Fc epsilon receptor II/CD23-positive lymphocytes in atopic dermatitis. I. The proportion of Fc epsilon RII+ lymphocytes correlates with the extent of skin lesion.

Cells expressing Fc receptors for IgE (Fc epsilon RII) were identified in the peripheral blood from patients with atopic dermatitis and with eczematous dermatitis, and normal non-atopic subjects by using monoclonal antibodies to human lymphocyte Fc epsilon RII, and to lymphoid cell-surface antigens by immunofluorescence staining. Based on the extent of the dermatitis patients were classified as severe (greater than 50% skin surface involved), moderate (50-10%) and mild (less than 10%). Patients with severe and moderate atopic dermatitis had 5.9% and 5.7% Fc epsilon RII+ peripheral blood mononuclear cells (PBMC), respectively, that were significantly higher than percentages in mild atopic dermatitis patients (2.6%), severe to moderate eczematous dermatitis patients (2.3%), mild eczematous dermatitis patients (2.2%) and normal individuals (1.7%)(0.05 greater than P). In severe and moderate atopic dermatitis patients, 10% of Fc epsilon RII+ PBMC were T cells that preferentially expressed CD8, and the remainder B cells and monocytes. Fc epsilon RII+ T cells comprised 1% of peripheral T cells, while half or more of peripheral B cells expressed Fc epsilon RII. In mild atopic dermatitis patients, eczematous dermatitis patients and normal subjects. Fc epsilon RII were expressed exclusively on 25-35% of peripheral B cells. Short-term treatment and long-term follow-up of atopic dermatitis patients revealed that changes in the skin condition were related closely to fluctuations in the proportion of Fc epsilon RII+ PBMC. Total serum IgE levels and atopic respiratory allergy did not influence the percentage of Fc epsilon RII+ PBMC. These findings suggest that the percentage of Fc epsilon RII+ PBMC reflects the extent of atopic dermatitis.     

The expression of IgE Fc receptors on lymphocytes of allergic patients

Peripheral blood lymphocytes from nonatopic subjects and atopic patients were analyzed for cells expressing Fc receptors for IgE (Fc epsilon R). Nonatopic humans and atopic patients in remission had approximately 1 percent of Fc epsilon R+ peripheral blood lymphocytes. Usually greater than 99 percent of these cells were mIgM+/mIgD+ B cells. However, in approximately 10 percent of nonatopic and atopic subjects a transient increase of Fc epsilon R+ lymphocytes to 3-6 percent was observed in the absence of any disease manifestations and measurable changes in the serum IgE level. At times of increased numbers of peripheral blood Fc epsilon R+ lymphocytes, up to 1 percent Fc epsilon R+ positive cells were detected in isolated T cell preparations. The Fc epsilon R+ T cells reacted with the monoclonal antibody Lyt 3 to the sheep erythrocyte receptor of human T cells but not the anti-T cell antibody OKT3, and fractions also with the monoclonal antibodies OKT8 (cytotoxic and suppressor T cells) and OKM1, which binds to an antigen present on monocytes and a subpopulation of T cells and large granular lymphocytes. No OKT4+ (helper T cells) Fc epsilon R+ cells were detected. The reactivity with monoclonal antibodies to T cell subsets of the Fc epsilon R+ T cells paralleled the reactivity of the IgG Fc receptor positive T cells. In contrast to patients with allergic rhinitis and asthma, patients with severe atopic dermatitis or the Hyper IgE Syndrome always had significantly elevated percentage of Fc epsilon R+ lymphocytes (4-10 percent), which were almost entirely B cells since less than 0.1 percent Fc epsilon R+ T cells were detected in these patients. Atopic dermatitis patients receiving systemic corticosteroid treatment had only 0.2 percent Fc epsilon R+ lymphocytes which was significantly less than the 1 percent of the nonatopic control donors. Attempts to define the function of Fc epsilon R on human B and T lymphocytes have been unsuccessful thus far; however, the increase of Fc epsilon R+ cells associated with atopic disease in man and parasitic infections in rats and mice suggest that Fc epsilon R+ lymphocyte may be involved in the IgE isotype regulation.     

Tumour necrosis factor-alpha augments the expression of Fc IgE receptor (Fc epsilon RII/CD23) on human monocytic cell lines and down-regulates interleukin-4-driven Fc epsilon RII expression on monocytes.

