Characterization and detection of naturally occurring antibodies against IL-1 alpha and IL-1 beta in normal human plasma.

During the development and testing of a radioreceptor assay (RRA) for human IL-1, we have detected and identified the presence of auto-antibodies to IL-1 in normal human plasma (NHP). The RRA is based on the competition between human 125I-labeled rIL-1 alpha and standard or unknown quantities of IL-1 alpha or IL-1 beta for binding to a limited amounts of IL-1 receptor (IL-1R) isolated from the EL4 mouse thymoma cell line. NHP from 20 out of 100 unselected blood donors were found to completely inhibit the binding of 125I-labeled IL-1 alpha to its receptor, suggesting the presence in these NHP samples of either abnormal amounts of IL-1 or of a factor binding to the 125I-labeled IL-1 alpha. Special care was taken to ascertain that the inhibitory factors were antibodies and not soluble IL-1 receptor antagonist. When plasma samples with inhibiting activity were incubated with labeled IL-1 alpha and chromatographed on a Sephadex G200 column, they were found to contain 125I-labeled complexes with an apparent molecular weight of 150-200kD. The IL-1 binding factor could be eliminated from plasma by incubation with protein A-Sepharose, suggesting that it consisted in IgG antibodies directed against IL-1. Furthermore, the antibody nature of the inhibiting factor was confirmed by its binding to purified rIL-1 coupled to Sepharose. Screening of 200 NHP samples by incubation with 100 pg of 125I-labeled IL-1 followed by precipitation with 12% of polyethylene glycol (PEG) confirmed that about 25% of NHP contain detectable IgG antibodies to IL-1 alpha, while only 2% of NHP contain antibodies to IL-1 beta. No correlation between the presence of these anti-IL-1 antibodies and any particular major histocompatibility complex or any pathological conditions was detected. We suggest that all serum samples assayed for IL-1 alpha or IL-1 beta content should be pretested with the PEG precipitation assay described here.     

IL-6 plays an essential role in neutrophilia under inflammation

In the present study, we explored the involvement of interleukin-6 (IL-6) in neutrophilia under inflammatory conditions. The neutrophil count in the peripheral blood was high in arthritic monkeys, and anti-IL-6 receptor antibody reduced neutrophil counts to normal levels. IL-6 injection into normal monkeys significantly increased neutrophil counts in the blood 3h after injection. The expression of cluster of differentiation (CD) 162 on circulating neutrophils was reduced by IL-6 injection. IL-6 treatment in vitro did not affect CD162 expression on neutrophils from human blood. In IL-6-treated monkeys, IL-8 and granulocyte-macrophage colony-stimulating factor (GM-CSF) levels in plasma were clearly elevated. IL-8 and GM-CSF treatment in vitro reduced cell-surface CD162 expression on human neutrophils, and moreover, increased soluble CD162 expression in the cell supernatant. The addition of IL-6 into human whole peripheral blood induced IL-8 production and reduced CD162 expression on neutrophils. Furthermore, IL-8 and GM-CSF augmented mRNA expression of a disintegrin and metalloprotease like domain 10 (ADAM10) in neutrophils. Knock-down of ADAM10 by siRNA in neutrophil-like HL-60 cells partially reversed the expression of CD162 reduced by GM-CSF and IL-8 on HL-60 cells. In conclusion, IL-6 induced neutrophilia and reduced CD162 expression on neutrophils in inflammation.     

Interleukin-10 containing normal human serum inhibits granzyme B release but not perforin release from alloreactive and EBV-specific T cell clones

Interleukin-10 (IL-10), also known as cytokine synthesis inhibitory factor, is capable of inhibiting synthesis of pro-inflammatory cytokines like IFNγ, IL-2, IL-3, TNFα and GM-CSF made by cells such as macrophages and T helper Type 1 cells. We observed that normal human serum, derived from a healthy individual but containing large amounts of IL-10, inhibited cytotoxic activity and interfered with granzyme B release from alloreactive cytotoxic T cell (CTL) clones in vitro, but did not affect perforin release. The addition of normal human serum containing high levels of anti-IL-10 IgG neutralized the inhibitory effects of IL-10 serum. Moreover, we have identified that cytotoxic activity and granzyme B release from an Epstein-Barr virus (EBV)-specific CTL clone was similarly inhibited in the presence of IL-10 serum, while perforin release was unaffected. Anti-IL-10 IgG serum also appeared to neutralize the inhibitory effect of IL-10 serum on an EBV-specific CTL clone.     

