Pokeweed mitogen-induced immunoglobulin secretion by peripheral blood lymphocytes from patients with primary intracranial tumors. Characterization of T helper and B cell function

We have previously demonstrated that patients with primary malignant brain tumors have impaired in vivo and in vitro cell-mediated immunity. The purpose of the present research was to employ pokeweed mitogen (PWM)-induced secretion of immunoglobulin (Ig) by peripheral blood lymphocytes (PBL) to further investigate impaired lymphocyte function in these patients. The PWM response of PBL from normal individuals averaged 8384 plaque-forming cells (PFC) per 10(6) cells, whereas the response of PBL from patients averaged 1590 PFC/10(6). The decreased PWM response of PBL patients could not be improved by varying the number of PBL placed in culture or employing different concentrations of PWM. Co-culture experiments to detect the presence of suppressor cells in PBL and purified T cell preparations from patients demonstrated that enhanced suppressor cell activity was not evident. Next, experiments were performed to assess the T-helper cell activity present in purified T cell preparations obtained from patients. The results demonstrated that T cells from patients lacked the ability to provide adequate helper activity in the PWM response. Moreover, studies with monoclonal antibodies directed against T cell subsets revealed that PBL from patients have a reduced percentage of T-helper cells (40%) as compared with normal values (55%). In concert with T-helper cell anomalies, B cell function in these patients also is diminished. Thus, these observations indicate that a combined T-helper and B cell defect may contribute to the broad impairment of host immunocompetence observed in patients with primary gliomas.     

Generation of specific helper cells and suppressor cells in vitro for the IgE and IgG antibody responses.

Normal splenic lymphocytes from BDF1 mice were cultured on ovalbumin (OA)-bearing syngeneic peritoneal adherent cells for 5 days and their subsequent helper function was tested by an adoptive transfer technique. Lymphocytes harvested from the culture were mixed with DNP-KLH-primed spleen cells and transferred into irradiated syngeneic mice followed by challenge with DNP-OA. The results showed that the cultured lymphocytes has helper function for both IgE and IgG anti-DNP antibody responses. Depletion of mast cells and T cells in the peritoneal adherent cell preparations did not affect the generation of helper cells in the culture. The helper function of the cultured lymphocytes was abolished by the treatment with anti-theta antiserum and complement and was specific for ovalbumin. The OA-specific helper T cells were generated in vitro by the culture of a T cell-rich fraction of normal spleen on T cell-depleted OA-bearing peritoneal cells. If the normal splenic lymphocytes or T cell-rich fraction were cultured with 10 mug/ml of OA in the absence of macrophages, cultured lymphocytes lacked helper function. The transfer of splenic lymphocytes or splenic T cells cultured with soluble OA to normal non-irradiated mice, however, suppressed both IgG and IgE antibody responses of the recipients to subsequent immunization with DNP-OA. The suppressor cells were sensitive to anti-theta antiserum and complement and their activity was specific for OA. The cultured cells transferred into normal mice did not suppress anti-hapten antibody response to DNP-KLH. Normal lymphocytes cultured on OA-bearing macrophages and had helper function in adoptive transfer experiments failed to suppress antibody response of non-irradiated recipients to DNP-OA. The results indicate that OA-bearing macrophages primed T cells and generated helper T cells, whereas the culture of normal lymphocytes with soluble OA in the absence of macrophages generated suppressor T cells.     

Ia- and IgG-Fc receptor-positive accessory cell sustains peripheral T lymphocyte but not thymocyte mitogenesis induced by OKT3 monoclonal antibody

The proliferative responses of human peripheral blood mononuclear cells (PBL) and thymocytes to OKT3 monoclonal antibody have been investigated. The PBL response to OKT3 was maximal after 72 hr while that of thymocytes was inappreciable at all times measured. Unlike phytohemagglutinin, OKT3 was unable to elicit the mitogenesis of adherent cell-depleted T cells in spite of the presence of exogenously added Interleukin 1 and/or Interleukin 2. The addition of autologous or heterologous adherent cells restored the OKT3 mitogenic response of peripheral purified T cells but not of thymocyte cultures. The adherent cell population that was able to sustain the OKT3-elicited T-cell mitogenesis was constituted by Ia-, Fc receptor-positive cells. These data suggest that the adherent cell-T cell interaction is mediated via the Fc portion of the OKT3 molecule. Furthermore, unlike peripheral T cells, T3-positive thymocytes, which represent the more mature. PHA-responsive subset within the thymus, are unable to cooperate with accessory cells when pulsed with OKT3 monoclonal antibody.     

