Autologous mixes lymphocyte reaction in human cord blood lymphocytes: decreased generation of helper and cytotoxic T-cell functions and increased proliferative response and induction of suppressor T cells

T lymphocytes from neonates proliferated significantly more than peripheral blood T lymphocytes from adults in autologous mixed lymphocyte reactions (AMLR). AMLR-activated cord, as compared to adult T lymphocytes, exerted significantly less nonspecific cytotoxic activity on PHA-stimulated adult mononuclear cells and Epstein-Barr virus-transformed target cells. The impaired generation of cytotoxicity of cord T cells was not corrected by Interleukin-2. Blood T lymphocytes from adults activated in AMLR synthesized a helper factor that supported PWM-induced proliferation and immunoglobulin production in both adult and cord B lymphocytes. In contrast, cord blood T lymphocytes failed to produce the helper factor for B lymphocytes. T cells from AMLR cultures established with neonatal lymphocytes showed suppressor activity, as assessed in PWM-stimulated immunoglobulin synthesis of adult peripheral-blood mononuclear cells, significantly higher than that exhibited by T cells from AMLR cultures performed with lymphocytes from adults. Finally, neonatal B lymphocytes could be activated to the production of IgM but not IgG by either adult AMLR-derived helper factor plus PWM or by Epstein-Barr virus, whereas adult B cells secreted both IgM and IgG under the same type of stimulation.     

An autoreactive T cell clone that can be activated to provide both helper and suppressor function

To understand further the biologic significance of the autologous mixed lymphocyte reaction, we determined the functional properties of autoreactive T cell lines and clones. Initially, we found that cells in an uncloned autoreactive Leu-3+ T cell line helped immunoglobulin production when added to cultures containing fresh T and non-T cells in the absence of pokeweed mitogen (PWM) but suppressed immunoglobulin production in the same cultures in the presence of PWM. To explain this phenomenon, we studied the immunoregulatory potential of an autoreactive T cell clone termed MTC-4. This clone bore the phenotype Leu-3+, 2-, 8-, 11-, DR+ and underwent proliferation when co-cultured with autologous, but not allogeneic non-T cells. Of interest, the immunoregulatory potential of the MTC-4 cells varied according to how the cells were activated. When MTC-4 cells were cultured with autologous non-T cells in the absence of antigen or mitogen (unactivated non-T cells), polyclonal immunoglobulin production (detected by reverse PFC assay) was observed. This helper activity was MHC-restricted in that it was elicited only by autologous non-T cells or MHC-matched allogeneic non-T cells; however, once activated by autologous non-T cells, it could also help allogeneic non-T cells. In contrast, when MTC-4 cells were cultured with autologous non-T cells in the presence of PWM (activated non-T cells), immunoglobulin production was greatly suppressed. This suppression was also observed when MTC-4 cells were added to cultures containing exogenous T cell help (such as that provided by autologous fresh T cells) and was not due to a direct effect of PWM on the T cell clone, because preincubation of MTC-4 cells with PWM before culture with non-T cells did not result in suppression. On the basis of these data, we conclude that autoreactive T cells can have dual immunoregulatory function that is manifest, at least in part, at the single cell level. Moreover, these regulatory functions are differentially elicited depending on the state of activation of the stimulating autologous non-T cells: when stimulated by MHC antigens present on unactivated B cells, they provide helper activity; and when stimulated by MHC antigens present on activated B cells, they act as suppressor cells. Autoreactive T cells with dual regulatory potential appear to make up a substantial proportion of all autoreactive T cells and are cells that are uniquely adapted to maintain immunologic homeostasis.     