Human B cell differentiation by Fc fragment. III. Effect of IL-1 and IL-2 on differentiation of human B lymphocytes induced by Fc fragments of human IgG

The human Fc fragment of IgG, when added to blood mononuclear cells in vitro, induces B cell differentiation after 6 days of culture. This activity requires the presence of T cells and monocytes. This work explores the roles of interleukin 1 (IL-1) and interleukin 2 (IL-2) in B cell differentiation induced by Fc fragments. Peripheral blood mononuclear cells (PBMC) from normal donors were examined for plasma cell differentiation following stimulation with Fc fragment (15 and 30 micrograms/ml) with or without IL-1 (6 U/ml) or IL-2 (2 U/ml). Results indicate that both IL-1 and IL-2 accelerated B cell differentiation by the Fc fragment to 3 days of culture, compared to 6 days required with the Fc fragment alone. The time required for differentiation was not further shortened when both IL-1 and IL-2 were present in culture; both IL-1 and IL-2 were able to partially induce B differentiation alone at 6 days of culture. The importance of IL-2 in B cell differentiation was further supported by the finding that antibodies specific for the IL-2 receptor blocked B cell differentiation induced by Fc fragments, with or without additional IL-1 or IL-2. The depletion of monocytes also blocked B cell differentiation and the requirement for monocytes could not be replaced by exogenous IL-1; however, Fc fragments were shown to induce monocytes to secrete IL-1 beta after 24 hr in culture. These results suggest that accelerated differentiation of B cells into plasma cells requires a double signal provided by Fc fragments and IL-1 or IL-2. Monocytes are necessary for Fc fragment-induced differentiation and cannot be replaced by either IL-1 or IL-2.     

Antiidiotypes against autoantibodies in pooled normal human polyspecific Ig

We observed that pooled normal polyspecific human IgG for therapeutic use (IVIg) inhibited the binding of antithyroglobulin, anti-DNA and antiintrinsic factor antibodies to their autoantigens in vitro. The inhibitory effect of IVIg was dependent on interactions between the variable regions of IVIg and variable regions of the autoantibodies. Affinity chromatography of F(ab')2 fragments or of IgG containing anti-TG, anti-DNA, or anti-IF autoantibody activity on Sepharose-bound F(ab')2 from IVIg resulted in the specific retention of autoantibody activity, indicating that IVIg contain antiidiotypic antibodies against human autoantibodies. Inhibition of autoantibody activity by anti-Id in IVIg in vitro is dose dependent with maximal inhibition occurring at a specific molar ratio between patient's IgG and IVIg and shows a prozone phenomenon. The relative content in anti-Id against a particular autoantibody may differ between IVIg preparations. Affinity chromatography of IVIg on Sepharose-bound F(ab')2 fragments from IVIg also resulted in specific retention of anti-TG and anti-DNA activities that were found to be present in pooled normal immunoglobulins. The presence in IVIg of anti-Id against autoantibodies from patients and from normal individuals may provide a mechanism for the suppressive effect of IVIg in human autoimmune diseases and supports the concept of a functional idiotypic network regulating autoimmune responses in man.     

Cooperation between an anti-T cell (anti-CD28) monoclonal antibody and monocyte-produced IL-6 in the induction of T cell responsiveness to IL-2

