Adherent cell function in murine T lymphocyte antigen recognition. II. Definition of genetically restricted and nonrestricted macrophage functions in T cell proliferation.

The mechanisms by which adherent cells, presumably of mononuclear phagocytic lineage, influence in vitro antigen-specific activation of murine T lymphocytes was examined. Two distinct functions for macrophages could be discerned. One macrophage function is dependent on a soluble factor produced by cultured adherent cells and is most easily studied with complex multideterminant antigens. This factor is neither antigen-specific nor MHC-restricted in its action in that PEC, regardless of haplotype, produce factor in the absence of antigen. A second function, antigen-specific T cell activation, is seen when antigens of more restricted heterogeneity are used, such as those under the control of Ir genes. This latter activity demands identity or partial identity between the antigen-presenting cell and the primed T cell, thus suggesting an additional specific, genetically restricted function for macrophages in in vitro antigen recognition. Whether these adherent cell functions are mediated by all or distinct subsets of cells was not established.     

Regulation of human T-cell production of interleukin 2 by Leu 11 (CD16) positive large granular lymphocytes

Peripheral blood large granular lymphocytes (LGL) expressing Leu 11 (CD16) antigen with potent natural killer cytotoxicity inhibited soluble antigen-induced T-cell production of interleukin 2 (IL-2). Depletion of Leu 11-reactive cells from T-cells doubled IL-2 activity (P less than 0.05). Leu 11-enriched cells did not express high affinity IL-2 receptors nor did they deplete IL-2 activity from culture media. Upon addition in low ratios to Leu 11-depleted cells, Leu 11-enriched fractions increased antigen-induced IL-2 production three-fold (P less than 0.05), whereas at higher ratios IL-2 production was suppressed P less than 0.01. Additionally, adherent monocytes were increasingly accessory when added in graded numbers to Leu 11-depleted but not T-cell cultures. In the presence of small numbers (5%) of Leu 11-enriched cells, however, monocytes down-regulated IL-2 production of Leu 11-depleted cell cultures. Thus Leu 11-reactive lymphocytes have noncytotoxic functions and may play a major role in immunoregulation.     

Noncytotoxic functions of natural killer (NK) cells: large granular lymphocytes (LGL) produce a B cell growth factor (BCGF)

Highly purified human large granular (LGL), depleted of any detectable contaminant T and B cells or monocytes, were found to be potent producers in vitro of a soluble B cell growth factor (BCGF) able to sustain proliferation of B cells activated by anti-mu. Activation by lectins (phytohemagglutinin, PHA, concanavalin A, Con A; and pokeweed mitogen, PWM) was required to induce the production of high levels of this BCGF from cultured LGL. Production of BCGF was also detected after the binding of LGL with natural killer (NK)-sensitive (K562) but not with NK-resistant (RL male 1) target cells. In contrast to T cells, LGL did not need the additional presence of accessory cells to reach optimal production of BCGF by 72 hr of culture. The subpopulation of LGL responsible for the production of BCGF had phenotypic characteristics associated with NK cells (3G8+, HNK1+/OKT11+, DR-, OKT3-, Leu-M1-), and separated cells with these markers exerted high levels of NK activity. Selective production of BCGF also was obtained from cytotoxic clones derived from LGL. A partial characterization of the LGL-derived BCGF was performed by gel filtration. BCGF activity was detected in fractions with estimated m.w. of 20,000 and 45,000. The LGL-derived BCGF activity was resistant to reduction with 2-mercaptoethanol and was stable at -20 degrees C for months. Conversely, heating (56 degrees C for 1 hr) or digestion with trypsin greatly reduced the LGL-derived BCGF activity. These findings strongly suggest that LGL including those with NK activity can play an important positive role in the early events of the B cell-mediated immune response.     

Interaction between T cells and non-T cells in suppression of cytotoxic lymphocyte responses.