Proliferation of chicken peripheral blood leukocytes in response to pokeweed mitogen is macrophage dependent

Chicken peripheral blood leukocytes (PBL) proliferate in vitro in response to a wide range of pokeweed mitogen (PWM) concentrations. The PWM response was not influenced by the major histocompatibility complex (MHC) haplotype nor by the intrinsic responsiveness of the PBL to concanavalin A (Con A). The results indicate that PWM under our conditions stimulates B-lineage cells, although a T-cell subset is also clearly induced to division. The PBL from B-cell-depleted animals gave substantially lower responses than those from normal controls. Pokeweed mitogen stimulation of PBL was adherent cell dependent. Thus the low PWM response of adherent cell-depleted PBL was reconstituted by the addition of irradiated unseparated PBL. Furthermore, purified irradiated adherent cells containing greater than 90% macrophages were also able to reconstitute PWM responses. Finally, we have shown that PWM was able to induce large numbers of B cells to produce cytoplasmic immunoglobulin. However, only a minor proportion of such cells were induced to immunoglobulin secretion.     

T and B cells induce macrophages which suppress proliferation but not lymphokine secretion

In vitro culture of mouse spleen cells for 2 days or more leads to the production of adherent, phagocytic, Thy-1-, Ia+, Lyt-2- cells ("suppressor macrophages") which strongly inhibit the proliferative response of T and B lymphocytes to a variety of stimuli: mitogens, specific antigens, and antigen-nonspecific growth factors. Suppressive activity fails to develop, however, in cultured spleen cells from which nonadherent cells have been removed before the initial 48-hr incubation, and only partial suppression is obtained from cell suspensions from which T cells have been depleted before culture. We find that the requirement for nonadherent cells can be replaced by graded doses of lymphocytes. Lyt-2- and Lyt-2+ T cells are about equally potent in inducing suppressive activity in nonadherent cells. Surprisingly, B cells (containing fewer than 0.1% contaminating T cells) are also able to induce suppression in this system. The suppression induced includes both indomethacin-sensitive and indomethacin-resistant components. Interestingly, not all stages of mitogen-induced T-cell activation are blocked by these adherent cells: proliferation is inhibited, but production of interleukin 2 (IL-2) and interleukin 3 (IL-3) is unaffected.     

Inability of newborns' or pregnant women's monocytes to suppress pokeweed mitogen-induced responses

Although an excess of human adult blood adherent cells inhibits the pokeweed mitogen- (PWM) induced normal adult lymphocyte proliferation and B cell maturation into immunoglobulin-containing cells (ICC), adherent cells collected from newborn infants or pregnant women at time of delivery were unable to exert a similar suppressor activity. After activation by Concanavalin A (Con A), newborns' and pregnant women's adherent cells acquired a suppressor activity comparable to that of control adult adherent cells. The adherent suppressor cell was shown to be radioresistant (3000 rad), indicating its probable monocytic origin. Both monocyte-suppressor activities (MSA) observed in adulthood (spontaneously) and in the neonatal period (after activation) were dependent on prostaglandin E2 (PGE2) secretion, because they were abolished by indomethacin or a specific anti-PGE2 antiserum. Expression of MSA appeared to be under a negative regulation exerted by naturally occurring T suppressor lymphocytes present in the blood of newborns or pregnant women, because incubation of adult monocytes or Con A-activated newborn monocytes with newborns' or pregnant women's T lymphocytes resulted in a dramatic decrease of their MSA. These results strongly suggest that the lack of MSA in the neonatal period and in late pregnancy is a consequence of activation of T suppressor lymphocytes.     