CD28 is an Ag of 44-kDa Mr that is expressed on the membrane of the majority of human T cells and that is recognized by mAb 9.3. The functional effects of mAb 9.3 on peripheral blood T cells were studied. mAb 9.3 was not mitogenic, unless it was combined with PMA. When CD28 was cross-linked after binding of mAb 9.3 to the T cell by immobilized or soluble anti-mouse IgG, T cells proliferated in response to rIL-2, provided that monocytes were also present. The additional signal required for IL-2 responsiveness after cross-linking of CD28 could also be delivered in cultures of purified T cells by a cellfree monocyte culture supernatant. Expression of IL-2R on about 10% of the T cells was demonstrated by staining with an anti-IL-2R mAb, and was found to be largely restricted to CD4+ cells. The active compound responsible for the helper signal in the monocyte culture supernatant was identified as IL-6 because purified IL-6 (but not IL-1 beta) had similar activity and because an antiserum to IL-6 (but not an antiserum to IL-1 beta) neutralized the activity of the monocyte supernatant and blocked T cell proliferation. An anti-IL-2R antibody also completely inhibited T cell proliferation induced by the combination of mAb 9.3, IL-2, and IL-6. Our results provide evidence that cross-linking of CD28 induces functional IL-2R and that this activity is dependent on a helper signal provided by monocytes, more specifically IL-6. Moreover, our results indicate that IL-6 (previously called B cell stimulatory factor-2) is active on T cells. If a natural ligand for CD28 can be identified, the mechanism of induction of IL-2 responsiveness described here might explain how T cells become nonspecifically involved in an ongoing cellular immune reaction.     

IgE production by normal human B cells induced by alloreactive T cell clones is mediated by IL-4 and suppressed by IFN-gamma

Seven T cell clones were established from mixed leukocyte cultures in which PBMC from two healthy donors and from one patient suffering from the hyper-IgE syndrome were stimulated by the irradiated EBV-transformed B cell lines JY or UD53. Five of seven T cell clones, after activation by co-cultivation with JY or UD53 cells, induced a low degree of IgE production by normal blood B cells. In one experiment in which the normal B cells could activate the T cell clones directly, IgE production was also observed in the absence of the specific stimulator cells. IgE production was also obtained with supernatants of the T cell clones collected 4 to 5 days after activation by their specific stimulator cells. In addition, the supernatants induced IgG, IgA, and IgM synthesis. All seven clones produced variable concentrations of IL-4 and IFN-gamma. The clones FA-28 and BG-39, which failed to induce IgE synthesis, produced, compared with the other clones tested, relatively high quantities of IFN-gamma (4700 and 2500 pg/ml, respectively). These high levels of IFN-gamma accounted for the lack of induction of IgE synthesis, because in the presence of a polyclonal anti-IFN-gamma antiserum, supernatants of FA-10 and BG-39 induced significant IgE production. In addition, the low degree of IgE production induced by supernatants of two other T cell clones (FA28 and BG24) was 15- and 3-fold enhanced, respectively, in the presence of the anti-IFN-gamma antiserum. IgE synthesis by normal B cells was also induced by rIL-4, indicating that IL-4 present in T cell clone supernatants was responsible for induction of IgE production. This notion was supported by the finding that IgE production induced by supernatant of BG-24 was strongly inhibited by a polyclonal anti-IL-4 antiserum. In contrast, IgG and IgA production induced by supernatant of BG-24 were not significantly affected by the anti-IL-4 antiserum. Only a slight inhibition of IgM synthesis was observed. Collectively, our results indicate that both recombinant and naturally produced IL-4 induce normal human B cells to synthesize IgE. However, final IgE production induced by T cell clone supernatants is the net result of the inducing and suppressive effects of IL-4 and IFN-gamma respectively, that are secreted simultaneously by the T cell clones upon activation.     

Effects of human anti-IL-1 alpha autoantibodies on receptor binding and biological activities of IL-1.

Immunoglobulin G (IgG) antibodies to interleukin 1 alpha (IL-1 alpha) are frequently found in the sera of healthy human individuals. The effects of these autoantibodies on receptor binding and biological activities of human IL-1 were tested. Using the murine T-lymphocyte line NOB-1, human thyrocytes and human foreskin fibroblasts, the antibodies competitively inhibited the biological activity of human recombinant IL-1 alpha (rIL-1 alpha). The degree of inhibition correlated with 125I-rIL-1 alpha binding to IgG in different immunoglobulin preparations and in individual sera. These antibodies also neutralized the IL-1 activity of isolated membrane fragments and lysates of human blood monocytes activated by lipopolysaccharide. In contrast, the supernatant IL-1 activity was not affected. Stronger inhibition of biological activity and cell binding of 125I-rIL-1 alpha was obtained with NOB-1 cells than with human thyrocytes. The antibodies failed to interfere with the biological activity of rIL-1 beta. It is concluded that IgG autoantibodies of IL-1 alpha in the sera of healthy humans selectively inhibit the biological activity of the soluble and membrane-associated forms of IL-1 alpha in vitro, and that the degree of biological inhibition afforded by these antibodies depends upon the target cell.     