We investigated the expression of the low affinity Fc IgE receptor (Fc epsilon RII/CD23) on the human monocytic cell lines U937, THP-1, Mono-Mac-6, and cultured human peripheral blood monocytes under stimulation with human tumour necrosis factor-alpha (TNF-alpha) and other cytokines. Fc epsilon RII was demonstrated by flow cytometry analysis employing the anti-Fc epsilon RII monoclonal antibody 3-5. TNF-alpha alone had a weak but significant stimulating effect on the Fc epsilon RII expression on the cell lines U937 and THP-1, and very modestly on Mono-Mac-6 cells. TNF-alpha strongly synergized with interferon-gamma (IFN-gamma) and interleukin-4 (IL-4). IFN-alpha per se was ineffectual, but was able to increase the TNF-alpha effect. Furthermore, the action of TNF-alpha was slightly augmented by human IL-6. Similar effects were noted with TNF-beta alone or in combination with other cytokines. Interestingly, on human monocytes TNF-alpha weakly reduced the basal level of Fc epsilon RII, and markedly diminished the IL-4-induced Fc epsilon RII expression. Our results indicate that several cytokines may interact in a cytokine network to modulate Fc epsilon RII expression on monocytic cell lines. On human blood monocytes, TNF-alpha, like IFN-gamma or IL-6, counteracts the IL-4-induced Fc epsilon RII expression. These data suggest different regulatory pathways of Fc epsilon RII expression on blood monocytes and myelomonocytic cell lines.     

Induction of Fc epsilon RII/CD23 on PHA-activated human peripheral blood T lymphocytes and association of fyn tyrosine kinase with Fc epsilon RII/CD23.

Despite the evidence for the expression of Fc epsilon RII/CD23, a glycoprotein that is a low-affinity Fc receptor for IgE, obtained on T cell lines and some pathological T cells, that of Fc epsilon RII/CD23 on normal human T cells is still unclear. We studied the emergence of T cells bearing Fc epsilon RII/CD23 in short-term culture of normal human peripheral blood mononuclear cells stimulated with 15 microliters/ml phytohemagglutinin (PHA). Using two-dimension flow cytometry, more than 10% of Fc epsilon RII/CD23(+) cells were shown to co-express CD3 antigen. Both CD4(+) and CD8(+) T cells expressed Fc epsilon RII/CD23. The expression of mRNA for Fc epsilon RII/CD23 on PHA and IL-4 stimulated PBMC was demonstrated by northern blotting and in-situ hybridization. The mechanism of signal transduction through Fc epsilon RII/CD23 was dissected by transfection of cDNA coding for Fc epsilon RII to the human natural killer-like cell line YT, activation of which was easily detected by the induction of interleukin-2 receptor/p55 (Tac). Cross-linking of Fc epsilon RII/CD23 with H107 anti-Fc epsilon RII monoclonal antibody enhanced IL-2R/p55 expression on YT cells transfected with Fc epsilon RII cDNA (YTSER). A possible involvement of protein-tyrosine kinase in the Fc epsilon RII-mediated signal transduction was studied using YTSER. Fc epsilon RII was physically associated with an src-family tyrosine kinase p59fyn and not with p56lck, which was also found in YT cells. Recently it was reported that p59fyn was associated with T-cell antigen receptor. Our results collectively suggest the multiple function of p59fyn which may be implicated in the Fc epsilon RII-mediated activation signal in YT cells.     

Increase of T cells bearing Fc epsilon R-associated antigen in patients with atopic asthma

Subpopulations of peripheral blood mononuclear cells (PBMC) in patients with atopic asthma and control donors were analyzed by means of flow cytometry. T cells were isolated from PBMC by rosetting with sheep erythrocytes. The proportions of PBMC and T cells bearing receptors for Fc fragment of IgE (Fc epsilon R) were elevated in patients when determined with monoclonal antibody to Fc epsilon R-associated antigen (H107). Significant correlations were observed between the serum-IgE levels and proportions of Fc epsilon R+ T cells (r = .71, P greater than .002). In contrast, no differences were observed between the groups in the proportions of PBMC and T cells bearing receptors for Fc fragment of IgG (Fc8R) when measured with model IgG-immunocomplexes. The proportions of cells reacting with monoclonal anti-IgE (9G2), T11 (E receptor), Leu-2a (suppressor), Leu-3a (helper), Leu-4 (pan-T), Leu-12 (pan-B), and anti-polyvalent immunoglobulin did not differ significantly between the groups. The results indicate that Fc epsilon R+ T cells are increased in patients with atopic asthma, suggesting that these cells may be involved in the regulation and/or synthesis of IgE antibody formation in man.     

