Activation of human B lymphocytes: XVI. Cellular requirements,interactions, and immunoregulation of pokeweed mitogen-induced total-immunoglobulin producing plaque-forming cells in peripheral blood

The optimal culture and assay conditions for the detection of spontaneously occurring and pokeweed mitogen (PWM)-induced polyvalent Ig (IgG + IgM + IgA) and individual Ig class-specific plaque-forming cells (PFC) in human peripheral blood have been described in detail. Culture conditions are critical, particularly with regard to cell density and batches of supplemental serum. Fetal calf serum is a much more supportive serum supplement for PWM-induced PFC than is human serum. The assay system is a modified reverse hemolytic PFC assay using staphylococcal protein A coupled to sheep red blood cells by the chromic chloride method. PFC are developed by rabbit anti-human polyvalent Ig or anti-human individual Ig class antisera. Human peripheral blood contains 468 (±78) spontaneously occurring Ig secreting PFC per 10⁶ lymphocytes at Day 0 and 20,500(± 1971) PWM-induced Ig secreting PFC after 6 days in culture. The response is T-cell dependent; however, T cells can be replaced by a soluble T-cell factor prepared from a 48-hr allogeneic mixed lymphocyte reaction supernatant. The relative dependence on monocytes is a reflection of the culture conditions employed. Under the conditions of round-bottom tubes which promote cell-to-cell contact, depletion of monocytes to 0 to 2% does not result in a diminution of PFC responses. In fact, under such conditions, in certain individuals monocytes are markedly suppressive such that removal of monocytes results in a substantial enhancement of PFC responses. This system is simple and reproducible and should prove extremely useful in the delineation of the mechanisms of B-cell triggering and immunoregulation in normals and in disease states.     

Idiotypic analysis of a B cell clone with anti-intermediate filament specificity in a patient with Sj?gren's syndrome: involvement of five subpopulations producing different immunoglobulin isotypes

An IgM paraprotein from patient LP with Sj?gren's syndrome exhibited an antibody activity to intermediate filaments (IMF) of cells from all vertebrates examined, and appeared to recognize several classes of IMF (i.e., vimentin, desmin, and keratin). A mouse monoclonal anti-idiotype (Id) antibody, K4A, was prepared against the IgMk (LP) and used as a specific probe in two-color immunofluorescence to examine the extent of clonal involvement in the patient's blood and bone marrow mononuclear cells (MNC). Twenty to 30% of MNC in her blood samples were IgMk+ plasmablasts with morphologic similarity to Waldenstr?m's macroglobulinemia cells. IgG+ and IgA+ plasmablasts were demonstrated in lower frequencies (approximately 2%). Almost all of the IgM+ cells and approximately 80% of the IgG+ cells and IgA+ cells in the blood were reactive with the K4A anti-Id antibody. Immunoglobulin (Ig) subclass analysis revealed that the K4A Id was expressed by IgG1+, IgG3+, IgA1+ and IgA2+ plasmablasts. Similar observations were obtained with bone marrow samples, although the proportion of Id+ cells among IgG+ or IgA+ cells was lower in marrow than in blood. IgG and IgA fractions isolated from the patient's serum were also shown to contain anti-IMF activity. Ig biosynthetic analysis of blood MNC revealed that the K4A anti-Id antibody precipitated not only IgM but also IgG and IgA. Because cells simultaneously producing two different Ig isotypes were not detected, these results indicate the presence of five separate subpopulations of the K4A Id+ neoplastic clone. The data thus suggest the occurrence of a neoplastic or pre-neoplastic transformation event before the switching of Ig heavy chain isotypes, and imply a role for the IMF antigen in the exaggerated proliferation and differentiation along five of the nine potential intraclonal pathways.     

IgM and IgG direct plaque-forming cells develop during the immune response of miniature swine to sheep erythrocytes.