Immunomodulating effects in vitro of interleukin-2 and interferon-gamma on human blood and bone marrow mononuclear cells

Mononuclear cells (MNC) derived from peripheral blood (PBMNC) of 23 normal donors and 4 AIDS patients, and from bone marrow (BMMNC) of 15 normal donors were incubated at 37 degrees C in culture medium alone or in the presence of either natural or recombinant human interleukin-2 (IL-2) or recombinant human interferon-gamma (IFN-gamma; 1-1,000 U/ml). The cultured cells were washed on days 1, 4 or 7 and tested for various immune functions in vitro and for cell surface phenotype. IL-2, but not IFN-gamma, was found mitogenic for both PBMNC and BMMNC. The natural killer (NK) activity of both PBMNC and BMMNC was the only function tested that was markedly augmented (over 100-fold compared to medium control) by both lymphokines. Pretreatment of PBMNC with IL-2 at greater than or equal to 10 U/ml profoundly suppressed (up to 90%) various functions, such as mitogenic responses (phytohemmagglutinin, concanavalin A, pokeweed mitogen), allogeneic mixed leukocyte reaction, antibody production and T cell colony formation in agar. In contrast, some BMMNC functions were elevated at low doses of IL-2 and IFN-gamma, and significant suppression of BMMNC was seen only with high doses of IL-2 (greater than or equal to 100 U/ml) and IFN-gamma (1,000 U/ml). IL-2 was by far more effective than IFN-gamma in both the amplification of NK activity and the suppression of most of the other functions. IL-2, but not IFN-gamma, was found to activate/induce suppressor cells and increased the proportion of Leu-2+ (CD8) cells in PBMNC; the suppressive effect was time- and dose-dependent. The IL-2-induced suppression could be diminished by inclusion of anti-IL-2 antibody during the pretreatment phase. Similar suppressive effects were noted in PBMNC from AIDS patients. These findings suggest that: (a) high-dose IL-2 may elicit immunosuppression which can be mediated by nondiscriminative highly cytotoxic cells (i.e. lymphokine-activated killer cells) and/or by noncytotoxic, nonspecific suppressor cells, and (b) that PBMNC respond differently to the lymphokines than do BMMNC.     

Mapping of natural anti-factor VIII antibodies in plasma pools from healthy donors: use of rationally designed synthetic peptides.

Inhibitor antibodies of blood coagulation factor VIII (FVIII) impair FVIII replacement therapy, constituting a serious complication in haemophilic patients. anti-FVIII antibodies may also develop in a variety of disease-associated autoimmunity. Mapping of human FVIII inhibitors in haemophilia A or autoantibody origin have delineated three major clusters of B-cell inhibitory epitopes (domain A2, A3 and C2). Inhibitory and non-inhibitory FVIII antibodies have also been described in plasma of healthy donors and pools of immunoglobulins. The purpose of this study was to use synthetic FVIII-peptides to more closely define regions of the molecule targeted by natural anti-FVIII antibodies. Predictive algorithms were used for defining the positions of potential continuous epitopes. To investigate the presence of peptide-reactive antibodies in normal plasma pools of healthy donors, a plasma fraction (Cohn fraction II+III) containing all IgG subclasses was purified by affinity chromatography on peptide-Sepharose columns. The results of ELISAs and Western blotting experiments (with the selected peptides and well-defined recombinant FVIII thrombin fragments) confirmed the reaction specificities of the affinity-purified human antibodies. For each IgG preparation, the isotopic subclass was also determined. In the clotting assay, several IgG preparations showed neutralising activity in a dose-dependent manner. Our observations support the recent hypothesis that FVIII inhibitors in haemophilia A and autoimmune disease may originate from the proliferation of natural FVIII-specific B-cell clones.     

CD40 stimulation provides an IFN-gamma-independent and IL-4-dependent differentiation signal directly to human B cells for IgE production.

