Human recombinant erythropoietin directly stimulates B cell immunoglobulin production and proliferation in serum-free medium.

The effect of human recombinant erythropoietin (Epo) on B cell responses was studied in a serum-free medium. Epo enhanced IgM production and thymidine uptake by a human IgM-producing lymphoblastoid cell line, CBL. This effect was specific to Epo since enhancement was blocked by anti-Epo antibody but not by control antibody. Among the various cytokines, interleukin-4 (IL-4) enhanced IgM production and thymidine uptake while IL-6 enhanced IgM production without affecting thymidine uptake. In contrast, other cytokines including IL-1 beta, IL-2, IL-5, interferon-alpha (IFN-alpha), interferon-gamma (IFN-gamma), or granulocyte/macrophage colony-stimulating factor (GM-CSF) were without effect. However, the enhancing effect of Epo is different from that of IL-4 or IL-6, since Epo effect was not blocked by anti-IL-4 antibody or anti-IL-6 antibody. Moreover, specific binding of Epo was detected on CBL cells. Epo also enhanced immunoglobulin (IgG, IgM and IgA) production and thymidine uptake by purified tonsil small resting B cells stimulated by Staphylococcus aureus Cowan strain I (SAC) or by large activated B cells. In contrast, Epo had no effect on unstimulated small resting B cells. These results indicate that Epo could directly stimulate activated and differentiated B cells and could enhance B cell immunoglobulin production and proliferation.     

Analysis of high and low responses toStaphylococcus aureus and interleukin 2 in human B lymphocytes

Fixed protein A-bearing staphylococci (SAC) stimulate human B cells via surface Ig, whereas IL-2 has been reported to provide a sufficient second signal for proliferation and differentiation. Using an ELISPOT assay to count cells secreting IgM, IgA, and IgG and flow cytometry with acridine orange to assess cell cycle progress, we have found that the purified B lymphocytes of a substantial minority (5/13) of healthy volunteers with normal serum Ig levels failed to differentiate to Ig secreting cells (ISC) in response to SAC + IL-2 (IgM, IgA, or IgG secreting cells, <5% of input B cells). High-responders generally formed 10–35% ISC. The proportions of B cells expressing IgG, IgA, IgM, or IgD were not different in the two groups. By average linkage cluster analysis, SAC/IL-2 high- and low-responders were shown to fall into two separate populations with respect to ISC. High- and low-responders tended to remain in the same group with repeated testing over several months, although some convergence was seen. The low-responders also showed significantly less advancement to late G1 and S phase than the high-responders, in the presence of SAC ± IL-2. Induction of IL-2 receptors on B cells by SAC + IL-2 was much greater in high-responders than in low-responders, as shown by flow cytometry with phycoerythrinconjugated IL-2. However, SAC + IL-2 induced transferrin receptors normally in low-responders, showing that some early activation steps occur in these cells. Low-responder B cells often improved their responses in the presence of macrophages and T cell supernatants. Finally, bypassing the surface Ig pathway using anti-CD3-activated T cells to stimulate B cells produced normal differentiation in low-responder B cells. Thus a subset of clinically normal individuals possesses B cells which fail to express IL-2 receptors, proliferate, and differentiate normallyin vitro in response to SAC + IL-2 yet can respond well to alternative activation pathways via T cells, monocytes, and their products.     

Human immunoglobulin class and IgG subclass regulation: Dual action of interleukin-4