Suppression of a pokeweed mitogen-stimulated plaque-forming cell response by a human B lymphocyte-derived aggregated IgG-stimulated suppressor factor: suppressive B cell factor (SBF)

The mechanisms whereby formed immune complexes (IC) or immunoglobulin aggregates can suppress further antibody production were explored by culturing normal human peripheral blood mononuclear leukocytes (PBL) with heat-aggregated IgG (HAIgG) and collecting the culture supernatants at 24 hr. These supernatants were found to suppress a pokeweed mitogen (PWM)-induced rheumatoid factor plaque-forming cell (RF-PFC) response in normal individuals. PWM-induced anti-trinitrophenylated sheep red blood cell (TNP-SRBC) PFC were also inhibited by suppressor supernatants from HAIgG-stimulated PBL, suggesting that the polyclonal PFC response was inhibited by a suppressor factor. The suppressor factor inhibited PWM stimulated RF-PFC throughout the culture period, but suppression was maximal at the peak of the RF-PFC response. Suppressor factor was only effective at the initiation of cultures, suggesting that it inhibited early events in the PWM-stimulated RF-PFC response. Molecular weight determination of the suppressor factor by differential membrane fractionation suggested a m.w. range of 30,000 to 50,000, and chromatography on Sephadex G-100 showed a peak activity at an approximate m.w. of 32,000. Studies suggested the factor was not an interferon. Depletion of T lymphocytes by E rosetting and macrophages/monocytes by G-10 adherence did not affect the generation of suppressor factor. Depletion of T lymphocytes (OKT4, OKT8) and NK cells (Leu-11b) by antibody-dependent, complement-mediated cytotoxicity also did not affect the generation of suppressor factor. Depletion of B lymphocytes with OKB7 resulted in the generation of significantly less suppressor factor. Suppression produced by unstimulated purified B lymphocytes was approximately one-half that seen when B lymphocytes were stimulated with HAIgG. Differential membrane fractionation studies suggested that only HAIgG-stimulated B cell cultures contained peak activity in the 30,000 to 50,000 m.w. fraction. Supernatants from unstimulated purified T cells also generated suppression, which was approximately one-half of that seen with HAIgG-stimulated B cells, but no increase in suppressor activity was seen in T cell cultures after incubation with HAIgG. These studies demonstrate that HAIgG is capable of stimulating B lymphocytes to produce a lymphokine, suppressive B cell factor (SBF), which is capable of suppressing a polyclonal PFC response. SBF may be important in feedback control of human immunoglobulin production.     

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.     

Influence of human thymocytes on B-lymphocyte differentiation in man.

Human thymocytes from children less than 6 years of age were tested for their influence on differentiation of normal B cells. The addition of either thymocytes or a culture supernatant from thymocytes to normal peripheral blood lymphocytes (PBL) enhanced pokeweed mitogen-induced B-cell differentiation as tested in a plaque-forming assay for antibody to sheep red blood cells. The thymocytes, however, could not substitute for T lymphocytes in cultures of PBL which had been previously depleted of T lymphocytes. Further, prior treatment of thymocytes with concanavalin A did not result in generation of suppressor cells for either B-cell differentiation or for the responses of PBL to mitogens. Thus, although thymocytes were functionally immature by these assays as compared to mature T lymphocytes they exerted an influence on B-cell differentiation in cultures of normal peripheral blood lymphocytes.     

Depletion of NK cells with the lysosomotropic agent L-leucine methyl ester and the in vitro generation of NK activity from NK precursor cells

Human natural killer (NK) cell activity in peripheral blood lymphocytes (PBL) is totally inhibited by pretreatment of the effector cells with a lysosomotropic agent, L-leucine methyl ester (LeuOMe). This treatment specifically eliminates cells expressing the NK cell markers HNK-1, OKM1, B73.1, or Leu-11b, but has minimal effect on viability of cells with T cell markers Leu-1, OKT3, Leu-2a, or Leu-3a. LeuOMe also drastically decreased the proportion of K562 target-binding lymphocytes among PBL. PBL pretreated with LeuOMe respond normally in thymidine uptake to stimulation by phytohemagglutinin or allogeneic lymphocytes as long as irradiated autologous accessory cells are provided, indicating that the treatment is not toxic to T cells. NK activity can be regenerated in the NK cell-depleted PBL population by incubation with IL 2 or by mixed lymphocyte cultures, but not by alpha-interferon. Cells responsible for regeneration of such NK activity are probably large agranular lymphocytes, because they are resistant to LeuOMe treatment but have the same low buoyant density as NK cells in Percoll density gradient separation. The in vitro-generated NK is still sensitive to LeuOMe inhibition, but a higher concentration of the reagent is required to achieve total inhibition of the activity.     