The isolation and characterization of the human helper inducer T cell subset

Monoclonal antibody anti-4B4 was produced by fusing NS1 myeloma with spleen cells of a mouse immunized with Saguinus oedipus lymphocyte. This anti-4B4 antibody defines a 135-KD cell surface protein that is widely distributed throughout the hematopoietic system. More importantly, anti-4B4 is reactive with functionally unique human T cell subsets. Anti-4B4 antibody was reactive with approximately 41% of unfractionated T cells, 41% of T4+ inducer cells, and approximately 43% of T8+ cytotoxic/suppressor population. This antibody subdivided peripheral blood T4+ cells into two functionally distinct populations. The T4+4B4+ subset proliferates relatively poorly upon stimulation with Con A and autologous cell antigens (AMLR) but well on exposure to soluble antigens, and it provides a good helper signal for PWM-induced Ig synthesis. The T4+4B4- subset, in contrast, proliferates well to Con A stimulation and autologous cell antigen (AMLR) but relatively poorly to soluble antigen stimulation, and provides little help to B cells for PWM-induced Ig synthesis. The T4+4B4- subset is largely 2H4+ and functions as the inducer of the T8+ suppressor cells. Thus, the present results suggest that one can divide the human T4 population into two major subsets that are phenotypically and functionally distinct, the human helper inducer subset (T4+4B4+/H.I.) and its reciprocal population defined by anti-2H4, the suppressor inducer subset (T4+2H4+/S.I.).     

A defect in the suppressor circuits among OKT4+ cell populations in patients with systemic lupus erythematosus occurs independently of a defect in the OKT8+ suppressor T cell function

The autologous mixed lymphocyte reaction (MLR) is thought to be part of a regulatory role of T cells on B cell function. OKT4+, but not OKT8+, cells can proliferate in response to autologous non-T cells. Moreover, the OKT4+ cell population activated early in the course of autologous MLR functioned as inducer cells for the differentiation of B cells, whereas later in the response, the activated OKT4+ cells were particularly enriched in suppressor cells. A part of the autologous MLR appears to be an important pathway for the activation of feedback suppression mechanisms among cells contained within the OKT4+ populations. Patients with systemic lupus erythematosus (SLE) were studied with regard to the following OKT4+ cell functions in vitro after activation in the autologous MLR: a) proliferative response, and b) helper and suppressor activities for differentiation of B cells. A marked reduction in the proliferative response of OKT4+ cells was observed in SLE patients. SLE OKT4+ cells activated in the autologous MLR could function as helper cells but could not exert any suppressor activity. This OKT4+ cell abnormality was present regardless of the disease activity, and occurred in the absence of autoantibodies including anti-T cell antibodies. Instead, SLE anti-T cell antibodies could preferentially eliminate cells bearing the OKT8+ phenotype characteristic of suppressor cells in populations of normal T cells. These results suggest that the defect in the suppressor circuits among OKT4+ cell populations is intrinsic to SLE lymphocytes and that the OKT8+ suppressor T cell defect is caused by antibodies produced by the B cells of SLE patients.     

Suppressive effect of human natural killer cells on pokeweed mitogen-induced B cell differentiation

The suppressive effect of human natural killer (NK) cells on B cell differentiation induced by pokeweed mitogen (PWM) was investigated. By using Percoll discontinuous density gradient centrifugation, peripheral blood nonphagocytic and nonadherent mononuclear cells were divided into low and high density fractions for which NK cells (Large granular lymphocytes, LGL) and T cells were enriched, respectively. These fractionated mononuclear cells were co-cultured with purified autologous B cells in the presence of PWM, and were examined for their helper and suppressor activities on differentiation of B cells to immunoglobulin-(IgM and IgG) producing cells by a highly sensitive reversed hemolytic plaque assay. The T cell-enriched high density fractions provided help for B cell differentiation to levels higher than that of unfractionated mononuclear cells. On the other hand, the NK-enriched low density fractions did not show helper activity, and when added to the culture of B cells plus helper T cells, they markedly suppressed B cell differentiation. This suppressive activity, as well as the NK cytotoxicity of the NK-enriched fractions, was abrogated by treatment of the cells with monoclonal antibody against human NK cells (HNK-1), but not against T cells (OKT3) in the presence of complement. NK cells also suppressed PWM-driven B cell differentiation in the presence of T4+ (helper/inducer T) but not T8+ (cytotoxic/suppressor T) cells; however, they showed no inhibition of soluble factor-induced B cell differentiation assayed in the absence of helper T cells. It is thus concluded that human peripheral blood NK cells exhibit an ability to suppress PWM-driven B cell differentiation, possibly by acting through the effect on helper T cells but not directly on B cells.     

