Role of class II histocompatibility antigens in Staphylococcus aureus protein A-induced activation of human T lymphocytes

The capacity of peripheral blood monocytes and B lymphocytes to support staphylococcal protein A (SpA)-induced proliferation of autologous and allogeneic T cells, as well as the role of major histocompatibility complex (MHC) class I and II molecules in this activation process, were investigated. Highly purified peripheral T lymphocytes did not proliferate in response to SpA, but their response was reconstituted by both irradiated (or mitomycin C-treated) monocytes and B lymphocytes. The effect of B cells on the SpA-induced T-cell response could not be explained by a contamination of residual accessory cells because long-term continuous B-cell lines restored SpA-induced T-cell DNA synthesis as effectively as did monocytes. Support of SpA responsiveness by B cells could not be accounted for by polyclonal binding of SpA to cell surface immunoglobulins, since the ability of SpA-unreactive and SpA-reactive B cells was comparable. The cells from two human leukemic lines--K562 and Raji--showed the same ability in supporting the pokeweed mitogen-induced T-cell response, but the class II-positive Raji cells were much more effective than class II-negative K562 cells in restoring the T-cell responsiveness to SpA. Monoclonal antibodies specific for monomorphic determinants of MHC class II antigens, as well as their F(ab')2 fragments, consistently inhibited the SpA-induced proliferative response, whereas antibodies specific for MHC class I antigens were without effect. The antibodies specific for class II antigens appeared to act at the level of accessory cell, since pretreatment with these antibodies inhibited the ability of SpA-pulsed monocytes or Raji cells to present SpA to autologous or allogeneic T lymphocytes, respectively. These data indicate that either monocytes or normal and lymphoblastoid B cells can act as accessory cells for the proliferative response of human T cells to soluble SpA and that monomorphic determinants of MHC class II molecules play an important role in this activation process.     

Cytokine-mediated regulation of human B cell differentiation into Ig-secreting cells: predominant role of IL-21 produced by CXCR5+ T follicular helper cells

Differentiation of B cells into Ig-secreting cells (ISC) is critical for the generation of protective humoral immune responses. Because of the important role played by secreted Ig in host protection against infection, it is necessary to identify molecules that control B cell differentiation. Recently, IL-21 was reported to generate ISC from activated human B cells. In this study, we examined the effects of IL-21 on the differentiation of all human mature B cell subsets--neonatal, transitional, naive, germinal center, IgM-memory, and isotype-switched memory cells--into ISC and compared its efficacy to that of IL-10, a well-known mediator of human B cell differentiation. IL-21 rapidly induced the generation of ISC and the secretion of vast quantities IgM, IgG and IgA from all of these B cell subsets. Its effect exceeded that of IL-10 by up to 100-fold, highlighting the potency of IL-21 as a B cell differentiation factor. Strikingly, IL-4 suppressed the stimulatory effects of IL-21 on naive B cells by reducing the expression of B-lymphocyte induced maturation protein-1 (Blimp-1). In contrast, memory B cells were resistant to the inhibitory effects of IL-4. Finally, the ability of human tonsillar CD4+CXCR5+CCR7- T follicular helper (TFH) cells, known to be a rich source of IL-21, to induce the differentiation of autologous B cells into ISC was mediated by the production of IL-21. These findings suggest that IL-21 produced by TFH cells during the primary as well as the subsequent responses to T cell-dependent Ag makes a major contribution to eliciting and maintaining long-lived humoral immunity.     

Lymphokine-like activity of 8-mercaptoguanosine: induction of T and B cell differentiation

Lymphocyte proliferation and differentiation result from ordered cellular interactions governed by soluble products (lymphokines). Dissecting the individual steps in these processes has been difficult, due to a paucity of pure lymphokines. Recently, it was reported that the derivatized ribonucleoside 8-mercaptoguanosine (8MGuo) has both mitogenic and differentiative effects on murine B cells. In the present studies, we tested 8MGuo for its ability to stimulate both B and T cell responses. In contrast to the murine studies, 8MGuo does not stimulate rat B cells to proliferate and, when tested for B cell growth factor-like activity, no stimulation was observed. The addition of 8MGuo (0.5 to 1 mM final concentration) to mitogen-stimulated B cells led to a marked increase in IgM and a modest increase in IgG secretion. When mixed with conditioned medium, 8MGuo acted synergistically in stimulating secretion of both isotypes, arguing that 8MGuo has both B cell-differentiating factor-mu (BCDF-mu) and BCDF-gamma activity. 8MGuo had no IL 2-like activity when tested on a mouse IL 2-dependent cell line, and no IL 1-like activity on addition to mouse thymocytes with or without submitogenic doses of lectin. However, when added to cultures of murine allogeneic cells in which the stimulating cell populations had been heat-inactivated, 8MGuo induced the generation of specific allogeneic cytotoxic T lymphocytes. Together, these results suggest that a simple derivatized nucleoside can induce both T and B cell differentiation without concomitant proliferation, and thus represent a unique probe for studying events in lymphocyte differentiation.     