Enhancement of murine B cell responses to lipopolysaccharide by supernatants of irradiated peripheral blood leukocytes

Summary At low cell density, the proliferative response of B cells to lipopolysaccharide (LPS) is not detectable. We investigated under these experimental conditions the role of several cell populations on the LPS-induced B-cell proliferation. The addition to murine B cells of irradiated peripheral blood leukocytes (PBL) from the C3H/ HeJ mouse strain, or of culture supernatants of these cells, efficiently restored a response to LPS. Similar results were also obtained with irradiated PBL from other mouse strains and from rabbits. The activities of the culture supernatants were not significantly modified when the PBL were depleted of adherent cells or of Thy-1.2 positive cells, thus suggesting that the active factors were secreted neither by T cells, nor by monocytes.Abbreviations BSS balanced salt solution - ConA concanavalin A - EBMR enhancement of B-cell mitogenic response - J-B, J-T, J-Th, J-MØ, J-PBL, J-RBC splenic bone marrow-derived lymphocytes, splenic thymus-derived lymphocytes, thymocytes, splenic macrophages, peripheral blood leukocytes, red blood cells, obtained from the LPS-non-responding C3H/ HeJ-Pas mouse strain - R-PBL peripheral blood leukocytes obtained from the LPS-responding C3H/ He-Pas mouse strain - LPS lipopolysaccharide - MO macrophages - PBL peripheral blood leukocytes     

Syngeneic sensitization of mouse lymphocytes on monolayers of thyroid epithelial cells: I. Study of proliferative response

Culture of normal CBA lymphocytes on monolayers of syngeneic thyroid epithelial cells leads to significant thymidine incorporation. The specificity of this model was demonstrated by depletion of the CBA lymphocytes binding to syngeneic thyroid cells and the increase of thymidine uptake after secondary exposure on syngeneic thyroid monolayers. Removal of B cells (by treatment with anti-Ig serum plus complement) or of adherent cells does not modify the proliferative response whereas T-cell depletion strongly diminishes the response. Thus T cells are stimulated to undergo DNA synthesis and are sensitized when exposed to syngeneic thyroid epitelial cells. The nature of the antigens recognized by T cells (native autoantigen, enzyme, or virus-modified autoantigen) is not yet determined. Whether such autoreactive T cells play a role in the onset of experimental autoimmune thyroiditis as regulatory T-cells or cytotoxic effector cells is discussed.     

Regulation of immunoglobulin production in human peripheral bood leukocytes: cellular interactions.

The intercellular influences regulating immunoglobulin (Ig) synthesis by normal human peripheral blood leukocytes (PBL) were investigated in cells stimulated by pokeweed mitogen (PWM). This system was shown to be totally T lymphocyte dependent as purified B lymphocytes (less than or equal to 1% T lymphocytes) failed to make significant amounts of Ig. No evidence was obtained for an Ig class switch as all classes of Ig (IgM, IgG, IgA) were shown to be produced in increasing amounts over a 6-day time period. T lymphocytes demonstrated maximum helper effect when mixed with equal numbers of B cells. This helper effect was mediated through the dual mechanisms of increasing the number of B lymphocytes containing cytoplasmic Ig and by increasing the maturity of these B lymphocytes as demonstrated by an increasing Ig production per B lymphocyte. When present in higher numbers, T lymphocytes were also capable of suppressing Ig production. This T-mediated suppression was first evident as a decrease in the Ig produced per B lymphocyte (decreased maturity). With maximum T suppression Ig-containing B lymphocyte numbers were also diminished. T lymphocyte help was relatively independent of macrophages (phagocytic cells) and did not require DNA synthesis for expression. Both T help and suppression were shown to cross allogeneic barriers. Immature T lymphocytes (thymocytes) were incapable of mediating either activity. Normal human PBL contain T lymphocytes campable of mediating both T help and suppression and the Ig produced by PBL was shown to be the balance of these activities. This balance probably represent the participation of distinct T lymphocyte subpopulations analogous to the T helper (Ly 1+) and T suppressor (Ly 2+, 3+) populations in the mouse.     