A procedure for the direct determination of the class of antibody produced during the immune response of Minnesota miniature swine was developed by analyzing the distribution of Ig classes of direct hemolytic plaque-forming cells (PFC). The procedure involved cytoplasmic staining of fixed, direct PFC with class-specific fluorescent antibody reagents, utilizing the plaque assay methodology developed by Kennedy and Axelrad. Mean percentages of cytoplasmic IgM- and IgG-positive direct PFC determined during the immune response of conventional swine were found to be approximately 70% IgM positive and 30% IgG positive. Sheep red blood cell ghosts contained within the plaques stained positive for the same class of immunoglobulin as was expressed intracytoplasmically by the central PFC, indicating a specific correlation between cytoplasmic Ig class and the secreted class of antibody. Pronase treatment of spleen cells prior to assay, a procedure which removes surface Ig, produced no alteration in the frequencies of IgM- or IgG-positive direct PFC, indicating that our staining procedure was detecting genuine cytoplasmic Ig. The lack of significant overlap in the combined percentages of IgM- and IgG-positive PFC suggests that there should be few PFC producing antibody of both IgM and IgG classes simultaneously.     

Differentiation of B lineage cells from liver of neonatal mice: generation of immunoglobulin isotype diversity in vitro

The development and differentiation of B cells expressing different immunoglobulin (Ig) isotypes was studied in cultures of murine neonatal liver cells. Before culture, 5 to 15% of the liver cells were mu + pre-B cells; 1 to 3% had surface IgM and less than 0.1% had slgG. During 4 days in culture the number of pre-B cells declined, whereas the number of IgM B cells increased greater than 20-fold; IgG B cells also increased in number. Of the four subclasses, IgG3+ and IgG2b+ cells predominated, each representing 3 to 10% of the total B cells at day 4. IgG1+ and IgG2a+ cells were present in lower numbers, representing 1 to 5% and 0.3 to 2.5% of B cells, respectively. Most IgG+ cells also expressed sIgM. Only a minority (less than 10%) of the sIgM+ cells were sIgD+, and most sIgG+ cells were sIgD-. Few T cells were present in these cultures (less than 0.5% in newborn liver), and sIgG+ cells were generated in normal frequencies in cultures of cells from nude mice. The numbers of B cells expressing each IgG subclass were similar in cultures from athymic nu/nu mice, nu/+ heterozygous littermates, and normal BALB/c mice. Plasmablasts and plasma cells appeared over a 14-day culture interval, and these expressed cytoplasmic IgM, IgG3, IgG1, IgG2b, IgG2a, and IgA. Measurable amounts of the first four isotypes were detected in the culture supernatants by radioimmunoassay. These results indicate that neonatal B cells can undergo isotype switching in the absence of T cell help, and that the expression of sIgD may not be a prerequisite for cells to switch Ig isotypes.     

Regulation of mucosal B cell immunoglobulin secretion by intestinal epithelial cell-derived cytokines

Intestinal epithelial cells (IEC) secrete a variety of cytokines and, because of their close proximity to B cells in the lamina propria, may affect local antibody production via these cytokines. However, studies have not yet addressed which and to what extent these IEC-derived cytokines may affect B cell antibody production. In this study, rat mesenteric lymph node B cells were cultured with culture supernatants from the rat IEC-6 intestinal epithelial cell line to determine their effect on immunoglobulin (Ig) secretion. Unstimulated IEC-6 cells were found to secrete sufficient levels of IL-6 to enhance IgA, IgG and IgM secretion by unstimulated B cells. However, culture of lipopolysaccharide (LPS)-stimulated B cells with the unstimulated IEC-6 supernatant resulted in an enhancement of IgA secretion while IgM secretion was significantly suppressed. Depletion of the IEC-6 supernatant using cytokine specific antibodies revealed that both interleukin 6 (IL-6) and transforming growth factor beta (TGF-beta) were responsible for the enhanced IgA secretion while TGF-beta suppressed IgM secretion. More importantly, culture supernatants from LPS stimulated IEC-6 cells contained enhanced levels of IL-6 which enhanced both IgG and IgA production and partially overcame the suppressive effect of TGF-beta on IgM secretion. These results suggest that intestinal epithelial cells may secrete IL-6 and TGF-beta to regulate local B cell antibody secretion and their effect may be highly dependent upon the activation state of the epithelial cells.     