Activation through CD3 molecule leads a number of human T cell clones to induce IgE synthesis in vitro by B cells from allergic and nonallergic individuals

Seventy-eight clones established from tonsillar T lymphocytes of two nonallergic children were tested under different experimental conditions for their ability to induce in vitro IgE synthesis by B cells from allergic or nonallergic donors. After 24 hr preactivation with phytohemagglutinin (PHA), 11 out of 32 CD4+ clones from the first and 17 out of 36 CD4+ clones from the second tonsil donor showed the ability to induce IgE synthesis in vitro by B cells from both allergic and nonallergic individuals, whereas none of 10 CD8+ clones nor T blasts of PHA-induced cell lines obtained from unfractionated T cell suspensions of the same tonsils had such an effect. Seven of the 11 T cell clones from the first tonsil donor active on IgE production after pre-activation with PHA also induced IgE synthesis in vitro by nonallergic and allergic B cells upon stimulation with anti-CD3 monoclonal antibody. Under the same experimental conditions, virtually all of the T cell clones able to induce IgE synthesis in vitro by target B cells showed the ability to stimulate IgG and IgM production as well. T cell clones were also established from the peripheral blood of a nonallergic donor and were tested for their ability to induce IgE synthesis in autologous B cells. After preactivation with PHA, seven out of 35 CD4+ clones induced the production of detectable amounts of both IgE and IgG in autologous B cells. The addition to the cultures of PHA-stimulated unfractionated T cells inhibited in a dose-dependent manner the IgE but not the IgG synthesis induced by an autologous helper T cell clone in autologous B cells. Taken together, these data indicate that a remarkable proportion of human T cell clones upon triggering of the CD3 molecular complex were able to provide help for the synthesis of IgE in B cells from both allergic and nonallergic individuals. The successful induction of IgE synthesis by single T cell clones was apparently related to the lack of concomitant suppressor activity to which IgE-producing cells appeared to be exquisitely sensitive.     

Regulation of myelin basic protein-specific helper T cells in multiple sclerosis: generation of suppressor T cell lines.

Suppressor T cell (Ts) lines specific for myelin basic protein (MBP)-reactive helper T cell (Th) clones were generated from two patients with multiple sclerosis (MS) following a primary culture of peripheral blood mononuclear cells (PBMC) with MBP and cyclosporine A (CsA). These suppressor T cell lines were maintained in culture by alternate stimulation with MBP and antigen-presenting cells (APC). The Ts lines expressed preferentially the CD4 phenotype (5/6 Ts lines tested) and exhibited potent antigen-specific suppressor activity on the proliferation of MBP-specific Th clones and not on the T cell lines with other antigen specificity. For some Ts lines, a Ts-to-Th ratio of 1 was sufficient to inhibit the proliferation of MBP-specific T cells by 90%. The suppressor T cells obtained were weakly responsive to MBP and required the presence of the autologous PBMC for proliferation. Furthermore, proliferation of these suppressor T cell lines was restricted by HLA-DR molecules (for CD4+ Ts lines) and HLA class I (for a CD8+ Ts line). The suppressor T cell lines generated and the techniques described in this study may be helpful in our understanding of the events involved in the immune regulation in MS and other autoimmune diseases.     

Functional modulation of hepatitis B core antigen-specific T lymphocytes by an autoreactive T cell clone

Hepatitis B core (HBc)Ag-specific T cells present in the peripheral blood of a patient with chronic active hepatitis B were expanded by co-cultivation for 7 days with rHBcAg. After cloning at 1 cell/well in the presence of PHA and IL-2, five HBcAg-specific CD4+ cloned lines were obtained. All five lines proliferated and produced IL-2, IFN-gamma, and TNF in a dose-dependent fashion in response to HBcAg, but not to HBV envelope Ag. The cloned lines and derivative clones were HLA class II (DR1) restricted. All T cell clones were able to induce anti-HBc production by autologous B cells in response to HBcAg (helper effect). The proliferative response and the helper effect of the HBcAg-specific T cell lines and clones were augmented by co-cultivation with an autologous, autoreactive (HLA-DQ1 specific) T cell clone, even in the absence of HBcAg, and the autoreactive T cells directly stimulated anti-HBc secretion by autologous B cells, presumably due to the release of Ag-nonspecific factors. These findings define a model immunoregulatory circuit the physiologic significance of which remains to be determined.     