Function of T cells from elderly humans: reductions of membrane events and proliferative responses mediated via T3 determinants and diminished elaboration of soluble T-cell factors for B-cell growth

The abilities of T cells from young and elderly humans to cap membrane T3 determinants, proliferate in response to anti-OKT3 antibody, and elaborate soluble factors required for the growth of B-cell colonies were investigated. The results showed that T cells from approximately 50 to 80% of elderly subjects had reductions in ligand-induced T3-mediated membrane events and proliferative responses in addition to decreased elaboration of soluble B-cell growth factors. Thus, these previously unrecognized abnormalities in T cells might contribute to the decline of immunocompetence observed among some elderly humans.     

Mechanisms of T and B cell collaboration in the in vitro production of anti-DNA antibodies in the NZB/NZW F1 murine SLE model

B/W mice spontaneously develop IgG antibodies to DNA that cause lethal immune nephritis. T and B cell interactions in the in vitro anti-DNA antibody response of B/W mice were investigated, and two distinct families of helper T cells that drive these responses were defined. First, the anti-DNA antibody-forming cell (AFC) response was found to be increased in B/W mice with nephritis and was inhibited with the monoclonal antibody anti-L3T4, suggesting a major role for helper T cells. Purified splenic T cells from mice with nephritis were able to augment both the IgG and the IgM anti-DNA AFC response of young B/W B cells. T helper cells were cloned from spleens of NZB/W F female mice with high titer anti-DNA antibodies and nephritis. The cloned T cells augmented both IgG and IgM anti-DNA AFC responses of young B/W B cells. Four clones--27.9, 30.7, 30.8, and 30.10--were selected for further study. These cells proliferated, in the context of syngeneic (H2d/z) antigen-presenting cells (APC) but not to allogeneic APC. Analysis of the mechanism of T helper cell clone-mediated augmentation of anti-DNA AFC revealed two populations: "cognate" T helper cells, which specifically augment anti-DNA AFC (30.7 and 30.10), and non-antigen-specific T helper cells (27.9 and 30.8), which augment the response of B cells of differing specificity by a bystander mechanism, probably through increased release of B cell growth and differentiation factors.     

Functional studies on B cell hybridomas with B cell surface antigens. I. Effects of anti-immunoglobulin antibodies on proliferation and differentiation

B cell hybridomas with Ia and IgM molecules on the cell membrane were treated with either purified goat anti-mouse mu antibody (anti-mu) or monoclonal rat anti-mouse IgM antibody (anti-IgM). The spontaneous uptake of [3H] thymidine by these cells was markedly inhibited by both reagents. These hybrid cells could be induced to differentiate into IgM-secreting cells in the presence of these reagents at high frequency. Furthermore, the induction of IgM secretion by B cell hybridomas treated with these antibodies was completely T cell independent, and cell division was not required for the differentiative response to anti-mu. In addition, F(ab')2 fragments of anti-mu showed more effects on proliferation and differentiation of these cells than intact anti-mu. Interestingly, TH2.54, a subline of B cell hybridomas, could generate IgG2a production as well as IgM when incubated with anti-mu. These findings suggest very strongly that the interaction of either goat anti-mu or monoclonal rat anti-IgM with surface IgM molecules on the cell membrane of the B cell hybridomas inhibits in vitro spontaneous proliferation, and results in providing signals for differentiation into Ig-secreting cells without T cell factors.     