IgE induction from human cells has generally been considered to be T cell dependent and to require at least two signals: IL-4 stimulation and T cell/B cell interaction. In the present study we report a human system of T cell-independent IgE production from highly purified B cells. When human cells were co-stimulated with a mAb directed against CD40 (mAb G28-5), there was induction of IgE secretion from purified blood and tonsil B cells as well as unfractionated lymphocytes. Anti-CD40 alone failed to induce IgE from blood mononuclear cells or purified B cells. The effect of the combination of anti-CD40 and IL-4 on IgE production was very IgE isotype specific as IgG, IgM, and IgA were not increased. Furthermore, anti-CD40 with IL-5 or PWM did not co-stimulate IgG, IgM, or IgA and in fact strongly inhibited PWM-stimulated IgG, IgM and IgA production from blood or tonsil cells. IgE synthesis induced by anti-CD40 plus IL-4 was IFN-gamma independent as is the in vivo production of IgE in humans; the doses of IFN-gamma that profoundly suppressed IgG synthesis induced by IL-4, or IL-4 plus IL-6, had no inhibitory effect on anti-CD40-induced IgE production. Anti-CD23 and anti-IL-6 also could not block anti-CD40 plus IL-4-induced IgE production, but anti-IL-4 totally blocked their effect. IgE production via CD40 was not due to IL-5, IL-6 or nerve growth factor as none of these synergized with IL-4 to induce IgE synthesis by purified B cells. Finally, we observed that CD40 stimulation alone could enhance IgE production from in vivo-driven IgE-producing cells from patients with very high IgE levels; cells that did not increase IgE production in response to IL-4. Taken together, our data suggest that the signals delivered for IgE production by IL-4 and CD40 stimulation may mimic the pathway for IgE production seen in vivo in human allergic disease.     

Characterization of lymphokines mediating B cell growth and differentiation from monoclonal anti-CD3 antibody-stimulated T cells

Addition of anti-CD3 mAb 147 (IgG1), 446 (IgG1), or 454 (IgG2a) to cultures of T plus non-T cells can result in both B cell growth and differentiation. To determine whether lymphokines mediating these activities were similar to those described from conventional mitogen-induced T cell activation, normal peripheral blood T cells were stimulated with anti-CD3 mAb for 48 h. The supernatants were assayed for factors inducing B cell growth or differentiation (BCDF). A marked increase in Ig secretion was observed when either EBV-transformed B cell lines or normal B cells, pre-activated with Staphylococcus aureus Cowan I strain, were cultured in the presence of mAb 446 (anti-CD3) stimulated T cell supernatant whereas no significant increase in Ig secretion was noted with either mAb 454- or 147-induced T cell supernatant despite equivalent T cell proliferative responses to these antibodies. In contrast, IL-2 secretion was detectable in T cell supernatants from T cells stimulated with either mAb 454 or 147 but not 446. Factors promoting B cell proliferation were detected in all antibody-stimulated T cell supernatants but, contrary to BCDF, appear to act only on non-activated B cells. To determine whether these effector activities were due to distinct lymphokines, supernatants were pooled and concentrated by ammonium sulfate precipitation. Superose 12 permeation chromatography revealed BCDF activity with an apparent Mr of approximately 30,000 Da. The growth factor activity eluted over a wider and higher molecular weight range which overlapped the differentiation factor activity. Fractions containing BCDF activity were pooled, dialyzed, applied to a Mono Q anion-exchange column, and eluted with a linear NaCl gradient. The growth factor activity came off in a single-peak while BCDF was found divided into two major areas. The growth factor eluted at an ionic strength between the two BCDF activities. BCDF has an apparent isoelectric point (pI) of 6, in contrast to the reported pI 5 for IL-6 and more acidic than the documented basic pI of IFN-gamma. Lastly, peaks with BCDF activity were not active in assays for either IL-2 or IL-4. In addition, a rabbit anti-IL-6 heteroantiserum failed to inhibit the pI 6 BCDF, suggesting non-identity between IL-6 and anti-CD3 induced BCDF. Thus, anti-CD3 activated T cells generate both growth factor activity and BCDF as separate molecular entities distinct from IFN-gamma, IL-2, IL-4, and conventional IL-6.     