Characteristics and mechanisms of action of the concanavalin A-activated suppressor cell in man.

Human peripheral blood lymphocytes treated for 24 to 48 hr with optimally mitogenic doses of concanavalin A suppressed the proliferative response of autologous T cells to mitogens and antigens. Con A-treated cells also suppressed the proliferative response and the immunoglobulin synthetic response of autologous B cells stimulated in vitro by T cell helper factor. The human Con A suppressor cell was sensitive to treatment with mitomycin C and to exposure to radiation doses exceeding 1000 rads. The Con A suppressor cell was shown to reside in the nylon wool-nonadherent, sheep red cell rosette-forming, histamine receptor-bearing population of lymphocytes and to lack surface DRW antigens. One mechanism of action of Con A suppressor cells was shown to be the inactivation of nonspecific T cell helper factor.     

Direct demonstration of the human suppressor inducer subset by anti-T cell antibodies

Prior studies indicated that sera of patients with active juvenile rheumatoid arthritis (JRA) contain anti-T cell antibodies reactive with the T4+ inducer population. More important, depletion of this T cell subset with JRA anti-T cell antibodies (JRA+ T cells) and C abrogated T5/T8+ suppressor T cell function. In the present study, we utilized Ig-coated plate techniques and JRA anti-T cell antibodies to fractionate the T4+ population into T4+JRA+ and T4+JRA- subsets and characterize the individual T4+ inducer subset. It was shown that whereas only the T4+JRA- population responded maximally to the soluble antigens, TT and mumps, both T4+JRA+ and T4+JRA- subsets proliferated equally well to mitogens and alloantigens. Furthermore, B cell immunoglobulin production induced by T4+JRA- T cells was approximately twice that induced by the reciprocal T4+JRA+ subset. In contrast, the T4+JRA+ subset alone activated T8+ T cells to become suppressor effector cells. These results suggest that the T4+JRA+ subset is the inducer of suppressor subpopulation whereas the T4+JRA- subset functions maximally as the inducer of B cells. It is believed that the suppressor inducer population may have a central role in the immunoregulatory network in man.     

Delineation of suppressor and helper activity within the OKT4-defined T lymphocyte subset in human newborns

Lymphocytes taken from the cord blood of newborns have active suppressor activity. Using in vitro PWM-stimulated cocultures, unfractionated T cells from newborns potently suppressed the expected immunoglobulin G (IgG) synthesis of their mothers' peripheral blood lymphocytes (PBL). Using positive and negative selection techniques, we characterized the active suppressor cell as expressing the OKT4+T8- phenotype. This cord blood lymphocyte subset suppressed maternal IgG synthesis after depletion of maternal suppressor cells, implicating the ability of newborn T cells to suppress directly rather than by inducing adult suppressor activity. Sublethal amounts (1500 rad) of gamma-irradiation fully abrogated the suppressor activity of cord blood T lymphocytes. Radioresistant cord T cells provided T cell help. Irradiation of cord OKT4+ and OKT8+ populations and their subsequent culture with maternal B cells determined that helper activity was a radioresistant subpopulation of the OKT4+ subset. These results indicate significant differences in the functional properties of T cell subsets from adults and newborns. Population studies determined that cord blood lymphocytes had a greater proportion of OKT4+ cells and lower proportion of OKT8+ cells than PBL from unrelated adults. The mothers tested had similar proportions of OKT4+ cells as their babies, and these levels are significantly higher than those of unrelated adults.     