Generation of cytotoxic T lymphocytes (CTL) in mixed leukocyte cultures was suppressed by a factor elaborated by alloantigen-activated T cells. This suppressor factor, CTL-TsF, in contrast to a factor that suppresses proliferative responses in mixed leukocyte reactions (MLR-TsF), was effective only when added during the first 24 hr of a 6-day-culture period. Moreover, removal of CTL-TsF 24 hr after culture initiation failed to restore CTL responses. CTL activity could be rescued from suppressed cultures, however, by addition of 2-mercaptoethanol on days 3 or 4. Similarly, transfer of nonadherent cells at 3 or 4 days from cultures treated with CTL-TsF to cultures of adherent cells initiated in control factor restored CTL responses. Mixing experiments with cells pulsed with CTL-TsF for 4 hr at culture initiation identified a target of CTL-TsF as a Thy-1 negative cell that was adherent to plastic and to Sephadex G-10. Suppression was not due to interference with physiologic accessory cell function, but more likely was accomplished via a negative signal from CTL-TsF-pulsed cells. The results thus suggest that CTL-TsF acts early, but reversibly, in the CTL differentiative process via a second suppressor effector cell, possibly a macrophage.     

Identification of the T cell subset that produces human gamma interferon

Positive and negative selection procedures combined with cytofluorographic analysis and lysis with monoclonal antibodies were utilized to identify the T lymphocyte subset that produces human gamma interferon (gamma-IFN) (formerly referred to as "immune" or "type II" interferon) in response to mitogen stimulation. Lymphocytes were separated on the basis of their Fc receptors for IgG or IgM, their nonreactivity with IgM or IgG antibodies, and their reactivity with the monoclonal antibodies OKT4, OKT8, OKT11a, and OKM1. Isolated T cell subsets were incubated with the gamma-IFN inducer, phytohemagglutinin. Three days after induction, the cell supernatants were harvested and assayed for interferon. The T cell subset that produces gamma-IFN was identified as E rosette positive with the phenotype: T gamma, T non-micro, OKM1+, OKT4-, OKT8- and OKT11a+. gamma-IFN production by cells was resistant to doses of x-irradiation that abrogate mitogen-induced T suppressor function but was highly sensitive to low doses of 4-hydroperoxycyclophosphamide. These data demonstrate that gamma-IFN is produced by the T gamma, OKM1+ lymphocyte subset, but these cells may also require the presence of accessory monocytes for elaboration of gamma-IFN. The anti-proliferative activity of gamma-IFN may be responsible for the previously described suppressor function of this subset, and gamma-IFN production by T gamma cells may distinguish this subset from the suppressor/cytotoxic functions of the OKT8+ subset or the mitogen-induced OKT4+ suppressor.     

Granulocyte-macrophage colony-stimulating factor augments the primary antibody response by enhancing the function of antigen-presenting cells

Purified, recombinant-derived murine granulocyte-monocyte colony-stimulating factor was found to enhance the primary in vitro immune response to SRBC by murine spleen cells. In determining the mechanism of this augmentation, it was found that only splenic adherent cells and neither resting nor activated T cells nor B cells expressed specific receptors for GM-CSF. When splenic adherent cells were pulsed briefly with GM-CSF before addition to macrophage-depleted cultures, they reconstituted the PFC response to a significantly greater degree than did control macrophages. Splenic adherent cells incubated overnight with SRBC plus GM-CSF were also more efficient antigen-presenting cells than splenic adherent cells incubated with antigen alone. The mechanism of this enhanced antigen presentation was found to be due to a GM-CSF-dependent increase in the level of IL 1 secretion and Ia antigen expression. Consistent with these data was the finding that GM-CSF augmented IL 2 production by splenic T cells in response to suboptimal concentrations of Con A. Finally, the day 5 in vivo antibody response (as measured by serum titers) of mice immunized with a low dose of SRBC was enhanced by two daily inoculations of GM-CSF. Thus, the role that GM-CSF plays in augmenting immune responses may not be solely accounted for by its ability to cause the proliferation or differentiation of macrophages, but more than likely includes its ability to enhance the function of antigen-presenting macrophages.     