Interleukin-4 enhances peritoneal B cell stimulation induced by phorbol ester

The activation requirements of murine peritoneal B cells differ from those of conventional (splenic) B cells; in particular, peritoneal B cells are stimulated to enter S phase by phorbol ester, acting alone. This pathway was studied to assess the susceptibility of peritoneal B cells to regulation by T cell products. Three T cell supernatants enhanced phorbol myristate acetate (PMA)-induced peritoneal B cell stimulation. This enhancement was reproduced by recombinant interleukin 4 (IL-4), and IL-4-mediated enhancement was reversed by 11B11 anti-IL-4 antibody. Enhancement of S phase entry was dose dependent for IL-4 and required stimulatory concentrations of PMA. In addition, IL-4 in combination with PMA produced a marked increase in IgM secretion by peritoneal B cells cultured in vitro. Neither an enhancement of S phase entry nor an increase in IgM secretion was observed with splenic B cells similarly treated with IL-4 and PMA. These results suggest that IL-4 modulates the proliferative and differentiative responses of the unusual B cells that reside in the peritoneal cavities of normal mice.     

Human peripheral blood B lymphocyte subpopulations: functional and phenotypic analysis of surface IgD positive and negative subsets

Highly purified human peripheral blood B cells stimulated with Cowan I Staphylococcus aureus (SA) and mitogen-activated T cell supernatants (T supt) generated large numbers of immunoglobulin (Ig)-secreting cells (ISC), whereas fewer ISC developed in cultures containing T supt in the absence of SA. To determine whether surface Ig isotype expression defined responsive B cell subsets, IgD+ and IgD- B cells were prepared with the fluorescence-activated cell sorter. Whereas both the IgD+ and IgD- B cells responded to SA + T supt, only the IgD- subset generated substantial numbers of ISC in response to T supt alone. Analysis of secreted Ig revealed that IgG and IgA were the predominant isotypes secreted by IgD- B cells in response to T supt or SA + T supt. By contrast, the IgD+ cells secreted predominantly IgM in response to SA + T supt but not to T supt alone. When responsiveness to pokeweed mitogen (PWM) was examined in the presence of supplemental T cells, the IgD- subset was found to be greatly enriched for responsive cells, and again, IgG and IgA were the predominant isotypes secreted, although these cells were also capable of secreting some IgM. The magnitude of the response induced by PWM from IgD- B cells was usually greater than that induced by SA + T supt. Although IgD+ B cells responded poorly to PWM, the differentiation of a small number of IgM-secreting cells was routinely stimulated by this polyclonal activator in the presence of T cells. The magnitude of the PWM response by IgD+ B cells was always greatly diminished compared with that stimulated by SA + T supt. Cell cycle analysis after acridine orange staining, cell volume measurement, and staining for expression of activation antigens (transferrin receptor and 4F2) indicated that the IgD- B cells were largely resting, but did contain a population of activated cells. Removal of activated 4F2+ cells from the IgD- subset diminished but did not abolish their capacity to generate ISC in response to SA + T supt or PWM in the presence of T cells. These results suggest that the IgD- population contains both an activated 4F2+ and a resting 4F2- subset. The data emphasize that multiple subpopulations of peripheral blood B cells contain precursors of ISC. Moreover, the responsiveness of the subsets to various stimuli and the Ig isotype subsequently secreted appear to be intrinsic features of each subset.     

Differential abilities of human peripheral blood monocytes quantitatively or qualitatively differing in HLA-DR and HLA-DS expression to support B cell activation in liquid and semisolid cultures

The present investigation was performed to determine whether the activation of human B cells by Staphylococcal protein A (SpA) in liquid and semi-solid cultures might be dependent on distinct subsets of peripheral blood mononuclear-phagocytes (M phi) defined by the expression of HLA-DR and HLA-DS determinants. Highly pure HLA-DR- M phi functioned as effectively as HLA-DR+ MO in supporting B cell liquid proliferative responses when SpA was continuously present in cultures. However, HLA-DR+ M phi were two to three times more effective than HLA-DR- M phi in promoting B cell proliferative responses when either M phi or B cells were pulsed with SpA and were then cultured without supplemental SpA. Similarly, B cell activation in semisolid cultures was crucially dependent on HLA-DR+ M phi because colony responses were reduced fivefold in the presence of M phi expressing low/intermediate HLA-DR levels compared to M phi-containing cells with high HLA-DR levels. HLA-DS- M phi isolated by two different techniques were more effective than HLA-DS+ M phi in supporting both liquid proliferative and colony responses of B cells. Flow microcytofluorometry analysis of the dual expression of HLA-DR and HLA-DS on highly pure HLA-DR- M phi and HLA-DR+ M phi revealed that both HLA-DR- and HLA-DR+ M phi expressed low levels of HLA-DS. Importantly, the expression of HLA-DS on HLA-DR- M phi was bimodal, with an HLA-DR-, DS+ subset and an HLA-DR-, DS-subset being present. Other experiments supported the conclusions that the differential abilities of the HLA-DR-, -DS-defined subsets of M phi to support B cell activation did not represent M phi suppressive effects or differences in IL 1 production. Collectively, these results indicate that B cell activation can be directly supported by M phi whose predominant phenotype is HLA-DR+, -DS-. Thus, the accessory cell pathway of B cell activation described here is distinct from the pathway known to be required for T cell responsiveness, and could serve to provide early alternative or ancillary signals for triggering B cells.     