The isolation and characterization of the human suppressor inducer T cell subset

Immunization of mice with lower primate lymphoid cells has provided a useful strategy for raising monoclonal antibodies against functionally important surface determinants on human T lymphocytes. We have developed a monoclonal antibody, anti-2H4, which defines functionally unique human T cell subsets. This anti-2H4 antibody was reactive with approximately 42% of unfractionated T cells, 41% of T4+ inducer cells, and was reactive with approximately 54% of T8+ cytotoxic/suppressor population. Anti-2H4 was not reactive with human thymocytes, but reacted with subsets of peripheral blood B cells and null cells. This antibody subdivided peripheral blood T4+ cells into two functionally distinct populations. The T4+2H4+ subset proliferate well to concanavalin A (Con A) stimulation, but poorly to soluble antigen stimulation, and provides poor help to B cells for PWM-induced Ig synthesis. The T4+2H4- subset, in contrast, proliferates poorly upon stimulation with Con A, but well on exposure to soluble antigen, and provides a good helper signal for PWM-induced Ig synthesis. What is, perhaps, most important, the T4+2H4+ subset functions as the inducer of the T8+ suppressor cells. Previous attempts to define the latter subset of cells has relied heavily on the use of specific autoantibodies present in the sera of patients with juvenile rheumatoid arthritis (JRA) and systemic lupus erythematosus (SLE). The present results suggest that anti-2H4 antibody defines the human suppressor induced subset of lymphocyte previously described as T4+JRA+. Last, the results reemphasize the previously documented remarkable structural conservation of certain T cell-specific determinants on lymphocytes of phylogenetically distant primates.     

T cells in B cell chronic lymphocytic leukemia. II. Lack of antigen-specific T suppressor cells and their progenitors

Nylon wool-purified T cells (Tn) of two patients with chronic lymphocytic leukemia of the B cell type were phenotyped and tested in various assays for antigen-specific T helper (Th), T suppressor effector (Tse), T suppressor precursor (Tsp), and T suppressor inducer (Tsi) function. Antigen-specific Th as well as Tsi activity could be effectively generated. Although phenotypically CD8+ T cells, carrying the receptor for the Fc part of IgG, were present in mononuclear blood cells and Tn fractions, no antigen-specific Tse cell activity could be induced. In addition, Tsp cells were found to be functionally absent. These findings are discussed in relation to a tumor-induced limited heterogeneity within the T suppressor (Ts) cell compartment.     

A role for L3T4+ T cells and their lymphokines in the generation of suppressor effector (TS3) cells

The cellular requirements for the in vitro induction of antigen-specific suppressor T cells were examined. Previous reports indicated that Ia-bearing macrophages and anti-idiotypic B cells are required as accessory cells to facilitate the generation of suppressor effector (TS3) cells which regulate the response to the 4-hydroxy-3-nitrophenyl acetyl (NP) hapten. The present study describes two distinct T cell populations which interact to generate antigen-specific TS3. Fractionation of the T cell populations with monoclonal antibody to the L3T4 determinant led to the identification of an NP-specific L3T4- TS3 progenitor population and an L3T4+ helper/inducer subset. In the presence of NP-coupled antigen, the L3T4+ subset could induce progenitor TS3 to differentiate into mature TS3 cells. The activity of the L3T4+ inducer population could be replaced with specifically activated cloned helper cells which were not NP-reactive since an I-Ab-restricted, insulin-reactive, L3T4+ clone was capable of supporting the generation of NP-specific TS3. Inducer activity appeared to be confined to the Th1 but not the Th2 subset. In addition, 18-hr supernatants from antigen-activated clones were capable of substituting for L3T4+ cells or T cell clones in TS3 induction cultures. The TS maturation/differentiation factor(s) active in these supernatants does not appear to be IL-1, IL-2, IL-3, or interferon-gamma alone since purified sources of these lymphokines failed to induce TS3 activity.     

Immunosuppressive activity of T cell clones generated from human T cells stimulated with autologous TPHA cells

T cell clones were generated from human T cells stimulated with autologous phytohemagglutinin (PHA)-activated T (TPHA) cells. Characterization of three T cell clones originated from donor SF and one from donor JM showed that they proliferated when stimulated with autologous TPHA cells, non-T cells, and peripheral blood mononuclear cells, but did not proliferate when stimulated with allogeneic TPHA cells, non-T cells, and mononuclear cells, with autologous and allogeneic resting T cells, and with PHA. These results in conjunction with the blocking of the proliferation by anti-histocompatibility leukocyte antigen class II monoclonal antibodies indicate that these class II antigens are involved in the proliferation of T cell clones stimulated with autologous lymphoid cells. The four T cell clones are cytotoxic neither to autologous lymphoid cells nor to a panel of cultured human cell lines. The four T cell clones display immunosuppressive activity, since they inhibit the proliferation of autologous and allogeneic cells stimulated with antigens and mitogens and the secretion of immunoglobulin by B cells stimulated with pokeweed mitogen in presence of T cells. Furthermore, the four T cell clones display differential inhibitory activity on the proliferation of cultured human cell lines. The immunosuppressive activity is species-specific, since the T cell clones do not inhibit the proliferation of murine cells. The suppression is mediated by a factor(s) with an apparent m.w. of 13,000 to 16,000. The suppressor activity is labile at alkaline pH and is lost following incubation with pronase (100 U/ml) for 30 min at 37 degrees C.     