Response to and production of interleukin 2 by peripheral blood and cerebrospinal fluid lymphocytes of patients with multiple sclerosis

In an effort to further characterize the defective proliferative response of T lymphocytes to mitogens in multiple sclerosis (MS) patients, we examined the response to and production of interleukin 2 (IL 2) by both peripheral blood lymphocytes (PBL) and cerebrospinal fluid mononuclear cells. We also examined the proportion of cells bearing receptors for IL 2 and transferrin. Chronic progressive MS patients have an abnormally low response to exogenous IL 2 as compared to controls. Whereas acute relapse patients' PBL demonstrated a normal IL 2 response during an exacerbation, they showed reduced responsiveness during remission. These abnormalities could not be explained by different dose or kinetic response optima to PHA or IL 2, nor could they be explained by depressed numbers of IL 2 or transferrin receptor-bearing lymphocytes. Production of IL 2 by PBL was also abnormal in MS patients. Chronic progressive patients produced elevated levels of IL 2, whereas acute relapse patients undergoing an exacerbation produced diminished levels of IL 2. During remission, these levels returned to that of controls'. The effect of 1200 rad x-irradiation or nylon wool removal of adherent cells was a significantly greater augmentation of IL 2 production in MS patients than in other neurologic disease or normal controls. Cerebrospinal fluid lymphocytes from MS patients had normal proportions of IL 2 receptor-bearing cells, but were deficient in their IL 2 response and production as compared to autochthonous or control PBL. The inability of some MS patients' lymphocytes to clonally expand in response to IL 2 might contribute to the pathogenicity of the disease.     

Differential effects of leukotriene B4 on T4+ and T8+ lymphocyte phenotype and immunoregulatory functions

Leukotriene B4 (LTB4) can regulate several lymphocyte functions, including the augmentation of cytotoxic activity and the induction of suppressor cells. When T lymphocytes were preincubated with picomolar concentrations of LTB4, they would suppress the proliferative response of unfractionated peripheral blood mononuclear leukocytes to concanavalin A in a subsequent co-culture system. Such a suppression did not occur when the responding population was depleted of monocytes. Furthermore, the effect was reversed to an enhancement when the responding unfractionated population was treated with indomethacin, suggesting a role for monocytes and cyclooxygenase products in the effector phase of LTB4-induced suppressor activity. When sorted into T4+ and T8+ cells before preincubation with LTB4, both T cell subsets could be induced by LTB4 to exert suppression. T4+ cells, however, required the presence of monocytes in the responder population in order to manifest suppressor activity, whereas T8+ cells were active even in the absence of monocytes. When LTB4-preincubated T cells or T4+ cells were sorted into T4+ and T8+ subsets after preincubation, suppressor cell activity was found only in the T8+ subset. Furthermore, T8+ cell-depleted T lymphocyte cultures, incubated for 24 hr with LTB4, showed a significant increase in the proportion of T8+ cells. Together, these data suggest that LTB4 induces suppressor T cells which can derive from either T4+ or T8+ subpopulations but which are phenotypically T8+ when exerting their suppressive activity. Thus, by interacting with both T4+ and T8+ lymphocytes, LTB4 can modulate immune responses with the cooperation of functionally competent accessory monocytes.     

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.     

Effect of histamine and histamine antagonists on natural and antibody-dependent cellular cytotoxicity of human lymphocytes in vitro

The in vitro effect of histamine and its antagonists, cimetidine and clemastine fumarate, on natural killer (NK) and antibody-dependent cellular Cytotoxicity (ADCC) activities of human lymphocytes was investigated. The histamine 1 (H1) antagonist, clemastine fumarate, and the histamine 2 (H2) antagonist, cimetidine, but not histamine alone, inhibited the NK and ADCC activities of lymphocytes when added directly to the mixture of effector and target cells in a ⁵¹Cr-release assay. This inhibition was proportional to the concentration of drugs added and was observed at various effector to target ratios against several targets. H1 and H2 antagonists also inhibited NK activities of T cells as well as Percoll-separated, NK-enriched effector cells. The inhibition was significantly reversed by histamine. In target binding assays, clemastine fumarate and cimetidine also decreased the target binding capacity of effector lymphocytes. Further, PBL precultured with histamine (10^?3–10^?4M) for 24 hr showed a significant decrease in their NK and ADCC activities. In coculture experiments, PBL precultured with histamine suppressed the NK activity of normal autologous effector lymphocytes. PBL precultured with histamine showed an increased number of OKT8⁺ cells, as estimated using monoclonal antibodies. The suppression of Cytotoxicity was not due to either direct toxicity, steric hindrance, crowding, or cell death, but by functionally viable suppressor cells. An immunoregulatory role for histamine in NK and ADCC reactions is proposed.     