Subsets of human large granular lymphocytes (LGL) exhibit accessory cell functions

The present study shows that human large granular lymphocytes (LGL) depleted of OKT3 (T lymphocytes) and Leu-M1-positive (monocytes) cells exhibit accessory cell function for the T lymphoproliferative responses to the soluble stimulants Staphylococcus protein A (SpA) or Streptolysin O (SLO), as well as to surface antigens in the autologous and allogeneic mixed leukocyte reaction (MLR). Fractionation of LGL into subsets according to their reactivity with alpha OKT11, alpha DR, and alpha OKM1 MoAb led to the identification of the subset(s) of LGL with OKT11+, DR+, OKM1+ phenotype as the antigen-presenting cell (APC), whereas the DR-, OKM1- subset(s) of LGL was completely ineffective. Furthermore, virtually all the natural killer (NK) activity of LGL was associated with OKT11+ and OKM1+, DR+ LGL that exerted the observed APC function, suggesting that NK-active cells may also act as effective APC for T lymphocyte activation. These results indicate that human LGL with NK activity may exert other noncytotoxic functions and may play a major role in immunoregulation.     

Trypanosoma cruzi: Responses by cells from infected mice to alloantigens

In unidirectional mixed lymphocyte cultures containing (as responders, stimulators, or regulators) spleen cells from mice infected with Trypanosoma cruzi, alloantigen responses were less than in cultures containing normal spleen cells only. Depletion of plastic adherent cells from infected spleen cells (stimulators or regulators) reversed their inhibitory effect on normal spleen cells (responders); removal of adherent responder cells and/or B lymphocytes did not alter the low alloantigen responses of normal spleen cells (stimulated by infected spleen cells) or infected spleen cells (stimulated by normal spleen cells). Infected spleen cells were effective in regulating mixed lymphocyte cultures only when added at the initiation of the culture. Serum from infected mice suppressed mixed lymphocyte cultures containing responder spleen cells syngeneic to the serum donor if added up to 24 hr after initiation of cultures, whereas the “suppressor serum” had to be present at the initiation of cultures when responder cells were allogeneic to the serum donor. Cultures of infected spleen cells (whole or macrophage enriched) produced a factor which was suppressive when added to mixed lymphocyte cultures containing syngeneic responder cells at initiation. It is proposed that the serum suppressor substance regulates cell-mediated immune responses directly by suppressing the response-potential of cells and indirectly by triggering the release of a factor from adherent splenic cells which induces a hyporesponsive state in T lymphocytes.     

Endotoxin-induced interferon-gamma production in culture cells derived from BCG-infected C3H/HeJ mice

The cultured cells prepared from the spleens and peritoneal exudate cells of the C3H/HeJ strain of mice produce very little or no interferon (IFN) by stimulation of bacterial lipopolysaccharide (LPS). However, the cells taken from LPS-non-responder C3H/HeJ mice which had been infected with Mycobacterium bovis bacillus Calmette-Guérin (BCG) prior to the experiment were capable of producing IFN in culture in the presence of LPS. The peritoneal exudate cells of BCG-primed C3H/HeJ mice were separated into adherent cell and nonadherent cell populations by their adhesiveness to plastic culture dishes. IFN production required the presence of both these cell populations in the same culture, and the IFN activities produced were mainly IFN-gamma. The cultures with nonadherent cells and fixed adherent cells still produced IFN, but the cell cultures reconstituted with the BCG-primed cell population and unprimed cell population produce little if any IFN-gamma. Moreover, when both of the populations were cultured in Marbrook culture vessels separated by a membrane filter, the cultures produced very little or no IFN-gamma. These results indicate that there is a mechanism of IFN-gamma induction by LPS which requires the direct contact between adherent cells and nonadherent cells without the participation of any soluble factor(s) from the adherent cells. The producer cells were mainly in the nonadherent cell population. Previous treatment of nonadherent cells with anti-Thy-1.2 antibody, anti-Lyt-1.1 antibody, anti-L3T4 antibody, or anti-asialo-GM1 antibody and complement diminished the ability of the cells for LPS-induced IFN production with the help of adherent cells. Therefore, it is concluded that both T cells (presumably L3T4+T cells) and asialo-GM1+ natural killer cells in the BCG-primed C3H/HeJ cell cultures produced IFN-gamma in the presence of LPS, and the production was supported by the function of macrophages.     