Development of an antigen-specific CD8 suppressor effector clone in man

A long-term cultured IL-2-dependent keyhole limpet hemocyanin (KLH)-specific CD8 (T8) suppressor clone (5B9) was generated from a healthy donor hyperimmunized with KLH. The 5B9 clonal population suppressed in vitro anti-KLH antibody response but did not suppress anti-TT antibody response or PWM-driven IgG synthesis. Moreover, 5B9 cells could not suppress anti-TT antibody response even in the presence of free KLH. 5B9 cloned cells suppressed the anti-KLH antibody response of B cells cultured with CD4+4B4+ cells without requiring the presence of CD8+ cells. This KLH-specific CD8 suppressor clone is an effector type rather than an inducer type of suppressor T cell. The cloned cells expressed alpha- and beta-TCR proteins (defined by WT-31 antibody) on their cell surface. More importantly, the CD3:TCR complex was functionally important in the suppression induced by this clone, because after CD3 antigen modulation from its cell surface, the suppressor effector function was abolished.     

Sarcoidosis is not associated with a generalized defect in T cell suppressor function

In pulmonary sarcoidosis, the marked expansion of CD4+ (helper/inducer) T cells in the alveolar structures of the lung is maintained by local IL-2 release by activated CD4+ HLA-DR+ T cells without concomitant expansion and activation of CD8+ (suppressor/cytotoxic) T cells, suggesting that sarcoid may be associated with a generalized abnormality of CD8+ T cells. Consistent with this concept, evaluation of the expression of the IL-2R on fresh lung T cells from individuals with active sarcoidosis demonstrated that 7 +/- 1% of sarcoid lung CD4+ T cells are spontaneously expressing the IL-2R compared with only 1 +/- 1% lung CD8+ T cells (p less than 0.01). However, stimulation of purified sarcoid blood CD8+ T cells with the anti-T3/TCR complex mAb OKT3 was followed by the normal expression of IL-2R (p greater than 0.1) and proliferation (p greater than 0.1). In addition, lung sarcoid CD8+ T cells responded to OKT3 similarly to normal lung CD8+ T cells and to autologous blood CD8+ T cells as regards expression of IL-2R (p greater than 0.1) and proliferation (p greater than 0.1). Finally, using CD4+ cells activated with allogenic Ag to induce, in coculture, fresh autologous CD8+ cells to suppress proliferation of fresh autologous CD4+ cells to the same Ag, sarcoid CD8+ T cells suppressed CD4+ cell proliferation in a normal fashion (p greater than 0.1). These results demonstrate that sarcoid CD8+ (suppressor/cytotoxic) T cells are competent to respond to a proliferation signal normally and can be induced to normally suppress CD4+ T cell proliferation to Ag, suggesting that the expansion of activated CD4+ T cells in pulmonary sarcoidosis is not due to a generalized abnormality of CD8+ T cells or of their suppressor T cell function.     

