosal-type mast cell line RBL-2H3. These cells are known to be unresponsive to the so-called 'peptidergic' stimulus provided by cationic agents, such as anaphylatoxins, neuropeptides or polyamines. We now observed that C3a effectively inhibits the Fc epsilon RI clustering induced secretion of RBL-2H3 cells. This inhibition is dose-dependent and takes place at a C3a concentration range of 0.4-12.5 nM, i.e. at least three orders of magnitude lower than those where this anaphylatoxin exerts its secretory stimulus to 'serosal' mast cells. In order to identify where C3a interferes in the Fc epsilon RI coupling cascade, we have studied its effect on the cells' protein phosphorylation pattern, hydrolysis of phosphatidyl inositides, transient rise in free cytosolic Ca2+ ion concentration and Ca2+ uptake. All these processes were found to be inhibited by a similar C3a concentration range.     

Non-pharmacological management of hypertension: results from interviews with 100 general practitioners

The high-affinity receptor for IgE, Fc epsilon RI, expressed on antigen-presenting cells such as monocytes and Langerhans' cells exhibits profound differences to its homologue expressed on mast cells and basophils. The lack of the beta chain, the presence of an intracellular pool of preformed alpha chains, highly variable surface expression, and its function (to provide antigen focusing for T cells) are some of the main issues which have led us to consider the functional role of this receptor in a new light.     

Induction and enhancement of Fc(epsilon)RI-dependent mast cell degranulation following coculture with activated T cells: dependency on ICAM-1- and leukocyte function-associated antigen (LFA)-1-mediated heterotypic aggregation

Activated mast cells are known to reside in close apposition to T cells in various inflammatory processes. In this regard, we have reported that activated mast cells form heterotypic aggregates with activated lymphocytes. To determine whether this interaction would result in mast cell degranulation, we examined the effect of EL-4, 2B4, or freshly isolated T cells, activated by PMA or immobilized anti-CD3 mAb, on histamine release from murine bone marrow-derived cultured mast cells (BMCMC). Coculturing BMCMC with activated but not with resting T cells resulted in significant histamine release. Also, Fc(epsilon)RI cross-linking-induced degranulation was augmented when BMCMC were cocultured with activated T cells. Supernatants of activated T cells failed to exert the stimulatory effect. Separation of the two cell populations with a porous membrane prevented degranulation, indicating that BMCMC activation was adhesion dependent. Indeed, the kinetics of histamine release paralleled the kinetics of the formation of heterotypic aggregates, which peaked after 12 h of coculture. Introduction of anti-LFA-1 and anti-intercellular adhesion molecule-1 mAb inhibited the adhesion-induced mast cell degranulation. These data suggest a heretofore unrecognized mast cell activation pathway induced by LFA-1/intercellular adhesion molecule-1-mediated heterotypic aggregation with activated T cells.