Fc epsilon receptor II/CD23+ lymphocytes in atopic dermatitis. III. Aberrant control in the in vitro expression of Fc epsilon RII/CD23 on peripheral blood T cells in atopic dermatitis.

In vitro Fc epsilon RII expression was examined in patients with atopic dermatitis, those with non-atopic eczematous dermatitis and normal individuals following stimulation of peripheral blood cells with recombinant IL-4 (rIL-4), phytohaemagglutinin (PHA), or PHA plus rIL-2. At various days cells were stained with MoAbs to human lymphocyte Fc epsilon RII and to lymphoid cell-surface antigens and analysed by flow cytometry. rIL-4, but not rIL-2, specifically induced Fc epsilon RII on T cells as well as B cells in atopic dermatitis, eczematous dermatitis and normal individual groups. Both atopics and non-atopics generated comparable proportions of Fc epsilon RII+ T cells (T epsilon cells), whereas the frequency of B cells bearing Fc epsilon RII(B epsilon cells) was significantly higher in patients with extensive atopic dermatitis than in those with mild atopic dermatitis and other subjects. Comparable levels of T epsilon cells were detected in both atopic and non-atopic donors following stimulation of peripheral blood cells with PHA or pre-activation of the cells with PHA plus subsequent incubation with rIL-2. Whereas both CD8+ and CD4+ subsets were present in T epsilon cell populations induced specifically by rIL-4, PHA and PHA plus rIL-2, patients with atopic dermatitis had a greater tendency for Fc epsilon RII expression on CD8+ T cells compared with patients with eczematous dermatitis and normal individuals. Recombinant interferon-gamma (rIFN-gamma), but not rIFN-alpha or prostaglandin E2 (PGE2), suppressed the generation of T epsilon cells by rIL-4 in atopics and non-atopics to the same degree. These results suggest the aberrant control of Fc epsilon RII expression on T cells, especially those bearing CD8, in atopic dermatitis.     

Increased immunoglobulin E Fc receptor bearing cells in germinal centers of hyperimmunoglobulinemia E patients

Lymph nodes from 6 patients with hyperimmunoglobulinemia E (hyper-IgE; 4 with Kimura's disease, 1 with atopic dermatitis, and 1 with immunoblastic lymphadenopathy-like T cell lymphoma) and from 7 patients with normal IgE levels were studied to determine the localization of dendritic reticulum cells and of cells bearing Fc epsilon and C3d receptors and immunoglobulin E. The avidin-biotin-glucose oxidase method was used for unfixed biopsy specimens. To identify the above-mentioned cells, H107, a murine monoclonal antibody specific to the Fc epsilon receptor molecule, and corresponding antibodies specific to the other cell types were used. In 5 hyper-IgE patients (4 with Kimura's disease and 1 with atopic dermatitis) all germinal centers of the lymph nodes showed heavy reticular staining with H107, the dendritic reticulum cells being most intensely stained. In contrast, the germinal centers of the lymph nodes in the 7 patients with a normal IgE level only lightly or partially stained with H107. The staining pattern of anti-IgE was similar to that of H107 in the hyper-IgE cases. Likewise, C3d receptor and dendritic reticulum cell-related antigens were demonstrated very intensely in all germinal centers in lymph nodes of patients with hyper-IgE and normal IgE levels. These findings suggest that in a hyper-IgE state increased numbers of dendritic reticulum cells in a germinal center express the Fc epsilon receptor and that such cells may play a role in the differentiation of IgE-producing memory B cells.     

Synovial T lymphocyte recognition of organisms that trigger reactive arthritis.

To clarify the differential state of B cell activation in patients with systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA), we investigated the expression of low-affinity receptor for IgE (Fc epsilon RII; CD23) on their peripheral B cells by a cytofluorometry using H107 (CD23) and Leu-16 (CD20) monoclonal antibodies. The percentage of CD23-negative B cells in total lymphocytes was significantly greater in both groups of patients than in normal subjects, suggesting the hyperactivity of late-phase B cells in both diseases. However, the increase of CD23-negative B cells in RA was brought about by the increased number of total B cells, although that in SLE was mainly based on the relative decrease of CD23-positive B cells. The number of IgD-positive B cells was decreased, and the number of colony-forming B cells was markedly increased in SLE patients. These observations indicate that a B cell abnormality is mainly qualitative in SLE but quantitative in RA.     