Effective ex vivo neutralization of human immunodeficiency virus type 1 in plasma by recombinant immunoglobulin molecules.

We tested the ability of human monoclonal antibodies (immunoglobulin G1b12 [IgG1b12] and 19b) and CD4-based molecules (CD4-IgG2 and soluble CD4 [sCD4]) to neutralize human immunodeficiency virus type 1 directly from the plasma of seropositive donors in an ex vivo neutralization assay. IgG1b12 and CD4-IgG2, at concentrations from 1 to 25 micrograms/ml, were found to be effective at reducing the HIV-1 titer in most plasma samples. When viruses recovered from plasma samples were expanded to produce virus stocks, no correlation between the neutralization sensitivities to IgG1b12 and CD4-IgG2 of the in vitro passaged stocks and those of the ex vivo neutralizations performed directly on the plasma was observed. These differences could be due to changes in neutralization sensitivity that occur after one passage of the virus in vitro, or they could be related to the presence of complement or antibodies in the plasma. Furthermore, differences in expression of adhesion molecules on plasma-derived and phytohemagglutinin-activated peripheral blood mononuclear cell-derived viruses could be involved. These studies suggest that IgG1b12 and CD4-IgG2 have broad and potent neutralizing activity in both in vitro and ex vivo neutralization assays and should be considered for use as potential immunoprophylactic or therapeutic agents.     

IL-6 and tumor necrosis factor-alpha. Autocrine and paracrine cytokines involved in B cell function

IL-6 and TNF-alpha are synthesized and secreted by normal tonsillar B cells after stimulation with the polyclonal B cell activator Staphylococcus aureus Cowan strain 1 (SAC) and IL-2 as well as spontaneously by in vivo activated B cells from patients with hypergammaglobulinemia. Using specific neutralizing antibodies, both factors were shown to be involved in autocrine and/or paracrine regulation of B cell differentiation. IgG induced by SAC/IL-2 stimulation was reduced 73% with an anti-IL-6 antibody and 40% with an anti-TNF-alpha antibody. Similar effects of these antibodies were observed on the spontaneous in vitro IgG production by lymphoblastic B cells from six patients with hypergammaglobulinemia. Kinetic studies with SAC/IL-2-activated B cells revealed that the anti-TNF-alpha antibody must be present at the beginning of the culture to exert an effect on Ig production, whereas the anti-IL-6 antibody reduced Ig production even if added as late as day 3. This sequential action of TNF-alpha and IL-6 on B cell differentiation was reflected by different kinetics of release of these two cytokines into the supernatant of SAC/IL-2 activated B cells; TNF-alpha peaked at 24 h and IL-6 at 96 h after stimulation. In addition, it was shown that IL-6 production by in vitro-activated B cells was partially blocked by an anti-TNF-alpha antibody suggesting that TNF-alpha regulates IL-6 production in normal B cells via an autocrine pathway. We also investigated the effects of TGF-beta on TNF-alpha and IL-6 production by normal B cells. Although TGF-beta inhibited Ig production by in vitro-activated and in vivo-activated B cells, it did not inhibit the release of these cytokines from normal B cells. Furthermore, TGF-beta did not inhibit the induction of nuclear factor-IL-6 nor the expression of IL-6R on activated B cells. Thus, although the biologic effects of anti-IL-6 and TGF-beta on B cell Ig production are similar, their mechanisms of actions appear to be distinct.     

Development of rat anti-mouse interleukin 3 monoclonal antibodies which neutralize bioactivity in vitro