Epstein-Barr virus (EBV) was used as a polyclonal human B cell mitogen to investigate the regulation of immunoglobulin class and IgG subclass responses by interleukin-4 (IL-4). Activation of tonsillar B cells with EBV resulted in an early peak of polyclonal immunoglobulin secretion between days 13 and 14 consisting of IgM, IgA, and IgG1, IgG2, IgG3 and IgG4, but not IgE. Addition of IL-4 to EBV-activated B cells at concentrations of 100 U/ml or greater induced the production of IgE and enhanced IgG4 secretion, but had no effect, or more often inhibited the other isotypes. In contrast, low concentrations of IL-4 (1-5 U/ml) significantly increased the production of IgM, IgA, IgG1, IgG2and IgG3, but had no effect on IgG4 or IgE. The increase in immunoglobulin secretion obtained with low concentrations of IL-4 was found to occur only with high-density (resting) B cells, suggesting that IL-4 was not functioning simply as a late-acting differentiation factor. Low concentrations of IL-4 significantly increased IgG1, IgG2, IgG3, and IgA production by surface (s)IgM⁺ (sIgG^?/sIgA^?) B cells which is consistent with heavy chain switching. In some experiments, however, IL-4 enhanced IgM secretion by sIgM⁺ B cells, and IgA, IgG1, IgG2, IgG3 by sIgM B cells, suggesting that it may have an additional B cell differentiation factor activity which was not isotype specific. The different effect of IL-4 at high and low concentrations were similar to those observed in B cell activation experiments, and may be due to the existence of high- and low-affinity IL-4 receptors.     

IL-4 and IL-2 upregulate the expression of antigen B7, the B cell counterstructure to T cell CD28: an amplification mechanism for T-B cell interactions.

We recently generated mAb 104 which is specific for the B cell activation antigen Ag B7. With this we studied the regulation of Ag B7 expression on normal tonsillar B lymphocytes as well as the activities of B7+ and B7- activated B cells. SAC and to a lesser extent anti-IgM antibody upregulated Ag B7 and this was further enhanced by IL-2 and most notably IL-4. Ag B7 was expressed on virtually all sIgG+ and sIgA+ B cells and approximately half of the sIgD+ and sIgM+ B cells. SAC-stimulated B7+ B cells proliferated and produced IgM, IgG and IgA in response to IL-2 and IgM and IgG in response to IL-4. SAC-stimulated B7- B cells proliferated and produced only IgM in response to IL-2 and IL-4. Considering that Ag B7 has recently been shown to be the counterstructure of the T cell CD28 and that CD28 triggering strongly enhances cytokine production by T cells, it is likely that the CD28/B7 interaction represents an important amplification phenomenon in T-B cell interaction leading to humoral immune responses. The preferential expression of Ag B7 on IgG and IgA committed cells suggests that CD28/B7 interaction may be more specific to secondary antibody responses provided by memory T and B cells.     

Immunoglobulin and cytokine production by neonatal lymphocytes.

Growth and differentiation of cord blood B cells were studied using T cell-depleted populations. In the absence of in vitro activation, cord blood B cells proliferated in response to cytokines including interleukin-2 (IL-2) and interleukin-4 (IL-4); anti-mu-stimulated cord B cells had a lesser response to IL-2 than adult cells. IgM synthesis by cord blood B cells was enhanced by interleukin-6 (IL-6) and decreased by IL-2. In cultures activated by Staphylococcus aureus Cowan I (SAC), cord blood B cells produced lesser increases in IgM than adult B cells regardless of the cytokine added. Cord blood B cells produced no IgG or IgA with any cytokine preparation with or without SAC activation. Supernatants of cord blood T cells pulse-stimulated with phytohaemagglutinin and phorbol myristate acetate contained less IL-2 and IL-6 and had less growth and differentiation activity than adult T cell supernatants. The results confirm a limited cord blood B cell response and also suggest a limitation in production of B cell stimulatory lymphokines by cord blood T cells.     

Surface immunoglobulin ligands and cytokines differentially affect proliferation and antibody production by human CD5+ and CD5- B lymphocytes.