The role of p23,30-bearing human macrophages in antigen-induced T lymphocyte responses.

The effect of anti-p23,30, a rabbit antiserum to the human Ia-like antigen p23,30, on two macrophage-dependent T-cell functions, proliferation in response to soluble antigens, and production of lymphocyte mitogenic factor (LMF) was studied. T cells depleted of macrophages neither proliferate nor secrete LMF, and these functions are restored by addition of as few as 0.5% adherent macrophages. Treatment of macrophages with anti-p23,30 and C, however, abolishes their capacity to reconstitute these T-cell functions. In contrast, treatment of T cells with anti-p23,30 and C did not affect their capacity to respond in the presence of untreated adherent cells. We conclude that the presence of p23,30-bearing macrophages is critical for the expression of these antigen-induced T-cell responses.     

Promotion of hematopoietic stem cell differentiation in vitro by a soluble mediator,allogeneic effect factor

This study was designed to investigate the effects of allogeneic effect factor (AEF), a soluble mediator derived from short-term mixed lymphocyte cultures (MLC) of in vitro alloantigen-primed T cells, on cultures of murine bone marrow cells. Cultures established under suboptimal conditions namely, in the absence of a pre-established adherent cell layer as required in conventional Dextertype cultures–declined and lost their stem cell activity rapidly. In contrast, supplementation of these cultures, at initiation and thereafter, with AEF, but not with T cell growth factor (TCGF), induced cell growth and proliferation for several weeks. Such AEF-supplemented cultures exhibited cellular heterogeneity and stem cell activity for significantly longer periods than the control cultures. Even in conventional Dexter cultures, established under optimal conditions, AEF had a beneficial effect on cellular growth and proliferation and myeloid progenitor cell (CFU-C) activity. Furthermore, cells capable of synergizing with suboptimal numbers of mature T cells in con A-induced mitogenic responses, shown by others to be pre-T cells, were detected in the AEF-supplemented cultures for several weeks.     

Preliminary characterization of accessory cells in the nonadherent fraction of human blood mononuclear cells

We investigated why peripheral blood mononuclear cells rigorously depleted of adherent cells by sequential incubation on plastic and nylon wool remained fully responsive to both antigenic and mitogenic signals. Nylon wool nonadherent cells (NWNA) depleted of cells expressing HLA-DR by monoclonal antibody and complement lysis did not respond to tetanus toxoid (TT) or suboptimal concentrations of phytohemagglutinin (PHA). Addition of adherent accessory cells to these NWNA HLA-DR- cells reconstituted the response to stimuli. NWNA, fractionated by discontinuous density gradient centrifugation, contained high density cells which were unresponsive alone to optimal concentrations of both TT and PHA. All the lower density fractions contained cells which were accessory for higher density cell responses to stimuli. The lowest density fraction was approximately 30% monocytes (esterase and peroxidase positive) and less than or equal to 3% B lymphocytes (surface IgG bearing). The other low density fractions contained large granular lymphocytes but rarely monocytes and no B lymphocytes. Depletion of OKT3+, OKM1+, and Leu-11+ cells from lower density cells by monoclonal antibody and complement lysis did not abolish their accessory activity, but depletion of HLA-DR+ cells or gamma irradiation of these cells decreased their accessory activity for PHA and eradicated accessory activity for TT. Thus, the responsiveness of NWNA to soluble antigenic and mitogenic signals is due, in part, to the presence of low density cells which are radiosensitive and phenotypically HLA-DR+ OKT3-OKM1-Leu-11-. Accessory activity in NWNA seems to reside, therefore, in a cell which is not a typical monocyte, natural killer cell, nor B or T lymphocyte.     