Cell cycle-related expression of the receptor for a B cell differentiation factor

Cloned, neoplastic B cells (BCL1) have been used to evaluate the expression of the receptor for the B cell differentiation factor, BCDF mu. These cells do not secrete IgM before stimulation with BCDF mu-containing T cell supernatants (SN). By inducing cell cycle synchrony in this homogeneous population, the expression of the BCDF mu receptor could be evaluated as a function of the cell cycle. Responsiveness to BCDF mu-containing SN is maximal when the cells are in S and G2 phases of the cell cycle, and a 2-hr exposure of cells to BCDF mu-containing SN during S/G2 results in optimal IgM secretion 5 days later. Cells in S/G2 are also maximally effective in absorbing BCDF mu activity from SN. These data support the hypothesis that B cells do not respond to differentiative signals until after they are committed to at least one round of cell division.     

The roles of T cell factors in activation, cell cycle progression, and differentiation of human B cells

The relationship of the T cell influences involved in human B cell activation and differentiation into immunoglobulin-secreting cells (ISC) was investigated. T cell supernatants (T supt) generated by stimulating T cells with phytohemagglutinin and phorbol myristate acetate contained activities capable of augmenting DNA synthesis and the growth of mitogen-stimulated B cells and supporting the differentiation of ISC. To examine the role of T supt in B cell activation and the progression through the cell cycle, T cell- and monocyte-depleted B cells were stimulated with formalinized Cowan I strain Staphylococcus aureus (SA), and the percentages of cells in G1, S, and G2 + M were determined by acridine orange staining and analysis. In all experiments, a similar percentage of cells entered G1 during the first 24 to 36 hr of culture when stimulated with SA or SA + T supt. Similar results were seen when B cell activation was analyzed by acquisition of a number of other markers of cell activation. Analysis of cell cycle progression with mithramycin staining of cellular DNA in the presence or absence of vinblastine to arrest mitosis indicated that SA-activated B cells were able to complete S and divide in the absence of T supt. Although an effect of T supt on the progression of B cells through the S phase was evident during the first cell cycle, the major effect only became apparent after the first round of cell division. Although T supt was not necessary for initial B cell activation, T cell influences were absolutely necessary for the differentiation of ISC. T supt did not need to be present during the initial 24 to 36 hr of incubation to permit subsequent generation of ISC. However, when T supt was present initially, an increased number of ISC were produced. Hydroxyurea elimination of cells traversing the G1-S interphase indicated that reception of the differentiation signal occurred before the S phase, but that the generation of ISC required subsequent DNA synthesis and/or cell division. Although precursors of ISC were entirely contained within the population triggered to divide by SA alone, there was no preferential expansion of such precursors as a result of SA stimulation. These results indicate that T cell signals are not absolutely necessary for initial B cell activation and progression through the first cell cycle, although T cell factors promote DNA synthesis by some activated B cells. In contrast, differentiation into ISC is completely dependent on T cell influences.(ABSTRACT TRUNCATED AT 400 WORDS)     

The separation and reactivity in vitro of a subpopulation of human lymphocytes which bind histamine. Correlation of histamine reactivity with cellular maturation.