Normal human peripheral blood B lymphocytes were separated into CD19+ CD5+ and CD19+ CD5- subsets by dual-color FACS sorting. In most experiments the cells were activated with Staphylococcus aureus Cowan I (SAC) and cultured in the absence or presence of recombinant human IL-1 alpha, IL-2, or IL-6, or combinations of these cytokines. Unstimulated CD5+ and CD5- B cells showed a comparable, low level of incorporation of [3H]thymidine into DNA. SAC stimulated proliferation of CD5+ and CD5- B cells, and this proliferation was augmented by IL-2 in the case of CD5- B cells. Anti-mu beads stimulated some proliferation of the CD5- subset and augmented SAC-induced proliferation of these cells. In contrast, anti-mu beads did not stimulate proliferation of the CD5+ subset and had no effect on SAC-induced proliferation of these cells. CD5+ B cells activated by anti-mu beads were stimulated to proliferate in the presence of IL-4, but not in the presence of IL-2. These observations support the interpretation that two signals are required for proliferation of CD5+ B cells. Using a two-step culture system, SAC activation itself did not induce Ig production by either subset of purified B cells. However, it primed the cells for antibody production in the presence of IL-2. IL-1 and IL-6 by themselves augmented antibody formation by these cells slightly, if at all. However, IL-6, and to a lesser extent IL-1, augmented antibody production in the presence of IL-2. Under the culture conditions used CD5- B cells produced IgM, IgG, and IgA whereas the CD5+ B cells produced almost exclusively IgM. The expression on B cells of surface activation markers was analyzed after culture for 2 days with SAC or anti-mu beads. In both subsets expression of Leu-23 and Leu-21 was increased, with some differences in intensity (Leu-23 greater in CD5+ cells, Leu-21 greater in CD5- cells). SAC increased IL-2R expression to a greater extent than anti-mu beads. In neither subset was expression of CD23 increased. These observations are discussed in the context of the possible role of the CD5+ subset of B lymphocytes as components of a system of natural immunity.     

An interleukin-6 transgene expressed in B lymphocyte lineage cells overcomes the T cell-dependent establishment of normal levels of switched immunoglobulin isotypes

Long-term proliferating, stromal cell/interleukin (IL)-7-reactive precursor B cell lines established from fetal liver and bone marrow of human IL-6-transgenic B6L^d46 mice produce and secrete human IL-6. When transplanted into severecombined immunodeficient (SCID) or Rag2 knockout (Rag2-T) mice, these pre-B cell lines establish a part of the B cell compartment but yield no T cells, as do pre-B cell lines from genetically matched non-transgenic mice. Within 2 to 3 months after transplantation, the serum of mice transplanted with pre-B cells from normal mice contains normal levels of IgM (200–600 μg/ml) but 10–100-fold lower levels of the IgG subclasses and of IgA. In contrast, the sera of mice transplanted with IL-6 transgenic pre-B cells contain not only IgM, but also IgG and IgA at nearly normal levels. The results indicate that at least a part of the plasmacytosis and elevated IgG production observed previously in the IL-6-transgenic mice appears to be due to a T cell-independent activation of IgG and IgA production by the IL-6-secreting pre-B cells and their differentiated progeny in the immunodeficient hosts.     

T细胞活化促进B细胞产生抗体机制的研究

B细胞活化和分化为抗体产生细胞的过程中,T细胞活化和T/B细胞相互作用的分子解析对研究自身抗体参与的自身免疫性疾病的发病机制和免疫干预具有重要的意义。为深入探讨人活化T细胞促进B细胞抗体产生的分子机制,我们建立CD4+T细胞和B细胞体外共培养体系,将活化CD4+T细胞和B细胞在体外共培养,测定不同时间培养上清液中IgG和IgM的水平,并通过抗体阻断实验分析参与B细胞抗体产生的重要分子。结果显示:CD4+T细胞在抗CD3/CD28抗体共同作用24h后即被活化,IL-2和IFN-γ的分泌明显增加,细胞表面黏附分子ICAM-1和诱导性协同刺激分子ICOS的表达强度显著增高;活化CD4+T细胞与B细胞共培养4d起,细胞培养上清液中可以检测到IgG和IgM,并随着共培养时间的延长而其量逐渐升高,抗ICAM-1抗体和抗ICOS抗体加入共培养体系可以明显降低培养上清液中IgG和IgM水平,其中抗ICAM-1抗体的阻断作用明显强于抗ICOS抗体。上述研究结果为人T细胞的活化促进B细胞抗体产生提供了重要证据,也为自身免疫病中T/B细胞相互作用的研究提供简便的实验方法和潜在的治疗靶点。     

Disodium cromoglycate enhances ongoing immunoglobulin production in vitro in human B cells