Polyclonal immunoglobulin response of thymic,hepatic and splenic lymphocytes from fetal,germ-free and conventionally reared pigs to different B-cell activators

Immunoglobulin (Ig) response to different polyclonal B-cell activators was measured by ELISA in cell culture media of thymocytes, splenocytes and liver cells isolated from pig fetuses, 8-d-old germ-free piglets and conventionally reared pigs. Both in fetal and in postnatal life polyclonally stimulated lymphocytes were found to produce predominantly the IgM isotype; the first IgM formation was detected in 50-d-old fetal liver (gestation in pigs lasts 114 d). Surprisingly, 73-d-old fetal thymic cells were shown to be induced to Ig synthesis and secretion. In contrast to splenocytes of the same age, which secreted exclusively IgM, fetal thymocytes produced IgM, IgG and IgA. Polyclonally stimulated splenic cells as compared with thymic cells started to produce IgA later in fetal ontogeny, whereas the IgG response was not detectable in splenic cell culture media during the whole embryonal development and appeared only after birth. The earliest and the highest Ig stimulation was found after cultivation of lymphocytes withNocardia delipidated cell mitogen. Interestingly, the moderate stimulatory effect of 65-kDa heat shock protein (Hsp-65) in polyclonal IgM response of fetal splenocytes was observed. We showed that thymic B lymphocytes represent probably the first maturing B cell population detectable in fetal life, which is able to differentiate after polyclonal stimulation into IgM as well as IgA and IgG producing cells. Dedicated to Professor J. Šterzl on the occasion of his 70th birthday     

Jacalin, an IgA-binding lectin, inhibits differentiation of human B cells by both a direct effect and by activating T-suppressor cells

Jacalin, a lectin extracted from the seeds of Artocarpus intergifolia (jackfruit), has been reported to bind specifically to IgA while inducing B-cell polyclonal immunoglobulin secretion. We confirmed that jacalin only binds to IgA and not to IgG or IgM and extended these findings by showing that it does not bind to IgE. Addition of jacalin to either unfractioned peripheral blood lymphocytes or purified B cells failed to induce immunoglobulin synthesis; indeed immunoglobulin production was diminished in the presence of jacalin. We found that jacalin directly inhibited the induction of immunoglobulin synthesis from B cells in the presence of T-cell replacing factor. Cell lines making IgG, IgM, and IgA were inhibited by jacalin. Furthermore, T cells incubated with jacalin also inhibited immunoglobulin production by stimulated B cells. Under these conditions jacalin was found to be a potent mitogen for T cells but to induce little or no activation of B cells. Jacalin appears to be a potent T-cell mitogen which can induce suppressor T cells for Ig production. It also has a direct inhibitory effect on B-cell Ig production.     

Stimulation of Immunoglobulin Production from Human B Lymphocytes by Staphylococcus aureus: Effects of Monocytes and Con A-Induced Suppressor Cells

Significant immunoglobulin (Ig) production by human peripheral blood lymphocytes was induced in vitro by stimulating the cells with pokeweed mitogen (PWM) and Staphylococcus aureus Cowan I (SpA CoI). IgG, IgM, and IgA were determined by a combination of the latex fixation test and radioimmunoassay. High levels (1,000 to 5,000 μg/ml) of IgG and IgM and a lesser amount of IgA were constantly produced during 7 to 8 days of incubation with both stimulants. Ig production induced by SpA Col stimulation was independent of the presence of T cells, while Ig production induced by PWM required T cells exclusively. Depletion of monocytes in the culture caused but a slight decrease in Ig production (particularly in the case of IgG). While the addition of a small number of monocytes enhanced IgG induction by both stimulants, coculture with an excess number of monocytes inhibited Ig induction (particularly IgG) by PWM stimulation but not by SpA CoI stimulation. Marked suppression of Ig production (IgG, IgM, and IgA) was observed in cocultures with Con A-activated T cells. The phenomena of suppression were observed in both the SpA Col-stimulated and PWM-stimulated lymphocytes. These data indicate that Ig production from B cells stimulated with a polyclonal B cell activator, SpA CoI, was independent of T cells and relatively of independent of monocytes, but could be subjected to the regulation of the Con A-induced suppressor T cells.     