Spontaneous helper factor production by nonadherent rabbit lymphoid cells and its feedback regulation by adherent cells

Normal, unstimulated rabbit lymphoid cells, when depleted of adherent cells, produced soluble helper factor activity that augmented antibody formation by rabbit spleen cells primed against sheep red blood cells (SRBC). Adherent cells inhibited the production of the helper factor by nonadherent cells via a soluble product. Thus unseparated (adherent cell-containing) appendix, lymph node, and spleen cell cultures did not produce the helper factor. On the other hand, the activity of the helper factor required the presence of adherent cells in the assay cultures. Peritoneal exudate cells, predominantly esterase positive, also inhibited the production of the helper factor if they were first exposed to the helper factor-containing culture supernatant. These results imply that a helper factor may participate in the feedback regulation of its own production via an adherent cell population.     

Interferon-gamma induction by lipopolysaccharide: dependence on interleukin 2 and macrophages

Bacterial lipopolysaccharide (LPS) induced fresh murine splenocytes to produce interferon (IFN)-alpha/beta presumably by stimulation of the B lymphocytes and macrophages. However, when the splenocytes were "aged" for 24 to 72 hr in culture before addition of the LPS, the IFN response was significantly increased and was determined to be predominantly IFN-gamma. Because low levels of interleukin 2 (IL 2) were found to be spontaneously produced by the unstimulated splenocytes during the "aging" process, the effect of IL 2 on IFN induction by LPS in fresh splenocytes was examined. The addition of LPS to freshly prepared splenocyte cultures that were treated with human IL 2, either native or recombinant, before exposure to the LPS resulted in the LPS inducing large amounts of IFN-gamma. IL 2 alone induced little if any IFN in the splenocyte cultures. Depletion of T cells and large granular lymphocytes (LGL) from the cultures by anti-Thy-1.2 antibodies plus complement abrogated IFN-gamma production, and the addition of polymyxin B to "aged" splenocyte cultures resulted in loss of IFN production in response to LPS. Cultures that were enriched for T cells and LGL by passage through nylon wool produced significant amounts of IFN-gamma in response to LPS only if first treated with IL 2. Furthermore, the addition of splenic adherent cells to purified nylon wool-non-adherent (NWNA) cells augmented IFN-gamma production, whether or not the NWNA cells were pretreated with IL 2. This enhancement appeared to require direct contact between adherent cells and NWNA cells, because physical separation abrogated IFN production. The addition of recombinant IL 1 or LPS-conditioned supernatants of macrophage cultures did not replace adherent cell activity. These data demonstrate that LPS, which predominantly induces IFN-alpha/beta in fresh murine splenocytes, is able to stimulate T lymphocytes to produce IFN-gamma if the T cells are first exposed to endogenously produced or exogenously applied IL 2. Because IFN-gamma is a potent activator of the bactericidal and cytocidal potential of macrophages, the induction of IFN-gamma by bacterial LPS may play an important role in resistance/recovery mechanisms against bacterial infections.     