The effect of disodium cromoglycate (DSCG) upon human immunoglobulin (Ig) isotypes and IgG subclasses production by purified B cells was studied. DSCG enhanced IgM, IgG1, IgG2, IgG3, IgG4 and IgA production in a dose-dependent fashion, while DSCG failed to induce IgE production at any concentrations tested by purified B cells. When B cells were separated into small resting and large activated B cells, DSCG failed to induce Ig production from small resting B cells in the presence or absence of Staphylococcus aureus Cowan strain I (SAC). In contrast, in large activated B cells DSCG significantly enhanced all types of Ig production (two-to threefold), especially IgG4 production (seven-to 11-fold), except IgE, which large B cells did not produce. The enhancement of IgG subclass production was not subclass switching, since DSCG failed to enhance IgG1 production in B cells depleted of surface IgG1+ cells (sIgG1+ cells). Similarly, DSCG did not enhance IgG2, IgG3 or IgG4 production from sIgG2-, sIgG3- or sIgG4- B cells, respectively, Interleukin-4 (IL-4) or interleukin-6 (IL-6) also enhanced Ig production except IgG4 from large activated B cells. The enhancing effect of DSCG was not mediated by IL-4 or IL-6 since anti-IL-4 or anti-IL-6 antibody failed to block the DSCG-induced enhancement. DSCG also enhanced IgG2 and IgM production from human B-cell lines GM-1500 and CBL, respectively. These results suggest that DSCG directly and preferentially stimulates activated B cells which are producing Ig and, in addition, enhances their Ig production.     

IL-4 and transforming growth factor-beta suppress human immunoglobulin secretion in vitro by surface IgD- B cells.

The effect of IL-4 and transforming growth factor-beta (TGF-beta) on immunoglobulin secretion in vitro by peripheral blood mononuclear cells (PBMC) or purified B cells activated with murine EL4 thymoma cells and phorbol myristate acetate (PMA) was investigated. As previously reported, IL-4 induced IgE and IgG4 secretion by B cells in PBMC preparations and B cells activated with EL4 cells and PMA. However, when B cells, either in PBMC preparations or purified and activated with EL4 cells and PMA, spontaneously secreted large quantities of immunoglobulin, IL-4 suppressed the immunoglobulin secretion of all isotypes. IL-4 also suppressed the IgE secretion by B cells from an atopic dermatitis patient. This suppressive effect was not reversed by adding IL-2 or interferon-gamma (IFN-gamma) to the cultures. We also showed that TGF-beta suppressed the immunoglobulin secretion by purified B cells activated by EL4 cells and PMA. To investigate whether IL-4 or TGF-beta suppressed immunoglobulin secretion by in vivo 'switched' and isotype-committed B cells, sIgD- B cells were isolated, activated with EL4 cells and PMA and cultured with IL-4 or TGF-beta. Such activated B cells secreted large quantities of IgG1, IgG2, IgG3, IgA1, IgA2 and IgM, and IL-4 and TGF-beta suppressed all these isotypes by greater than 80%. The data demonstrated that IL-4 and TGF-beta suppress immunoglobulin secretion in vitro by in vivo isotype-committed sIgD- B cells, suggesting that these lymphokines may play a down-regulatory role on differentiated isotype-committed B cells in an isotype-unrestricted manner. The data also showed that IL-4 and TGF-beta acted directly on isolated B cells.     

Interferon-gamma inhibits the proliferation but not the differentiation of murine B cells in response to IL-5