T cell hybridomas coexpressing Fc receptors (FcR) for different isotypes. II. IgA-induced formation of suppressive IgA binding factor(s) by a murine T hybridoma bearing Fc gamma R and Fc alpha R

T2D4 murine T hybridoma cells have previously been shown to express Fc receptors (FcR) for IgG (Fc gamma R) and for IgA (Fc alpha R) and to produce an IgG binding factor (IgGBF) that suppresses IgG and IgM responses. In the present work we report on the behavior of IgA bound to T2D4 cells and on the production of IgA binding factor (IgABF) and its ability to suppress IgA antibody production. A dose-dependent binding of MOPC315 IgA with anti-TNP activity by T2D4 cells was demonstrated by rosette formation with trinitrophenylated ox red blood cells (TNP-ORBC) and fixation of iodinated DNP-BSA. IgA bound to the cells disappeared after a short-term culture of 3 hr at 37 degrees C, but not at 4 degrees C. Because this phenomenon was inhibited by 0.1% sodium azide and 100 microM dansylcadaverine, a transglutaminase inhibitor, Fc alpha R-IgA complexes seemed to be released by an active process involving receptor movement. In the culture supernatant of IgA-treated T2D4 cells, we detected a factor(s) that binds to IgA-Sepharose and competitively inhibits the binding of IgA to T2D4 cells. The factor (IgABF) failed to inhibit the rosette formation of Fc gamma R(+) cells with IgG-sensitized ORBC (EAox gamma), indicating that it binds specifically to IgA. IgABF was undetectable in the culture supernatants of untreated T2D4 cells of Fc alpha R(-) BW5147 T lymphoma cells used as parent cells for the establishment of the hybridoma. To study the effect of IgABF on antibody formation, culture filtrates of IgA-treated or untreated T2D4 cells were fractionated on IgA-Sepharose beads and were added to BALB/c spleen cells cultured with pokeweed mitogen. By use of a reverse plaque assay, it was shown that the IgA plaque-forming cell (PFC) response was suppressed by the acid eluate but not by the effluent of IgA-Sepharose beads incubated with the filtrates of IgA-treated T2D4 cell cultures. The suppression was IgA specific, because neither IgG nor IgM responses were suppressed by the eluate. As expected, there was no significant IgA suppressive activity in the acid eluates of the beads incubated with the culture filtrate of untreated T2D4 cells or IgA-treated BW5147 cells. IgA-specific suppressive activity proved to be due to IgA binding factor(s), because suppressive activity in the eluate was completely adsorbed by IgA-Sepharose but not by IgG- nor BSA-Sepharose.     

Development of assay system for immunoglobulin production regulatory factors using whole cell cultures of mouse splenocytes

We tried to establish an assay system for screening and assessment of immunoregulatory factors using whole cell cultures of mouse splenocytes and found that splenic adhesive cells markedly increased immunogobulin (Ig) production of splenocytes. In the absence of adhesive cells, lipopolysaccharides, pokeweed mitogen, and phytohemagglutinin stimulated the production of IgA, IgG, and IgM in a class-dependent manner. Adhesive cells increased more markedly Ig production of splenocytes stimulated with these mitogens. When mouse splenocytes were cultured with milk proteins in the absence of adhesive cells, lactoferrin, beta-lactoglobulin, alpha-casein, and beta-casein stimulated IgA and IgG production. Adhesive cells increased IgA production of splenocytes stimulated with milk proteins, especially. These results suggest that the assay system is useful for assessment of Ig production-regulating factors.     