Regulation of T-cell functions by L-lactate

Lactate is a product of glycolytically active macrophages. After stimulation with concanavalin A accessory cell-depleted splenic T-cell populations were found to produce only minute amounts of T-cell growth factor (TCGF); but substantial amounts of TCGF were produced if the cultures were supplemented either with splenic adherent cells or with lactate but not with interleukin-1 (IL-1). IL-1 was capable, however, of supporting TCGF production by the thymoma subline EL4-6.1. TCGF production in cultures of accessory cell-depleted splenic T-cell populations was demonstrable with 10(-3) M L-lactate, and optimal responses (plateau level) were obtained with 4-6 X 10(-2) M L-lactate. Cultures of macrophages were found to accumulate up to 5 X 10(-2) M lactate. Our experiments indicate, therefore, that lactate serves as a regulatory signal by which macrophage-like accessory cells enhance helper-T-cell functions. Lactate is apparently not the only mediator of accessory cell function since plateau levels of TCGF production were markedly lower with lactate than with splenic accessory cells; but L-lactate was found also to determine the magnitude of T-cell-mediated immune responses in vivo and in cultures of unfractionated lymphocyte populations. The production of interferon in accessory cell-depleted and concanavalin A-treated T-cell cultures, however, was not significantly affected by lactate. Concanavalin A-stimulated splenic T-cell populations were found to consume glucose rapidly and to release lactate into the supernatant. This indicates that the cells contain more lactate and pyruvate than they can utilize by their respiratory metabolism. The administration of external lactate or pyruvate was found to inhibit the utilization of glucose by the mitogenically stimulated T cells.     

Immunologic function of endothelial cells: guinea pig aortic endothelial cells support mitogen-induced T lymphocyte activation, but do not function as antigen-presenting cells

The possibility that vascular endothelial cells (EC), like macrophages (M phi), can function as accessory cells necessary for mitogen- and antigen-induced T cell activation was examined. EC were enzymatically detached from the luminal surfaces of guinea pig aortas and then propagated in culture. Lymph node T lymphocytes were rigorously depleted of adherent cells, such that they completely lost the capacity to respond to mitogenic stimulation with phytohemagglutinin or concanavalin A. In this system, EC restored mitogen-induced T cell DNA synthesis as effectively as did M phi. This effect could not be explained by a facilitation of residual accessory cell activity within the responding T cell population, because EC restored mitogen responsiveness to T cells that had been treated with anti-Ia antibody and complement. Support of mitogen responsiveness could not be accounted for by secreted products of M phi or EC in the absence of intact accessory cells. In addition to the capacity to serve as fully sufficient accessory cells for the induction of mitogen-stimulated T cell proliferation, EC exerted a number of modulatory influences on T lymphocyte responses in cultures supported by M phi. When such cultures were supplemented with small numbers of EC, responses were dramatically augmented; larger numbers of EC resulted in marked suppression. At least part of these immunomodulatory effects could be accounted for by the activity of secreted products of EC. EC did not express detectable Ia antigens assayed either by indirect immunofluorescence, with the use of the fluorescence-activated cell sorter, or by complement-mediated cytotoxicity. Moreover, treating the EC population with anti-Ia antibody and complement had no effect on its capacity to support mitogen-induced T cell DNA synthesis. As would be expected from the lack of Ia antigen expression, EC were incapable of presenting antigen to primed T cells. They did, however, carry enough antigen into the cultures such that effective antigen presentation could occur when the cultures were supplemented with M phi that were syngeneic but not allogeneic to the responding T cells. Moreover, EC were capable of dramatically augmenting antigen-specific responses stimulated by antigen-pulsed M phi. There was no genetic restriction for this EC-mediated augmentation of antigen responsiveness. These results indicate that EC are capable of functioning as completely sufficient accessory cells for mitogen-induced T cell DNA synthesis and, in addition, are able to modulate ongoing M phi-supported T lymphocyte responses in both a positive and negative manner.(ABSTRACT TRUNCATED AT 400 WORDS)     

Production of colony-stimulating factor by tumor cells and the factor-mediated induction of suppressor cells