Effects of tobacco glycoprotein (TGP) on the immune system. II. TGP stimulates the proliferation of human T cells and the differentiation of human B cells into Ig secreting cells

We have been studying the effects of tobacco glycoprotein (TGP), a polyphenol-rich glycoprotein isolated from cured tobacco leaves, on the immune system. We have shown previously that mice immunized with TGP produce preferentially antibodies of the IgE isotype and that TGP is a T cell-independent B cell mitogen for mice, which stimulates B cell proliferation and B cell differentiation into Ig-secreting cells. We report herein that TGP stimulates a significant increase in [3H]TdR incorporation by human PBL and by human cord blood lymphocytes. The magnitude of the proliferative response of PBL to TGP does not correlate with the donor's titer of IgE antibodies to TGP, as assayed by a wheal and flare response after an i.d. injection of TGP, neither does it correlate with the donor's smoking history. [3H]TdR uptake is not observed before day 5 of culture, and the response peaks between days 5 and 10 of culture. Analysis of the cellular basis for the proliferative response suggests that T cells are proliferating. Two-parameter analysis by flow cytometry shows that CD3+, CD4+, and CD8+ cells are in the S + G2 + M phases, but not Ig-bearing cells or monocytes. A significant increase in HLA-DR (Ia)-bearing cells is observed on cells in all of the cell cycle phases. This increase coincides with cells entering the S phase. No increase is observed in the expression of the IL-2-R as assayed by the anti-Tac antibody. TGP also stimulates human PBL to differentiate and to produce Ig of the IgM, IgG, and IgA isotypes, without stimulating a detectable B cell proliferative response. The proliferative response of PBL is clearly due to TGP and not to contamination with LPS, because by the limulus amebocyte assay the TGP preparation contains less than 2% LPS, which could not account for the stimulation observed.     

Suppressor T cells in thymus-reconstituted nude mice: regulation of mitogen-induced transformation

A population of glass-wool-adherent splenic cells which could suppress the response of other spleen cell populations to T-cell mitogens was isolated from thymus-reconstituted nude mice. Such adherent cells were characterized as sensitive to anti-Thy 1.2 and complement treatment. Glass-wool-adherent cells from athymic mice do not have suppressor activity to self or normal littermate NAC; however, these mice possess precursor suppressor cells as demonstrated by isolation of glass-wool-adherent T regulatory cells in thymus-grafted nude mice. Such cells are generated in either freshly obtained or in vitro cultured thymus. Evidence for suppressor T cells of host genotype was supported by their sensitivity to host-specific anti-Thy serum treatment as well as their generation in alymphoid thymus grafts. Prior anti-Thy 1.2 treatment of GAC partially removed the suppressor activity: however, macrophages and B lymphocytes were shown not to be secondary regulatory cells or suppressor mediators, thus mature T lymphocytes with low amounts of Thy 1.2 antigen may be responsible for this residual suppression. Further characterization of GAC indicates that active cell growth is required for their regulatory function, as irradiation removed the suppressor activity. This report provides evidence for the presence of a T-lymphocyte subpopulation which has a regulatory function and requires a thymus in the generation of these cells.     

Abnormalities of the in vitro cellular and humoral responses to tetanus and influenza antigens with concomitant numerical alterations in lymphocyte subsets in Down syndrome (trisomy 21)

Peripheral blood leukocytes (PBL) from noninstitutionalized individuals with trisomy 21, paired with closely age-matched and/or family members as controls, were analyzed for different aspects of their cellular and humoral immune responses, and were phenotypically characterized by means of various monoclonal antibodies. Both the in vitro PBL proliferative and antibody responses to a bacterial antigen (tetanus toxoid) and to viral antigens (influenza A/Bangkok and B/Singapore) were significantly decreased in trisomy 21. In addition, bacterial and viral antigen-induced in vitro interleukin 2 (IL 2) production was markedly reduced, although mitogen (PHA)-stimulated IL 2 production was not impaired. The functional abnormalities observed in trisomy 21 PBL occur concomitantly with numerical alterations in circulating lymphocyte subsets in these same individuals. Although no difference was observed between the trisomic and control groups in the percentage of total T and B lymphocytes, a decreased level of Leu-3a + 3b-positive cells (T helper/inducer cells) and an increased level of Leu-2a-positive cells (T suppressor/cytotoxic cells) that co-expressed Leu-15 (suppressor alone) were noted.