Ig isotype switching in B lymphocytes. Isolation and characterization of clonal variants of the murine Ly-1+ B cell lymphoma, CH12, expressing isotypes other than IgM

We have selected and cloned variant cells from the murine B cell lymphoma, CH12, that produce a variety of other Ig isotypes in addition to or in place of the original IgM and IgD. Variants were selected by flow cytometry and automated cloning and isotype production was analyzed by membrane immunofluorescence and ELISA of culture fluids. Variants have been isolated that produce the single isotypes IgA, IgG2b, and IgG3, as well as variants that produce more than one isotype simultaneously, i.e., IgM, IgD, and IgA; IgG2b and IgA; IgG3 and IgA. All isotypes have been seen as cell surface proteins and all except IgD have been found in culture supernatants. All isotypes display the same idiotype and Ag-binding specificity for phosphatidyl choline as the original IgM and all are translated from the same VDJH and VJ kappa gene assemblies. Production of more than one isotype by a variant clone is due to simultaneous production of all the isotypes by each cell within the clone. The finding that the variants producing more than one isotype are all tetraploid suggests the interesting possibility that each isotype is derived from an independently switching chromosome. All isotype variants can be stimulated by LPS to secrete the appropriate Ig isotype at an increased rate similar to the IgM expressing parent. The variants differ in stability; some have remained stable for more than 9 months in culture, whereas other have undergone further isotype switching. The facts that some isotypes have not been seen, that multistep switching has occurred, and that many variants produce IgA in addition to another isotype are discussed in relation to current notions of isotype switching mechanisms.     

IL-2 and a contact-mediated signal provided by TCR alpha beta + or TCR gamma delta + CD4+ T cells induce polyclonal Ig production by committed human B cells. Enhancement by IL-5, specific inhibition of IgA synthesis by IL-4.

To study the role of T cells in T-B cell interactions resulting in isotype production, autologous purified human splenic B and T cells were cocultured in the presence of IL-2 and Con A. Under these conditions high amounts of IgM, IgG, and IgA were secreted. B cell help was provided by autologous CD4+ T cells whereas autologous CD8+ T cells were ineffective. Moreover, CD8+ T cells suppressed Ig production when added to B cells cocultured with CD4+ T cells. Autologous CD4+ T cells could be replaced by allogeneic activated TCR gamma delta,CD4+ or TCR alpha beta,CD4+ T cell clones with nonrelevant specificities, indicating that the TCR is not involved in these T-B cell interactions. In contrast, resting CD4+ T cell clones, activated CD8+, or TCR gamma delta,CD4-,CD8- T cell clones failed to induce IL-2-dependent Ig synthesis. CD4+ T-B cell interaction required cell-cell contact. Separation of the CD4+ T and B cells by semiporous membranes or replacement of the CD4+ T cells by their culture supernatants did not result in Ig synthesis. However, intact activated TCR alpha beta or TCR gamma delta,CD4+ T cell clones could be replaced by plasma membrane preparations of these cells. Ig synthesis was blocked by mAb against class II MHC and CD4. These data indicate that in addition to CD4 and class II MHC Ag a membrane-associated determinant expressed on both TCR alpha beta or TCR gamma delta,CD4+ T cells after activation is required for productive T-B cell interactions resulting in Ig synthesis. Ig production was also blocked by mAb against IL-2 and the IL-2R molecules Tac and p75 but not by anti-IL-4 or anti-IL-5 mAb. The CD4+ T cell clones and IL-2 stimulated surface IgM-IgG+ and IgM-IgA+, but not IgM+IgG- or IgM+IgA- B cells to secrete IgG and IgA, respectively, indicating that they induced a selective expansion of IgG- and IgA-committed B cells rather than isotype switching in Ig noncommitted B cells. Induction of Ig production by CD4+ T cell clones and IL-2 was modulated by other cytokines. IL-5 and transforming growth factor-beta enhanced, or blocked, respectively, the production of all isotypes in a dose-dependent fashion. Interestingly, IL-4 specifically blocked IgA production in this culture system, indicating that IL-4 inhibits only antibody production by IgA-committed B cells.     

The in vitro production of anti-DNA antibody by cultured peripheral blood or tonsillar lymphoid cells from normal donors and SLE patients

Anti-DNA antibody responses by cultured circulating lymphocytes from SLE patients and by the tonsillar lymphoid cells of normal donors were detected and enumerated by a sensitive specific ELISA of culture supernatants, or by a hemolytic anti-DNA PFC assay. Although spontaneous IgM and IgG anti-DNA and anti-ssDNA responses were characteristic of SLE lymphocytes and spontaneous IgM anti-ssDNA responses were characteristic of tonsillar lymphocytes, the circulating lymphocytes of normal controls never produced anti-DNA antibodies spontaneously, and rarely after PWM stimulation. The anti-DNA antibody PFC response of tonsil lymphocytes correlated directly with the total number of immunoglobulin-producing cells measured by a reverse hemolytic PFC assay. Mixing experiments in which we employed cultures of comparable numbers of separately enriched autologous circulating and tonsillar B and T cells revealed that tonsillar tissue contained an enriched population of anti-DNA antibody precursor B cells and/or helper T cells.     