Fc-epsilon-receptor-bearing lymphocytes in patients with clonorchiasis

Expression of Fc-epsilon-receptors (Fc epsilon R) on peripheral blood lymphocytes was examined in patients with clonorchiasis. Mean serum IgE levels in these patients was 2,518 IU/ml. Fc epsilon R was detected by flow cytometry analysis with monoclonal antibody. The frequency of Fc epsilon R+ lymphocytes and the density of Fc epsilon R on the cells in the patients were similar to those in normal subjects. Most of the Fc epsilon R+ lymphocytes were B cells. The number of Fc epsilon R+ cells decreased after incubation in serum-free medium at 37 degrees C for 3 h. The amount of regulatory molecules of IgE production, IgE binding factor, was not significantly different between the patients and normal subjects. The number of Fc gamma R bearing T or B cells in the patients was also similar to that of normal subjects. These results indicate that the mechanisms of elevated serum IgE in patients with clonorchiasis might be different from other diseases with hyperglobulinemia E.     

Effect of anti-IgE antibodies on IgE binding to CD23

Human sera contain anti-IgE autoantibodies. Using a human B lymphoblastoid cell line (Wil-2WT cells) and monoclonal murine anti-IgE antibodies (BSW17 and Le27) we investigated a possible role of such anti-IgE antibodies. A 100-fold excess of monoclonal anti-IgE antibodies inhibited binding of 125I labeled IgE to Fc epsilon RII on Wil-2WT cells. Further, both monoclonal anti-IgE antibodies dissociated surface bound IgE from Fc epsilon RII on Wil-2WT cells. However, BSW17 which does not trigger histamine release from human leucocytes, was much more effective in dissociating Fc epsilon RII bound IgE than Le27 which triggers histamine release. These results may suggest that naturally occurring IgG anti-IgE antibodies are able to inhibit binding of IgE to its receptor.     

Potential role of anti-IgE antibodies in vivo

Murine monoclonal antibodies which recognize similar epitopes as the naturally occurring human IgG anti-IgE antibodies were used to study their role in interfering with the effector functions of IgE. Two types of antibodies were found which were either anaphylactogenic or did not release histamine from human basophils. However, both types of antibodies were capable of inhibiting binding of IgE to Fc epsilon RII. Furthermore, the nonanaphylactic antibody was capable of removing IgE from Fc epsilon RII+ cells, but no antibodies were found which removed IgE from Fc epsilon RI+ cells. Thus, anti-IgE antibodies may interfere with the pathophysiological role of IgE.     

Fc-receptors for IgE on human lymphocytes. Detection with a rosetting assay using a recombinant human/mouse IgE antibody and characterization with monoclonal antibodies

Two monoclonal antibodies, M-L25 and M-L47, were produced against the human lymphoid Fc receptor for IgE (Fc epsilon R). These antibodies were identified by their ability to selectively inhibit the binding of IgE to Fc epsilon R+ lymphoid cells as demonstrated by a newly developed IgE rosetting assay. In this method, NIP coated ox erythrocytes were complexed with a NP-specific recombinant chimeric human/mouse IgE antibody and employed as indicator cells for the detection of Fc epsilon R+ cells. The anti-Fc epsilon R antibodies stained 4.6 +/- 2.3% of normal peripheral blood mononuclear cells, 0.4 +/- 0.3% of T cells, 22.2 +/- 11.7% of the non-T cell fraction, and 34.9 +/- 2.9% of tonsil cells. Less than 0.1% of monocytes, basophilic and eosinophilic granulocytes, platelets, and thymus cells were labelled. This indicates an antigenic heterogeneity of the low affinity Fc epsilon R on lymphocytes and the Fc epsilon R found on monocytes, platelets, and eosinophilic granulocytes. The lymphoid Fc epsilon R was immunoprecipitated by M-L25 from the lysate of surface iodinated lymphoid cells. Three polypeptide chains were identified having an apparent MW of 40, 82, and 100 kd under non-reducing, and of 42, 115, and 145 kd under reducing conditions, suggesting a multichain structure of the human lymphoid Fc epsilon R.     