Several rat anti-mouse interleukin 3 (IL-3) monoclonal antibodies have been developed which inhibit the biologic activity of mouse IL-3. These antibodies were produced in rats immunized with preparations of purified, recombinant mouse IL-3, obtained from transiently transfected COS7 cell supernatant. Hybridomas secreting anti-IL-3 were selected initially either on the basis of their giving a positive signal in an indirect enzyme-linked immunosorbent assay, or for their ability to inhibit the proliferation of the IL-3-dependent mouse mast cell line, MC/9. Neutralizing rat monoclonal IgG1, IgG2a, and IgG2b antibodies have been identified; these also block IL-3-induced proliferation of the NFS-60 and IC2 cell lines. These antibodies also blocked the IL-3-induced proliferation of mouse bone marrow-derived colony-forming units-culture suggesting that the same epitopes on IL-3 influence receptor recognition for both the proliferation of factor-dependent cell lines as well as normal bone marrow cells. Fab fragments produced from certain of the IgG2a-neutralizing antibodies blocked as well as the parent IgG. Antibody cross-blocking studies identified one neutralizing antibody apparently recognizing an epitope that was spatially distinct from those recognized by the other blocking antibodies tested. The development of these neutralizing rat monoclonal antibodies to mouse IL-3 should facilitate further investigation on the role of this factor in hemopoietic regulation.     

Recurrent staphylococcal cellulitis and subcutaneous abscesses in a child with autoantibodies against IL-6

We investigated an otherwise healthy patient presenting two episodes of staphylococcal cellulitis and abscesses, accompanied by high fever and biological signs of inflammation but, paradoxically, with no detectable increase in serum levels of C-reactive protein (CRP), an IL-6-responsive protein synthesized in the liver. Following in vitro activation of whole blood cells from the patient with multiple cytokines, TLR agonists, heat-killed bacteria, and mitogens, we observed a profound and specific impairment of IL-6 secretion. However, the patient's PBMCs, activated in the same conditions but in the absence of the patient's plasma, secreted IL-6 normally. The patient's serum contained high titers of IgG1 autoantibodies against IL-6, which specifically neutralized IL-6 production by control PBMCs as well as IL-6 responses in the human hepatocellular carcinoma cell line Hep3B. These anti-IL-6 autoantibodies were detected over a period of 4 years, in the absence of any other autoantibodies. Our results indicate that these Abs probably prevented an increase in CRP concentration during infection and that impaired IL-6-mediated immunity may have contributed to staphylococcal disease. Patients with severe bacterial infections and low serum CRP concentrations should be tested for anti-IL-6 autoantibodies, especially in the presence of other clinical and biological signs of inflammation.     

Prevalence and avidity of human herpesvirus-6 specific IgG antibodies in pregnant women in Hungary

The prevalence, the level and the avidity of human herpesvirus-6 (HHV-6) specific IgG were examined in pregnant women and age-matched female blood donors. The study group consisted of 180 women (age 14-45); 60 women with normal pregnancy, 60 pregnant women with fetuses suspected of having any viral infection and 60 healthy blood donors with no history of pregnancy. Plasma or serum samples were tested for HHV-6 IgG antibodies by an immunofluorescence assay. Ninety-eight percent of blood donors and 97% of 120 pregnant women had IgG antibodies to HHV-6. The rate of seropositivity in women with normal pregnancies and women with fetuses suspected to have viral infection was the same. Pregnant women (n = 120) had significantly lower antibody titer than blood donors. No significant differences were found in the same respect between the two groups of pregnant women. Low avidity of IgG antibodies to HHV-6 was detected in 5% of pregnant women.     

IL-4 is an essential factor for the IgE synthesis induced in vitro by human T cell clones and their supernatants

The property of 109 CD4+ T cell clones (TCC) to induce IgE synthesis in vitro in human B cells was compared with their ability to produce IL-2, IL-4, and IFN-gamma in their supernatants (SUP) after 24-h stimulation with PHA. A significant positive correlation was found between the property of TCC to induce or enhance spontaneous IgE synthesis and their ability to release IL-4. In contrast, there was an inverse relationship between the IgE helper activity of TCC and their ability to release IFN-gamma, whereas no statistical correlation between the property to induce IgE synthesis and to produce IL-2 was observed. The ability of PHA-SUP from 71 CD4+ TCC to induce IgE synthesis in B cells was also investigated. Twenty-nine SUP (all derived from TCC active on IgE synthesis) induced production of substantial amounts of IgE in target B cells. There was a correlation between the amount of IgE synthesized by B cells in response to these SUP and their IL-4 content. An even higher correlation was found between the IgE synthesis induced by these SUP and the ratio between the amount of IL-4 and IFN-gamma present in the same SUP. Like IL-4-containing SUP, rIL-4 also showed the ability to induce IgE production in B cells from both atopic and nonatopic donors. The addition to B cell cultures of anti-IL-4 antibody virtually abolished not only the IgE synthesis induced by rIL-4, but also that stimulated by TCC and their SUP. In contrast, the IgG synthesis induced by TCC SUP was not or only slightly inhibited by the anti-IL-4 antibody. These data indicate that IL-4 is an essential mediator for the IgE synthesis induced in vitro by human TCC and their SUP in the absence of a polyclonal activator, whereas IFN-gamma seems to exert a negative regulatory effect on the production of IgE.     