Induction of IgA-specific suppressor activity in human T-lymphocyte cultures

Cell-free supernatants of human circulating T-lymphocyte cultures incubated with secretory IgA (S-IgA) specifically suppressed both spontaneous IgA synthesis by B lymphocytes isolated from allergic individuals and pokeweek mitogen-induced IgA secretion by peripheral blood mononuclear cells. Cell-free supernatants of T-cell cultures incubated with IgE had no effect on IgA, IgG, or IgM synthesis. Hence, it is concluded that upon incubation with S-IgA, but not with another Ig class, T lymphocytes release IgA-specific suppressor factors.     

Murine IgA binding factors produced by Fc alpha R(+) T cells: role of Fc gamma R(+) cells for the induction of Fc alpha R and formation of IgA-binding factor in Con A-activated cells

The relationship between the production of a T cell factor having affinity for IgA (IgA-binding factor(s); IgA BF) and the expression of Fc receptors specific for IgA (Fc alpha R) was studied by using murine spleen cells activated with concanavalin A (Con A blasts). Fc alpha R was detected by the cytophilic binding of anti-TNP murine IgA myeloma protein (MOPC 315 IgA) to Con A blasts as determined by an indirect rosette method with trinitrophenylated sheep red blood cells (TNP-SRBC). After 18 hr preculture with IgA, Fc alpha R was expressed on 15 to 20% of Con A blasts, which released IgA BF suppressing the in vitro IgA synthesis of the spleen cells stimulated with pokeweed mitogen (PWM). Without preculture with IgA, there was neither induction of Fc alpha R nor the production of IgA BF from Con A blasts. Fc alpha R was not induced on Con A blasts by IgA if Fc gamma R(+) cells were depleted from the blasts by rosetting with SRBC sensitized with rabbit IgG antibody (EA gamma). Even after preculture with IgA, the suppressive IgA BF was undetectable in the culture supernatant of Con A blasts depleted of the Fc gamma R(+) cell population. By using a double rosette method with EA gamma and trinitrophenylated quail red blood cells, Fc alpha R proved to be co-expressed on Fc gamma R(+) precursor T cells in the Con A blasts. The results suggested that both Fc gamma R and Fc alpha R could be co-expressed on Con A blasts, as is the case with T2D4 Fc gamma R(+), Fc alpha R(+) T hybridoma cells, which are known to produce IgG-binding factor(s) (IgG BF) and IgA BF. The relationship between Fc gamma R and Fc alpha R on a single cell was studied by using monoclonal anti-Fc gamma R antibody (2. 4G2 ). The reactivity of 2. 4G2 antibody with T cell Fc gamma R was proved by the inhibition of EA gamma rosette formation by Con A blasts or T2D4 cells. The addition of 2. 4G2 monoclonal antibody, however, did not affect the induction of Fc alpha R on Con A blasts by IgA. Furthermore, the binding of IgA to Fc alpha R already expressed on L5178Y T lymphoma cell line cells was not inhibited by the monoclonal antibody. The results confirmed that Fc alpha R are distinct from Fc gamma R co-expressed on the same Con A blasts, and that the expression of Fc alpha R on Fc gamma R(+) T cells and their production of suppressive IgA BF may be induced by the binding of IgA to Fc alpha R.     