Interferon-gamma (IFN-gamma) is supposed to be produced by type 1 helper T cells (TH1) and inhibits IL-4-dependent B cell growth and differentiation. IL-5 (T cell-replacing factor, TRF), is a T cell-derived lymphokine which is predominantly produced by type 2 helper T cells (TH2) and regulates proliferation and differentiation of activated B cells. In this study, the effect of IFN-gamma on IL-5-dependent B cell growth and differentiation has been studied using murine chronic B cell leukemic cells (BCL1), normal splenic B cells, and cloned early B cell line. IFN-gamma selectively inhibits the IL-5-mediated proliferation of activated B cells as well as cloned early B cell lines at a low concentration (2 U/ml) in which polyclonal IgM production was not affected. This inhibitory effect of IFN-gamma occurs within 24 h after the onset of culture, as demonstrated by the inability of antibody to IFN-gamma to reverse totally the IFN-gamma-mediated suppressive effects if it was added later than 24 h after the onset of the culture. On the contrary, IL-5-mediated IgM secretion of BCL1 and IgA formation of LPS-stimulated normal B cells were relatively resistant to the suppressive effect of IFN-gamma. IFN-gamma does not affect the receptor expression for IL-5. Interestingly, IL-4-mediated IgG1 formation of LPS-stimulated B cells was markedly suppressed by IFN-gamma at 10 U/ml. These results strongly suggest that IFN-gamma may have differential effects on IL-5-mediated B cell triggering.     

CD27/CD70 interaction directly drives B cell IgG and IgM synthesis

CD27 is a T cell activation antigen expressed on a majority of peripheral blood T cells. CD27 is also expressed on a subpopulation of human B cells, and it is reported that CD27⁺ B cells secrete both IgG and IgM. CD70, a ligand for CD27, is expressed on activated T and B cells, suggesting an interaction between T and B cells via CD27/CD70 ligation. Here, we analyze B cell immunoglobulin synthesis using a CD70 transfectant and present functional data showing that B cells secrete large amounts of IgG and IgM as a result of the CD27/CD70 interaction. A flow cytometric analysis showed that CD27 expression was increased and CD70 was expressed on tonsillar and peripheral blood B cells after activation with Staphylococcus aureus Cowan strain (SAC) plus interleukin (IL-2). In addition, the proliferation of B cells was enhanced mildly by the addition of CD70 transfectant, and its proliferation was blocked by anti-CD70 mAb. More importantly, the CD70 transfectant enhanced IgG and IgM production by purified B cells greatly in the presence of SAC plus IL-2. The enhancement was completely blocked by the addition of either anti-CD70 mAb or anti-CD27 mAb. Strongly suggesting that the interaction of CD27 with its ligand, CD70, on B cells plays an important role in B cell growth and differentiation to produce IgG and IgM.     

High IgE secretion capacity of human plasma cells

In accordance with results obtained in another culture system, it has previously been shown that human B cells frequently switch to immunoglobulin E (IgE) when they are co-cultured with irradiated mutant EL4 thymoma cells (which provide a CD40 ligand-mediated B cell activation signal), T cell supernatant and recombinant interleukin (IL)-4. However, because of the potentially severe side effects of IgE, such as anaphylaxis, B cells could have a limited capacity to produce this isotype. The IgE secretion rate of plasma cells is not known. In the present study, we compared the secretion rates for different Ig classes by means of limiting dilution analysis of plasmocytic cells that were harvested after 8 to 9 days from primary EL4/B cell cultures and titrated into secondary cultures in the presence of a cell proliferation-blocking concentration of hydroxyurea. These cells secreted Ig at constant rates for periods of up to 2 weeks; IgE secretion was IL-4 independent. The mean cellular secretion rates were similarly high for IgE (150 pg/cell/24 h) and other isotypes (IgM 273 pg, IgG 112 pg, IgA 136 pg/cell/24 h). In terms of molecules per min this represents 3.3 × 10⁵ for IgE versus 1.2 × 10⁵ for IgM, 3.1 × 10⁵ for IgG and 3.6 × 10⁵ for IgA. The relative frequency of IgE-secreting cells was only 0.3 % of the total number of Ig-secreting cells, suggesting a small size of IgE-producing clones in this in vitro system. Whether this is relevant regarding an in vivo response is not known. Clearly, the Ig secretion capacity of plasma cells would not limit an IgE response in the absence of extrinsic control.     

Is the activated T helper stimulus able to induce Ig isotype switching in cultured human B cells?