Lymphocytes reactive with histamine were fractionated on beads of Sepharose-albumin to which histamine was attached (SAH). Histamine reactive cells were present in blood, tonsil, and thymus. Using membrane and functional criteria, both T and B cells were shown to contain histamine-binding cells, while precursor cells did not. In T cell populations, lectin induced proliferation, cell-mediated lymphotoxicity, and secretion of mediators (lymphocytes mitogenic factor and immunoglobulin secretion inducing activity) were restricted to histamine reactive lymphocyte. However, antigen induced proliferation and mixed lymphocyte culture response mainly present in histamine-binding cells, also occurred in nonbinding populations. Reactivity with sheep erythrocytes was present in both reactive and non-reactive cells. In B cell populations, reactivity with antisera to IgM occurred in both binding and non-binding cells, while reactivity with antisera to IgG as well as T-induced IgG secretion were confined to histamine-binding cells. Membrane reactivity to erythrocyte coated with the first four components of complement was characteristic of histamine-unreactive cells. In T and B populations, histamine unreactive cells responded to lymphocyte mitogenic factor. These facts, together with data obtained from longterm lymphoid lines showing differentiation from nonbinding to binding cells after cell division, lead to the concept that generation of detectable histamine sites was a differentiative lymphocyte process. The generation of histamine-binding cells in precursor cell cultures supports this hypothesis. A possible role of histamine as a physiological lymphocyte regulating agent is suggested by the inhibition by soluble histamine of proliferative, cytotoxic, and secretory responses of histamine-binding T cells.     

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.     

Activation of human B cells and inhibition of their terminal differentiation by monoclonal anti-mu antibodies

Anti-mu antibody preparations have been found to exert both positive and negative effects on B cell activation and differentiation. To explore these paradoxical influences of IgM cross-linkage on human B cells, three gamma 1 kappa murine monoclonal antibodies specific for human mu-chains (DA4.4, AB6.4, 145.8) were examined for their comparative effects on activation of B cells and inhibition of terminal plasma cell differentiation. All three antibodies appeared equally efficient in immunoprecipitation of surface IgM molecules; however, fluorescence-activated cell sorter analysis revealed that the DA4.4 and AB6.4 antibodies saturated the B cell surface IgM at slightly lower concentrations than did the 145.8 antibody. When the affinity-purified antibodies were added in varying concentrations to cultures of small resting B cells, all three antibodies induced B cell enlargement and DNA synthesis, but with varying degrees of efficiency (DA4.4 greater than AB6.4 much greater than 145.8). In striking contrast, large B cells isolated either by FACS or density gradient separation were unresponsive. The anti-mu-induced proliferative response of small B cells required relatively high B cell densities, but not T cells or the Fc portion of the antibody molecules. The maximal proliferative response was obtained during the third day of culture, and the response curve suggested that anti-mu induced only one round of B cell replication. All three antibodies were capable of completely inhibiting T cell factor-induced differentiation of large B cells into IgM plasma cells; both F(ab')2 fragments and intact anti-mu antibodies were effective in final concentrations as low as 1 microgram/ml. Significant suppression of IgG and IgA plasma cell differentiation was also achieved, but required higher concentrations of the anti-mu antibodies. For each antibody, there was a close correlation between the efficiency of inducing small B cell proliferation and of inhibiting large B cell differentiation into plasma cells. The results show that the B cell response to cross-linkage of cell surface IgM varies according to the differentiation stage. We postulate that the mature resting B cell represents the only stage in the life history of the B cell during which surface Ig cross-linkage leads to a positive signal, negative signals being the rule at other stages in B cell replication and differentiation.     

IL-2 dependence of the promotion of human B cell differentiation by IL-6 (BSF-2)

The effect of rIL-6 on the growth and differentiation of highly purified human peripheral blood B cells was examined. IL-6 alone induced minimal incorporation of [3H]thymidine by unstimulated or Staphylococcus aureus (SA)-stimulated B cells and did not augment proliferation induced by SA and IL-2. Similarly, IL-6 alone did not support the generation of Ig-secreting cells (ISC) or induce the secretion of Ig by unstimulated or SA-stimulated B cells. However, IL-6 did augment the generation of ISC and the secretion of all isotypes of Ig induced by SA and IL-2. Maximal enhancement of B cell responsiveness by IL-6 required its presence from the initiation of culture. Delaying the addition of IL-6 to B cells stimulated with SA and IL-2 beyond 24 h diminished its effect on ISC generation. However, increased Ig production but not ISC generation was observed when IL-6 was added to B cells that had been preactivated for 48 h with SA and IL-2. This effect was most marked when the activated B cells were also stimulated with IL-2. IL-6 in combination with other cytokines such as IL-1 and IL-4 did not induce the secretion of Ig or generation of ISC in the absence of IL-2. Moreover, antibody to IL-6 did not inhibit the effect of IL-2 on the growth and differentiation of B cells stimulated with SA, but did inhibit the IL-6-induced augmentation of Ig secretion by B cells stimulated with SA and IL-2. IL-6 alone enhanced T cell dependent induction of B cell differentiation stimulated by PWM. Part of this enhancement was related to its capacity to increase the production of IL-2 in these cultures. These results indicate that IL-6 has several direct enhancing effects on the differentiation of B cells, all of which are at least in part dependent on the presence of IL-2. In addition, IL-6 can indirectly increase B cell differentiation by increasing IL-2 production by T cells.     