Human B-cell differentiation by Fc fragment of IgG. I. Fc fragment from human IgG induces plasma cell generation but cannot induce lymphocyte proliferation

Circulating mononuclear cells (MNC) from normal donors were examined for lymphocyte proliferation and plasma cell differentiation following stimulation by Fc and Fab fragments or by intact IgG. Lymphocyte differentiation and DNA synthesis were examined as a function of culture duration and concentration of Fc, Fab fragments, and IgG. Plasma cells containing intracytoplasmic Ig were demonstrated by immunofluorescence with a polyvalent antiserum to human immunoglobulin and with specific antisera (anti-mu, -gamma, -alpha, -delta, -kappa, and -lambda chains). DNA synthesis of mononuclear cells cultures was analyzed by measuring [3H]thymidine incorporation. The results indicated that only the Fc fragments are able to induce the differentiation of B cells. The polyclonal plasma cell response to Fc fragments was dose dependent, peaked on the sixth day of culture, and was isotypically diverse (IgM greater than IgA greater than IgG). This activity requires the presence of T helper cells and monocytes. In contrast, the Fc fragments were unable to induce a proliferative response.     

IL-4-dependent IgE switch in membrane IgA-positive human B cells

IgE responses by human B cells, separated according to membrane Ig classes, were analyzed in a clonal assay using EL-4 thymoma cells as helper cells, T cell supernatant, and rIL-4. In cultures seeded by means of the autoclone apparatus of the FACS, IgE responses were generated frequently by either IgM (mu+/gamma-alpha-) or IgA (alpha +/mu-)-positive B cells (16 and 14% of the Ig producing wells, respectively), but rarely by IgG (gamma +/mu-)-positive B cells (1.3% of Ig producing wells). The total amounts of Ig secreted by IgM-, IgG-, or IgA-positive cells and the total proportions of responding autoclone wells (23-27%) were comparable. All IgE secretion was IL-4 dependent. When the Ig secretion patterns from alpha +/mu- vs alpha +/mu-epsilon- B cells were compared, most autoclone wells from both types of cells produced IgA only, and similar proportions of IgA producing wells (6.2 and 6.0%) also secreted IgE. In addition, IgE restricted responses occurred 6 times more frequently with alpha +/mu- than with alpha +/mu-epsilon- cells, which suggests that membrane IgA+E double-positive, IgE committed B cells occur in vivo. The isotype pattern generated by alpha +/mu-epsilon- B cells cannot be explained by a chance assortment of separate IgA and IgE precursors or by cytophilic antibody. Thus, IL-4 dependent switch to IgE occurred frequently in IgM- or IgA-positive, but rarely among total IgG-positive, B cells. This could be relevant to IgE production in mucosal tissues rich in IgA expressing B cells.     

The role of interleukin 2 in inducing Ig production in a pokeweed mitogen-stimulated mononuclear cell system

Cyclosporin A (CsA) has been found previously to block mitogen-stimulated T cell proliferation and production of discrete T cell-derived lymphokines such as interleukin 2 (IL 2) and interferon (IFN)-gamma. In addition, CsA blocks pokeweed mitogen (PWM)-driven T cell-dependent differentiation of B cells into immunoglobulin (Ig)-secreting cells. Recently, we reported that CsA (1 microgram/ml) inhibited PWM-induced T cell production of IL 2 and IFN-gamma, but supernatants retained B cell differentiation factor (BCDF)-like activity. The present study demonstrates the ability of CsA to suppress T cell functions in PWM-driven Ig production in mononuclear cells (MNC), and the capacity of exogenous T cell lymphokines to reverse CsA-induced suppression. CsA profoundly suppressed PWM-driven PFC formation (greater than 95%). However, Ig production was substantially reconstituted by the addition of IL 2 at concentrations of 10 to 50 U/ml. In contrast, no effects were observed by the addition of IFN-gamma or BCGF. The kinetics of CsA inhibition of Ig production and IL 2 secretion were found to be closely related. In addition, to obtain effective reconstitution in the CsA-treated PWM-MNC system it was necessary to add IL 2 at the initiation of culture. T cells themselves were also required for B cell differentiation in this system. However, surface Ig+ cells obtained by cell sorting after 3 days of culture could differentiate in the absence of T cells but only in response to IL 2, not in response to IFN-gamma or BCDF. Thus, in PWM-driven B cell differentiation T cells are necessary early in culture, whereas IL 2 is essential from the initial stage of B cell activation through the final stage of B cell differentiation.     