Studies on the role of interleukin-4 and Fc epsilon RII in the pathogenesis of minimal change nephrotic syndrome.

Childhood minimal change nephrotic syndrome (MCNS) has often been associated with allergic symptoms such as urticaria, bronchial asthma, atopic dermatitis, allergic rhinitis and elevated IgE levels and referred to involve immune dysfunction. Fc epsilon RII is known to be involved in IgE production and response. Interleukin-4 is being recognized as a major cytokine up-regulating IgE production. Hence the present study is aimed at investigating the role of interleukin-4 and Fc epsilon RII in the pathogenesis of MCNS. IgE was measured by ELISA. Fc epsilon RII was analyzed by fluorescence activated cell scanner (FAC-scan) by double antibody staining with anti Leu16-FITC and anti Leu20-PE. Soluble IgE receptor was measured by ELISA using anti CD23 antibody (3-5-14). Interleukin-4 activities were measured by CD23 expression on purified human tonsillar B cells. Serum IgE levels were significantly higher in MCNS (1,507 +/- 680 IU/dl) than in normal controls (123 +/- 99.2 IU/dl). A significantly higher expression of membrane Fc epsilon RII was noted for MCNS (41 +/- 12%) than that in normal controls (18 +/- 6.2%) (p < 0.001). Soluble CD23 levels were also significantly higher in MCNS (198 +/- 39.3%) than in normal controls (153 +/- 13.4) (p < 0.01). Interleukin-4 activity in sera of MCNS (12U/ml) was also significantly higher than normal controls (4.5U/ml). These results indicate that increased production of Fc epsilon RII and interleukin-4 may play an important role in the pathogenesis of MCNS.     

Allergen-directed expression of Fc receptors for IgE (CD23) on human T lymphocytes is modulated by interleukin 4 and interferon-gamma

T lymphocytes bearing Fc receptors (FcR) for immunoglobulins are known to have immunoglobulin class-specific regulatory functions. Here we report that expression on T cells of the low-affinity FcR for IgE (Fc epsilon RII/CD23) is preferentially induced by stimulation with antigens that cause an IgE response. T cells from eight patients allergic to the hemoglobin of Chironomus thummi thummi mosquito larvae (CHIT I) were analyzed for reactivity with the anti-FcERII/CD23 monoclonal antibody (mAb) M-L25 under various conditions. No Fc epsilon RII/CD23+ T cells were observed among freshly isolated, resting peripheral blood mononuclear cells (PBMC). Stimulation of PBMC with CHIT I, however, induced a marked although transient Fc epsilon RII/CD23 expression on a large portion of the allergen-activated T lymphocytes. It reached a maximum of 37.2 +/- 4.6% Fc epsilon RII/CD23+ T cell blasts on day 5 of culture. The selectivity of this expression became evident when compared to non-allergenic control antigens: after stimulation of PBMC with tetanus toxoid or purified protein derivative from tuberculin a maximum of 4.6% +/- 1.4% and 4.2% +/- 1.1% T cell blasts was found to express Fc epsilon RII/CD23, respectively. Activation by an anti-CD3 mAb was insufficient to induce Fc epsilon RII/CD23 on T cells. The allergen-stimulated Fc epsilon RII/CD23+ T cells exclusively belonged to the CD4+CD29+ helper inducer T cell subset. Using a cDNA probe coding for the B cell Fc epsilon RII/CD23, Northern blot analysis revealed a 1.7-kb Fc epsilon RII/CD23 mRNA in extracts of highly purified allergen-stimulated T cells. It was of the same size as Fc epsilon RII/CD23 mRNA of the lymphoblastoid B cell line WI-L2. Of several cytokines tested [interleukin (IL) 1 to IL 6, interferon-gamma (IFN-gamma), tumor necrosis factor-alpha] only IL 4 and IFN-gamma significantly modified allergen-induced Fc epsilon RII/CD23 expression on T cells. The latter was enhanced nearly twofold in the presence of IL 4, and was almost completely abrogated by IFN-gamma. IL 4, however, could not increase the number of Fc epsilon RII/CD23+ T lymphocytes either alone or in combination with an anti-CD3 mAb. Taken together, the selective induction of Fc epsilon RII/CD23 on T cells by allergen and its inclusion in the regulatory network of cytokines point to an important role of Fc epsilon RII/CD23+ T lymphocytes in the human IgE response.     