Two-dimensional flow cytometric analysis of T cell subsets maintained in IL-2 medium after autologous mixed leukocyte reaction activation

Human T cells are stimulated with an autologous mixed leukocyte reaction (AMLR) and can be propagated in interleukin-2. Staining of the cultured cells with the combination of two monoclonal antibodies was evaluated by two-dimensional flow cytometry at weekly intervals. AMLR activation resulted in an initial preservation of the CD4+ (helper/inducer T) subset predominance over the CD8+ (suppressor/cytotoxic T) cells, noted on normal circulating blood lymphocytes. However, during culture in interleukin-2, there was a progressive increase in the percentages of CD8+ Leu 15- cytotoxic T, CD4+ Leu 8- helper T, and CD3+ HLA-DR+ activated T cells, and a concomitant decrease in those of CD4+ Leu 8+ suppressor inducer T and CD8+ Leu 15+ suppressor T cells if the responder sheep red blood cell (SRBC)-rosetting T cells were made up by tris ammonium chloride, but not by hypotonic shock treatment to lyse SRBC. The significant difference between hypotonic shock-T cells and ammonium chloride-T cells in the phenotypic changes of T cell subsets after long-term culture in an interleukin-2 medium may suggest a regulatory role of the ammonium chloride-sensitive T cells in the AMLR.     

Influence of human T lymphocytes identified by antibodies to dipeptidyl peptidase IV on differentiation of human B lymphocytes stimulated with Staphylococcus aureus Cowan I and pokeweed mitogen

The influence of human T lymphocytes expressing the enzyme dipeptidyl peptidase IV (DPP IV) was investigated with respect to human peripheral B-lymphocyte differentiation. B cells stimulated with pokeweed mitogen in the presence of DPP IV-positive T cells produced high amounts of immunoglobulin. Moderate amounts of immunoglobulin could be measured when B cells were cultured in the presence of DPP IV-negative T cells. DPP IV defines a T-cell subset partially overlapping the subsets characterized by the differentiation antigens Leu 3a (helper/inducer) and Leu 2a (suppressor/cytotoxic). DPP IV-positive T cells exert, in contrast to DPP IV-negative T cells, high interleukin-2 activity after stimulation with phytohemagglutinin and pokeweed mitogen. To further functionally characterize DPP IV-positive and DPP IV-negative T cells, the helper effects of Leu 3a-positive T-cell subsets, differing in DPP IV expression, were investigated in pokeweed mitogen- and Staphylococcus aureus-driven B-cell differentiation systems. After pokeweed mitogen stimulation, immunoglobulin production was markedly reduced when B cells were cultured in the presence of Leu 3a-positive T cells expressing DPP IV (DPP IV+/Leu 3a+). In contrast, high amounts of immunoglobulin were produced in cultures with Leu 3a-positive but DPP IV-negative T cells (DPP IV-/Leu 3a+). This difference in immunoglobulin production of B cells cultured with DPP IV+/Leu 3a+ and DPP IV-/Leu 3a+ T cells could not be observed in Staphylococcus aureus-stimulated cultures. Here, both T-cell subsets supported terminal differentiation of B cells. We conclude that in the pokeweed mitogen-driven culture systems, DPP IV+/Leu 3a+ and DPP IV-/Leu 3a+ T cells may differ in the production of growth and/or differentiation factors distinct from interleukin-2.     

Intrahepatic, nucleocapsid antigen-specific T cells in chronic active hepatitis B

Hepatitis B core antigen (HBcAg)-specific T cell lines were established from hepatic lymphomononuclear cells derived from five patients with chronic active hepatitis B. No hepatitis B virus envelope antigen-specific cell lines were established. Proliferation in response to recombinant and native HBcAg, but not to native hepatitis B surface antigen containing the pre-S(2) region, confirmed the specificity of the five T cell lines. All cell lines represented mixed populations of CD4+ and CD8+ T cells. The CD4+ subset provided antigen-specific help to autologous B cells with respect to anti-HBc production and to CD8+ cells with regard to HBcAg-induced proliferation and suppressor activity. The CD8+ subset contained suppressor cells that selectively inhibited the proliferative response of autologous HBcAg-specific CD4+ cells without inhibiting CD4+ cells of unrelated specificity (tetanus toxoid). Moreover, the CD8+ cells were also capable of suppressing HBcAg-stimulated antibody to HBcAg production without showing inhibition of total immunoglobulin production stimulated by pokeweed mitogen. The cytotoxic potential of the T cell lines was established in a lectin-dependent cytotoxicity system; natural killer cytotoxicity was completely absent. Our data suggest that the lesional T cells present at the site of hepatocellular injury in chronic active hepatitis B are primarily HBcAg-specific lymphocytes of the helper and suppressor/cytotoxic phenotypes and that both are functionally competent.