Frequency of human B cells that differentiate in response to anti-CD3-activated T cells

Activation of T cells by mAb to the CD3 molecular complex induces the differentiation of many more Ig-secreting cells (ISC) from resting human B cells in bulk cultures than do other modes of polyclonal B cell activation. In the current experiments, a limiting dilution assay was used to demonstrate that this increase in ISC generation reflects an increased frequency of responding B cells. Highly purified B cells were cultured at densities of between 1000 cells and 0.5 cell per microwell with fresh, mitomycin C-treated T cells (T mito) or T cell clones stimulated by immobilized mAb to CD3. After 5 days in culture, the number of wells containing ISC was determined, and the frequency of responding B cells was calculated. The proportion of B cells responding to anti-CD3-stimulated T cells was very large (10.7 +/- 2.8%) and greatly surpassed that induced by other polyclonal activators. B cells cultured with anti-CD3-stimulated T cell clones responded better than did those cultured with T mito. The addition of exogenous IL-2 or IL-6 to cultures supported by activated T mito enhanced the frequency of responding B cells, whereas IL-4 did not increase the generation of ISC and inhibited the augmentation of B cell responses induced by IL-2. Supplementation of cultures with mitomycin C-treated B cells as accessory cells had less of an effect. The addition of both accessory cells and IL-2 markedly increased B cell responsiveness, with precursor frequencies of 60 to 80% noted. In some experiments, cultures were carried out for 7 to 14 days and supernatants were analyzed for IgM, IgG, and IgA secretion. B cells activated by anti-CD3-stimulated T cells produced all three Ig isotypes. When the classes of Ig produced by single B cells were examined, it was observed that the stimulation of individual B cell precursors led to the production of multiple Ig isotypes, suggesting that isotype switching occurs in these cultures. These results demonstrate that under optimum culture conditions, T cells stimulated with immobilized anti-CD3 can activate the majority of human peripheral blood B cells to produce Ig and induce isotype switching by many.     

B cell response to fresh and effector T helper cells. Role of cognate T-B interaction and the cytokines IL-2, IL-4, and IL-6

The helper activity of resting T cells and in vitro generated effector T cells and the relative roles of cognate interaction, diffusible cytokines, and non-cognate T-B contact in B cell antibody responses were evaluated in a model in which normal murine CD4+ T cells (Th), activated with alloantigen-bearing APC, were used to support the growth and differentiation of unstimulated allogeneic B cells. Both "fresh" T cells, consisting of memory and naive cells, stimulated for 24 h, and "effector" T cells, derived from naive cells after 4 days of in vitro stimulation, induced the secretion of IgM, IgG3, IgG1, IgG2a, and IgA. Effector T cells were significantly better helpers of the response of small dense B cells, inducing Ig at lower numbers and inducing at optimal numbers 2- to 3-fold more Ig production than fresh T cells. The predominant isotype secreted was IgM. Supernatants derived from fresh T cell cultures contained moderate levels of IL-2, whereas those from effector cultures contained significant levels of IL-6 and IFN-gamma in addition to IL-2. The involvement of soluble factors in the B cell response was demonstrated by the ability of antibodies to the cytokines IL-2, IL-4, and IL-6 to each block Ig secretion. Antibodies to IL-5 and IFN-gamma had no effect on the T cell-induced response. Kinetic studies suggested that IL-4 acted during the initial stages of the response, whereas the inability of anti-IL-6 to block B cell proliferation suggested that IL-6 was involved in part in promoting differentiation of the B cells. The relative contributions of cognate (MHC-restricted) and bystander (MHC-unrestricted) T-B cell contact vs cytokine (non-contact)-mediated responses were assessed in a transwell culture system. The majority of the IgM, IgG3, IgG1, and IgG2a response induced by both fresh and effector T cells was dependent on cognate interaction with small, high density B cells. In contrast, a small proportion of these isotypes and most of the IgA secreted resulted from the action of IL-6 on large, presumably preactivated, B cells. The IgA response did not require cell contact or vary when fresh and effector cells were the helpers. The contribution of bystander contact in the overall antibody response to both T cell populations was minimal.(ABSTRACT TRUNCATED AT 400 WORDS)