Recombinant human interferon-gamma induces increased IgE receptor expression on human platelets

Human recombinant interferon-gamma (IFN-gamma) significantly increased the expression of receptors for IgE (Fc epsilon RII) on blood platelets. Fc epsilon RII was measured by specific binding of 125I-labeled IgE or flow cytometry experiments. Scatchard analysis of 125I-labeled IgE binding curves revealed that treatment with IFN-gamma increased the number of Fc epsilon RII but did not change the value of the association constant of Fc epsilon RII for 125I-labeled IgE. IFN-alpha had no effect on the expression or affinity of Fc epsilon RII. In addition to Fc epsilon RII, IFN-gamma also modified the expression of the glycoprotein IIb-IIIa complex on the platelet membrane.     

IgE Fc receptor positive T, B and NK cells in patients with the hyper-IgE syndrome

Patients with the hyper-IgE syndrome have greatly elevated percentages of IgE Fc receptor (Fc epsilon R)-positive B cells, but they have less than 0.1% Fc epsilon R+ T cells (T epsilon cells) and few, if any, Fc epsilon R+ natural killer cells. They also have markedly decreased numbers of IgG receptor positive (Fc gamma R+) T cells (T gamma cells). Patients with the hyper-IgE syndrome resemble in this respect patients with severe atopic dermatitis. Since a portion of T epsilon and T gamma cells of mildly atopic patients react with monoclonal antibody OKT8, they may have a suppressor function. However, whether the low number of T epsilon cells is responsible for the high IgE serum level in hyper-IgE syndrome and atopic dermatitis patients remains to be demonstrated. Attempts to obtain a reliable assay for human IgE synthesis in vitro to investigate the function of Fc epsilon R-positive lymphocytes proved to be difficult. Even isolated B cells from atopic donors seldom produced more than twice the quantity of IgE released from cells incubated in the presence of the protein synthesis inhibitor cycloheximide.     

Production of IgE-potentiating factor in man by T cell lines bearing Fc receptors for IgE

The regulation of human IgE production in vitro by soluble T cell factors was examined. T cells were isolated from the peripheral blood of 2 patients with the hyper-IgE syndrome on the basis of their expression of Fc receptors for human IgE (Fc epsilon R). The T cells were incubated with human myeloma IgE (10 micrograms/ml), washed, reacted with immunosorbent-purified goat anti-human IgE conjugated with fluorescein isothiocyanate, and then separated into Fc epsilon R+ and Fc epsilon R- T cells on the fluorescence-activated cell sorter. Fc epsilon R+ T cells and Fc epsilon R- T cells were propagated in culture using supernatants of phytohemagglutinin-stimulated peripheral blood mononuclear cells (PBMC) and irradiated autologous PBMC. Supernatants of Fc epsilon R+ T cell lines but not of Fc epsilon R- T cell lines selectively enhanced IgE synthesis in cultures of B cells obtained from patients with allergic rhinitis but not from normal nonallergic subjects. The surface phenotype of the Fc epsilon R+ T cell line was predominantly T3+, T4+, Ia+ with few (15%) T8+ cells. Two T cell clones were grown from the Fc epsilon R+ T cell line by limiting dilution (0.3 cells/well). These clones possessed the T4+ helper/inducer phenotype and secreted IgE-enhancing factor(s). The IgE-enhancing factor(s) which had affinity for insolubilized human IgE was sensitive to treatment with trypsin and neuraminidase, and had as its target an IgE-bearing B cell. These results suggest that a subset of human T cells bearing an Fc epsilon R secretes an IgE-binding glycoprotein which selectively enhances IgE synthesis by IgE-bearing B cells.     

Characterization of new rat anti-mouse IgE monoclonals and their use along with chimeric IgE to further define the site that interacts with Fc epsilon RII and Fc epsilon RI.

Three rat monoclonal antibodies specific for mouse IgE (C12B9, 23G3, and B1E3) were established by using monoclonal anti-DNP mouse IgE (mIgE) as immunogen. These antibodies, as well as a fourth, (R1E4) were characterized. It was found that one antibody (C12B9) recognizes an allotypic determinant (Igh-7a) found on the C epsilon chain of mIgE. Antibody cross-blocking studies and epitope mapping studies using recombinant mIgE indicated that 3 antibodies (C12B9, R1E4 and 23G3) were directed against the C epsilon 3 domain while one (B1E3) was directed against the C epsilon 4 domain. A highly specific sandwich RIA for mIgE was developed using these antibodies. Use of these monoclonal anti-mIgE antibodies in conjunction with recombinant chimeric mIgE-human IgG1 molecules, demonstrated that the C epsilon 3 domain is important in the binding of mIgE to the murine B cell Fc epsilon RII as well as to the murine mast cell F epsilon RI. The presence of the C epsilon 4 domain influenced the binding of the recombinant IgE to the Fc epsilon RII; in contrast to the C epsilon 4 domain had no effect on binding to the Fc epsilon RI.     