Elevated levels of endogenous IL-6 in systemic lupus erythematosus. A putative role in pathogenesis

Elevated spontaneous IgG production is characteristic of SLE. To identify the factors that support it, IL-6, a cytokine with an important role in the differentiation of IgG-secreting cells, was studied in SLE patients. Higher than normal levels of IL-6 were found, by a B9 assay, in sera of 63 of 70 patients (p less than 0.05). IL-6 was detected in 36 of 37 active SLE sera in higher titers (p = 0.009) than those for inactive SLE (n = 33), which were higher (p less than 0.05) than healthy controls (n = 15). IL-6 mRNA was detected in freshly isolated PBMC of 11 of 11 patients but not in normal PBMC, whereas IL-1 mRNA was detected only in patients with active disease. IL-6 activity was recovered from PBMC of four SLE patients, but not from four normal donors. By immunoperoxidase, IL-6 was detected in the cytoplasm of SLE monocytes and lymphocytes. When SLE PBMC were grown in short term cultures with no deliberate stimulation, expression of the IL-6 gene declined rapidly. Accordingly, the spontaneous production of IgG by SLE PBMC could be enhanced by exogenous IL-6. Spontaneous IgG production was diminished by 20 to 65% in the presence of neutralizing antibodies to IL-6, TNF-alpha, or IL-1. In contrast, neutralization of endogenous IL-4 increased production by approximately 40%. Anti-TNF-alpha treatment decreased IL-6 content of PBMC cultures, whereas anti-IL-4 augmented it, and exogenous IL-6 reversed anti-TNF-alpha effects on IgG production. Therefore, it is possible that the neutralization of TNF-alpha and IL-4 affected IgG production by modulating the synthesis/activity of IL-6. These results support the concept that SLE B cell hyperactivity is promoted by dysregulation of endogenous cytokines and suggest that IL-6, in particular, has an important pathogenic role.     

Tumor necrosis factor and IL-1 associated with plasma membranes of activated human monocytes lyse monokine-sensitive but not monokine-resistant tumor cells whereas viable activated monocytes lyse both

The purpose of our study was to determine some of the mechanisms involved in macrophage-mediated lysis of tumorigenic cells. A375 human melanoma cells (A375-R) resistant to lysis mediated by TNF and IL-1 were selected from the TNF- and IL-1-sensitive A375 parental melanoma cells subsequent to continuous (2 mo) exposure to rTNF. Peripheral blood monocytes isolated by centrifugal elutriation from healthy donors were incubated with rIFN-gamma and muramyl dipeptide, with a lipoprotein derived from Escherichia coli (CG-31362) or with LPS for 24 h. These activated monocytes lysed both the A375 (monokine-sensitive) and A375-R (monokine-resistant) melanoma cells. Activated tumoricidal macrophages fixed in 2% paraformaldehyde lysed only the TNF- and IL-1-sensitive A375 cells. These fixed monocytes contained both IL-1 and TNF activities as determined by D10 cell proliferation and L929 cytolysis assays, respectively. Nearly identical results were obtained with preparations of plasma membranes from activated human monocytes. Anti-IL-1 and/or anti-TNF sera neutralized the cytolysis of tumor cells mediated by free monokines, by fixed monocytes, or by plasma membrane preparations. In contrast, anti-TNF and/or anti-IL-1 sera did not inhibit tumor cell lysis by viable activated monocytes. We conclude that IL-1 and TNF molecules associated with the plasma membranes of activated monocytes mediate lysis of susceptible target cells. However, because activated monocytes lysed IL-1-and TNF-resistant target cells, molecules other than these monokines must also be involved in the antitumor activity of monocytes.