Human lymphocyte receptors for the Fc ends of IgG

Receptors for Fc IgG can be demonstrated by the binding of aggregated IgG or erythrocyte-IgG antibody complexes (EAG) onto subsets of B, T and "nul" lymphocytes. Among such cells are the effectors of antibody-dependent cell-mediated cytoxicity, and suppressor T cells. The binding of insoluble complexes induces a reversible modulation of the receptors associated with impaired proliferative T cell responses and transient inhibition of IgM receptors expression by adjacent T cells. Soluble receptors for Fc IgG bear a membrane binding site; they inhibit in vitro B cell differentiation induced by-T-dependent or T-independent polyclonal B cell activators.     

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.     

Staphylococcus aureus protein A triggers T cell-independent B cell proliferation by sensitizing B cells for TLR2 ligands

B cells possess functional characteristics of innate immune cells, as they can present Ag to T cells and can be stimulated with microbial molecules such as TLR ligands. Because crude preparations of Staphylococcus aureus are frequently used as polyclonal B cell activators and contain potent TLR2 activity, the scope of this study was to analyze the impact of S. aureus-derived TLR2-active substances on human B cell activation. Peripheral B cells stimulated with chemically modified S. aureus cell wall preparations proliferated in response to stimulation with crude cell wall preparations but failed to be activated with pure peptidoglycan, indicating that cell wall molecules other than peptidoglycan are responsible for B cell proliferation. Subsequent analysis revealed that surface protein A (SpA), similar to BCR cross-linking with anti-human Ig, sensitizes B cells for the recognition of cell wall-associated TLR2-active lipopeptides (LP). In marked contrast to TLR7- and TLR9-triggered B cell stimulation, stimulation with TLR2-active LP and SpA or with crude cell wall preparations failed to induce IgM secretion, thereby revealing qualitative differences in TLR2 signaling compared with TLR7/9 signaling. Notably, combined stimulation with SpA plus TLR2 ligands induced vigorous proliferation of a defined B cell subset that expressed intracellular IgM in the presence of IL-2. Conclusion: S. aureus triggers B cell activation via SpA-induced sensitization of B cells for TLR2-active LP. Combined SpA and TLR2-mediated B cell activation promotes B cell proliferation but fails to induce polyclonal IgM secretion as seen after TLR7 and TLR9 ligation.     

A specific defect in the proliferative capacity of B cells from old mice stimulated with autoreactive T cells

B lymphocytes from aged mice were found to be defective in their ability to proliferate in response to stimulation with an autoreactive T cell clone D1.4. The differentiative response leading to antibody secretion was also impaired in the auto D1.4 T cell-stimulated B cells from old mice in comparison to similarly stimulated B cells from young mice. The B cells from old mice were competent in activating the autoreactive T cells such that the T cells were induced to proliferate. The B cell defect appears to be restricted to a certain phase of B cell activation, since old mouse B cells responded to the auto D1.4 T cells by increasing cell surface Ia as well as size, but failed to incorporate tritiated thymidine. The responsiveness to interleukin-4 was found to be similar between B cells from young and old mice. It appeared that the B cells from old mice are specifically defective in progressing from the G0 phase of cell cycle into the S phase when stimulated with the auto D1.4 T cells.     

Age-related changes in T cell function.

A comparison was made of the abilities of carrier (BGG)-primed T cell populations from young (4-month old), middle-aged (14- and 19-month old) and old (31- and 34-month old) mice to collaborate with hapten (DNP)-primed B cells from young mice in a cell-transfer system. The plaque-forming cell responses to 2,4-dinitrophenol (DNP) were measured by a modification of the Jerne plaque assay. The DNP-specific antibody-forming cell responses of old T cell/young B cell combinations were significantly lower than those of young T cell/young B cell combinations, both in the number of T cells needed for peak response and in the size of that response. These data indicate that the primed T cell populations of old mice are deficient by a factor of 6 in their ability to initiate B cell proliferation and differentiation into antibody-forming cells.