Spleen mononuclear cells of C3H/HeN mice were cultivated with mitomycin C-treated tumor cells, X5563, MH134, MM48, MM46, and FM3A/R, all of which were of syngeneic origin, in a medium containing normal syngeneic mouse serum but not FCS. There was a proliferative response to X5563, MH134, and MM48, but not to the two other tumor cells, MM46 and FM3A/R. The responder spleen cells were found to be nonadherent cells with a phenotype of Thy-1-L3T4-Lyt2-Ig-Macl-, which were neither mature T and B cells nor mature macrophage/granulocytes. It was also found that the proliferation of these nonadherent no-marker cells was mediated by tumor cell-derived soluble factors but not by direct stimulation with tumor cells. The responsible factor was a molecule(s) with a Mr of 23 to 25 kDa, which had a CSF activity inducing granulocyte (G)-, macrophage (M)- and G + M-colonies in the bone marrow cells. Neutralization tests of this factor-induced proliferation of spleen cells revealed that a major part of the factor may be GM-CSF or a molecule closely related to it. Incubation of spleen mononuclear cells with these GM-CSF-like tumor cell factors resulted in induction of myeloblastic/promyelocytic cells with a phenotype of Mac-1+2+Ia+ Thy-1-L3T4-Lyt2-Ig- in the spleen cell cultures, which could suppress mitogenic responses of the spleen cells to T and B cell mitogens. GM-CSF-like activity could also be detected in the serum of mice bearing X5563, MH134, and MM48, but not in those bearing MM46 and FM3A/R. Subcutaneous inoculation of C3H/HeN mice with these X5563, MH134, and MM48 tumor cells generated massive metastasis in the lung and lymph nodes, whereas MM46 and FM3A/R produced no macroscopic tumor cell metastasis. These results strongly suggest the possibility that in some tumor cell-host systems, a GM-CSF-like factor(s) produced constitutively by the tumor cells may play an important role in the development of tumor metastasis, mediating through suppression of lymphoid tissues of the host.     

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.     

Spontaneous production of gamma-interferon in cultures of T lymphocytes obtained from patients with Beh?et's disease

The spontaneous production of interferon (IFN) in the cultures of peripheral blood mononuclear leukocytes (PBML) obtained from 30 patients with Beh?et's disease was investigated. PBML obtained from each of 26 patients in the convalescent stage and four patients in the exacerbation stage were cultured at least twice without stimulation, and IFN activity in the culture fluid 2 to 7 days after the cultivation was assayed. Twenty PBML of normal healthy donors were also cultured simultaneously. PBML of all patients in the convalescent stage spontaneously produced high-titered IFN (60.0 +/- 9.5 IU/ml), but IFN activity produced in PBML cultures of four patients in the exacerbation stage was very low or was undetectable. Similarly, IFN was always detectable in the circulation of the patients whose PBML spontaneously produced IFN. All IFN activity detected both in the circulation and in the fluid of PBML culture from these patients was gamma-IFN, defined by virtue of its acid lability and antigenicity neutralized with antiserum for gamma-IFN and not with antisera for alpha- and beta-IFN. The cellular source of this gamma-IFN in the patients' PMBL was T lymphocytes and not non-T cells or macrophages. T lymphocytes did not require the help of macrophages. It is suggested that T lymphocytes of these patients may be stimulated by unknown causative agents in vivo and may produce gamma-IFN in vivo as well as in in vitro culture of T lymphocytes.     

Soluble suppressor factor produced by pokeweek mitogen-stimulated human peripheral blood leukocytes

Human peripheral blood leukocytes were exposed to either PWM or Con A mitogens. Cells activated by both these mitogens were able to depress proliferation in an MLC, and to inhibit the generation of spontaneous killer cell (SK) and induced T-cell cytotoxic activity. PWM-activated cells incubated in media for 48 hr were able to elaborate a soluble factor in vitro. This factor suppressed cytotoxicity, and was active only when present at the initiation of MLC cultures. In contrast, cells exposed to Con A were able to suppress immune responsiveness, but this population did not release a soluble factor which could inhibit cytotoxicity. PWM induction appears to be dependent on phagocytic cells, while Con A activation is less dependent on this adherent population. An enriched adherent cell population, stimulated with PWM, was able to suppress cytotoxicity. Thus, the PWM-stimulated system of suppression is mediated through a soluble factor and is dependent on adherent cells.