It Is confirmed that large amounts of IgM, IgG, and IgA areproduced when human B cells are cultured with T cells activatedby immobilized CD3 antibody (CD3 system). IL-2 was essential;lowerlevels of Ig production with different isotype ratios were obtainedif IL-4 or IL-6 replaced IL-2. Depletion of sIgG⁺ or sIgA⁺ cellsfrom the B population to be cultured markedly reduced productionof IgG or IgA. Culturesof B cells selected with the pan-B markersCD19, CD72, or CD21 contained similar levels of Ig of all threeisotypes, whereas B cells selected for sIgM or sIgD expressionproduced IgM but very little IgG or IgA indicating that littleisotype switching was occurring. Production of IgG or IgA fromcells expressing these isotypes was more efficient than productionof IgM from IgM⁺ IgD⁺ cells. These results are considered inthe light of the demonstration by others of the production ofmultiple isotypes from single sIgM⁺-selected B cells. Clonedhuman T cells from a single donor induced production of allthree isotypes, but the proportions varied indicating that thepotent T-B cell interactions inducing B cell activation mayoverride and conceal the operation of isotype specific cellinteractions. Some T clones used at an optimal dose were aseffective untreated as X-irradiated, whereas with other clonesmaximumIg production was not achieved without irradiation.     

Allergen extract-induced interleukin-10 in human memory B cells inhibits immunoglobulin E production

Background Elevated specific IgE antibody levels are common in atopic individuals, caused by T-helper type 2-dominated B cell activation. The induction of antigen-specific IL-10 secreting T cells is discussed as an important mechanism during specific immunotherapy. By contrast the presence and function of B cell-derived IL-10 is not well defined yet.
Objective We investigated whether type-I allergen extracts induce IL-10 expression in human B cells and analysed its functional role on IgE production.
Methods Human peripheral B cells were stimulated with grass pollen, house dust mite (HDM) ( Dermatophagoides pteronyssimus ; Der p) and dog allergen extract. Expression of IL-10 by activated human B cells was determined by flow cytometric analysis and ELISA. Functional analysis considering immunoglobulin production was assayed by ELISA.
Results The allergen extracts studied induced IL-10 expression in B cells. However, the ability to induce IL-10 differed between the allergen extracts. The most potent allergen extract was dog (169±28 pg/mL), followed by grass pollen (141±10 pg/mL) and HDM allergen (125±11 pg/mL). Upon allergen extract stimulation only CD27 expressing memory B cells produced IL-10 and co-expressed the very early activation antigen CD69. The addition of allergen extracts to B cells activated by anti-CD40 and IL-4 selectively inhibited IgE which was dependent on allergen extract-induced IL-10. By contrast the other immunoglobulin subclasses like IgA, IgG or IgM were not altered upon allergen extract challenge.
Conclusion Our data indicate that allergen-activated memory B cells can modulate IgE production through secretion of IL-10.     

Production of immunoglobulins by human sIgD+ and sIgD- human blood B lymphocytes in response to stimulation with activated T cells and agonistic antibodies; effect of IL-10, IL-2 and mode of activation of T cells.

Production of IgM, IgG and IgA was induced from human blood B lymphocytes by culturing with a CD40 MoAb and IL-2 for 9 days. Replacement of IL-2 by IL-10 markedly enhanced production of all three isotypes. High levels of immunoglobulin production also occurred when activated irradiated autologous T cells replaced the CD40 MoAb, and when IL-10 replaced IL-2 in these cultures a spectacular increase in IgG production occurred. The effectiveness of the T cell stimulus depended on the mode of purification of the T cells and the nature of the stimulant used to activate them. Differences in the kinetics and level of expression of CD40L on the various T cell preparations were observed, but did not account for variations in immunoglobulin-inducing efficiency. Immunoglobulin production from sIgD+ and sIgD- B cells was investigated. IgG and IgA were found in sIgD+ cultures, indicating that some isotype switching had occurred, but the major part of the IgG and IgA secreted was from cells already committed to these isotypes. Anti-IgD or anti-IgM MoAbs enhanced the proliferation of B cells induced by anti-CD40 antibody, but immunoglobulin production was not enhanced. Factors affecting the balance of proliferation and differentiation are discussed.