Induction and function of Fc epsilon RII on YT cells; possible role of ADF/thioredoxin in Fc epsilon RII expression.

The regulation of low-affinity Fc receptor for IgE (Fc epsilon RII) and the characteristics of both membrane and soluble forms of Fc epsilon RII were studied using YT cell line. We found that YT cells, a human NK like cell line, expressed Fc epsilon RII after IL-1 stimulation. Cross-linking of Fc epsilon RII on IL-1-stimulated YT cells as well as the transfectant of Fc epsilon RII-cDNA (YTSER) resulted in the up-regulation of IL-2R alpha (p55/Tac). A 59 kDa protein phosphorylated at tyrosine residues was co-immunoprecipitated with Fc epsilon RII from YTSER lysate using H107 anti-Fc epsilon RII mAb. YTSER not only expressed Fc epsilon RII on their surface but also secreted soluble form of Fc epsilon RII (sFc epsilon RII/sCD23; IgE binding factor). Affinity purification revealed that sFc epsilon RII released from YTSER is heterogeneous and consisted of several proteins differing in molecular weight. Both EBV+ B cells and HTLV-1+ T cells are high producers of ATL derived factor (ADF)/thioredoxin (TRX) and express Fc epsilon RII and IL-2R alpha respectively. To clarify the mechanism of Fc epsilon RII and IL-2R alpha induction by ADF/TRX, we examined the effect of ADF/TRX on the bindability of nuclear factor kappa B (NF-kappa B), which is known to regulate IL-2R alpha gene expression. In the gel shift assay, ADF/TRX was shown to enhance the bindability of NF-kappa B to its responsive element.     

Co-crosslinking Fc epsilon RII/CD23 and B cell surface immunoglobulin modulates B cell activation.

Previous studies have shown that a highly multivalent from of anti-IgD or anti-IgM, prepared by conjugating the respective antibodies to dextran, causes extensive B cell proliferation with ng/ml concentrations of the anti-immunoglobulin (Ig). A modification of this system has been exploited to investigate the effect of co-crosslinking the Fc epsilon RII and surface Ig by binding DNP to the dextran backbone (DNP-dextran) and employing a DNP-specific monoclonal IgE of either rat or mouse origin. Addition of anti-IgD-(H delta a/1)[DNP-dextran] or anti-IgM-[DNP-dextran] to purified, resting murine B cells resulted in B cell proliferation over a broad dose (0.03-30 micrograms/ml). Addition of DNP-specific rat or mouse IgE dramatically modulated the proliferative response. Proliferation in response to doses greater than 0.3 microgram/ml H delta a/1-[DNP-dextran] was consistently reduced in a dose-dependent manner in the presence of increasing amounts of IgE while proliferation to lower concentrations of H delta a/1-[DNP-dextran] was slightly enhanced or not influenced at all by the IgE anti-DNP. Interleukin-4 (IL-4) significantly increased the IgE effect, in line with its known enhancing effects on Fc epsilon RII levels. Experiments measuring Ig production rather than proliferation demonstrated that in the presence of IgE anti-DNP, B cells produced lower amounts of immunoglobulin (IgG1 or IgM) in response to an anti-Ig signal. Control experiments demonstrated that the IgE effect on proliferation was blocked by monoclonal anti-Fc epsilon RII, but not anti-Fc gamma RII, thus demonstrating the necessity for IgE/Fc epsilon RII interaction. In addition, the necessity for co-crosslinking was shown by the inability of IgE anti-DNP to affect the proliferative response to H delta a/1-dextran even in the presence of various doses of DNP-dextran. These results demonstrate that co-crosslinking of sIg and the Fc epsilon RII results in an altered B cell response to anti-Ig mediated activation. IL-4 does not ablate this inhibition, in contrast to the effect of co-crosslinking Fc gamma RII and surface Ig, suggesting a model whereby IgE can modulate its own production.