Proliferation of phenotypically immature human thymocytes with and without interleukin 2 receptors

Previous studies have indicated that the human thymus is composed of several discrete compartments. Cortical thymocytes are reactive with the monoclonal antibody anti-T6, whereas most medullary cells, unreactive with anti-T6, stain brightly with anti-T3, which defines mature T cell populations. Only a minor thymocyte population lacks both T3 and T6 but expresses T11 antigens. Within the thymus, several proliferating lymphoblasts are present. In addition a distinct subset shows the capacity to proliferate in response to mitogens. By continuous Percoll density gradient centrifugation, we have obtained a cell fraction comprising the vast majority of cells able to proliferate spontaneously or after PHA stimulation. By a panning procedure performed with anti-T3 and anti-T6 antibodies, three phenotypically distinct thymocyte subsets were separated from this fraction, and their functional capabilities were tested. The spontaneous proliferating activity was found to be mainly attributable to thymocytes unable to respond to mitogen, expressing the cortical T6 marker and lacking receptors for IL 2. T3-positive cells are able to respond to mitogen. However, these thymocytes are incapable of producing the adequate amount of IL 2 required to fully saturate their intrinsic proliferative capability. Surprisingly, the phenotypically least mature intrathymic T lymphocytes (T3 and T6 negative) respond to phytomitogen, at least in part, in an interleukin-dependent manner. It is noteworthy that a large proportion of these T3- and T6-negative thymocytes express IL 2 receptors and class II MHC antigens without in vitro activation. These novel findings have potential implications in the context of current models of differentiation pathways within the human thymus.     

Role of interleukin 1 in early T cell development: Lyt-2-L3T4- thymocytes bind and respond in vitro to recombinant IL 1

Thymocytes that bear neither Lyt-2 nor L3T4 differentiation antigens (2-4- thymocytes) contain the precursors for mature L3T4+Lyt-2- and Lyt-2-L3T4+ T cells. In the present study we determined the capacity of 2-4- cells to respond to recombinant interleukin 1 (rIL 1) in vitro. The presence of rIL 1 enhanced IL 2-dependent proliferation to the lectins Con A and PHA by threefold to eightfold. In a second assay, rIL 1 enhanced proliferation and IL 2 production by 2-4- cells in response to phorbol myristate acetate (PMA) and the calcium ionophore, ionomycin. Using a direct IL 1 binding assay, we were able to detect both high-affinity (Kd approximately 5 pM) and low-affinity (Kd approximately 200 pM) classes of IL 1 receptors on freshly isolated 2-4- cells. Bound IL 1 was rapidly internalized, suggesting that such receptors were functional. These results are compatible with a role for interleukin 1 during thymocyte maturation.     

Cell surface molecular changes on the activation of human thymocytes

The changes in the expression of antigen molecules on the cell surface membranes of uncultured (nonactivated) and activated human thymocytes have been studied by flow cytometry and immunoprecipitation techniques. Nonactivated thymocytes do not have the phenotypic profile of a resting population because they express cell proliferation molecules such as the transferrin receptor and the 4F2 antigens (mainly the 100,000 dalton subunit). After activation with IL 2-containing supernatants, mature T3+, T6- thymocytes proliferate and are able to nonspecifically kill different target cells. The activated thymocytes are T3+, T11+, T6-, OKM1- and bear T4 or T8 antigens in mutually exclusive cell subpopulations. They also "de novo" express the IL 2 receptor, and the 210.000/130.000 molecular complex defined by the TS2/7 MAb. Activated human thymocytes express higher amounts of class I and class II MHC antigens, equal T3 and LFA-1, and lower quantities of T11 and T4 molecules than nonactivated thymocytes. Furthermore, activated thymocytes only express the T8 34,000 dalton polypeptide subunit, whereas the nonactivated thymocyte population expressed the T8 34,000 dalton associated with a 46,000 glycoprotein. We have demonstrated that this structural change in the T8 molecule from a complex of two polypeptide subunits of 46,000 and 32,000 does not indeed occur in the activation process but rather in the maturation from T6+ to T6- thymocytes.     

Expression and function of a 90-kilodalton homodimeric molecule (10D1 antigen) on human thymocytes

The 10D1 Ag is a 90-kDa homodimeric molecule specifically expressed on a subpopulation of human T cells, and is involved in an alternative pathway of T cell activation. In the present study, we have examined the expression and function of the 10D1 Ag on human thymocytes. Three-color FMF analysis showed that the 10D1 Ag was highly expressed on minor but distinct subpopulations of double-negative and CD4 single-positive thymocytes, and weakly on a part of double-positive thymocytes, but not on CD8 single-positive thymocytes. In double-negative thymocytes, the vast majority of 10D1+ cells were immature thymocytes of CD7+2+3- phenotype. Interestingly, 10D1 mAb could induce the proliferation of CD4 single-positive thymocytes in the presence of goat anti-mouse Ig to cross-link the 10D1 Ag. The treatment of thymocytes with OKT4 mAb plus C but not with OKT8 mAb plus C totally abrogated the proliferative response induced by 10D1 mAb, indicating that the 10D1-responsible thymocytes were of CD4+8- phenotype. This 10D1 mAb-induced thymocyte proliferation was perfectly dependent on the endogenous IL-2/IL-2R system since a complete inhibition was observed with anti-IL-2 and anti-IL-2R mAb. The proliferating CD4 single positive thymocytes predominantly expressed the IL-2R alpha (p55) but not a detectable level of the IL-2R beta (p75). These results indicate that, although the 10D1 Ag can be detected on the CD7+2+3-4-8- thymocytes, its functional expression is restricted to a minor more mature CD4+ thymocyte population as well as in peripheral blood T cells, and the implications of these findings are discussed.     

High-level secretion of interleukin 2 by a subset of proliferating thymic lymphoblasts

We have characterized the thymocytes that can be induced to secrete interleukin 2 (IL 2) after polyclonal stimulation with Con A. For maximal activation, an important adjunct to the Con A is the phorbol ester TPA. In the presence of TPA, IL 2 production by thymocytes is relatively independent of adherent accessory cells; this allows us to compare the abilities of different thymic subpopulations to make IL 2. The most numerous class that includes IL 2 producers is made up of cells with a typical "medullary" population, the phenotype: moderately small, postmitotic cells that fail to bind peanut agglutinin. In addition, however, a population of large, proliferating lymphoblasts is competent in IL 2 production directly as isolated. Relative to the total "medullary" population, the lymphoblasts are enriched for the ability to make IL 2. They account for a significant proportion of the total IL 2 produced by thymocytes, and demonstrate that this aspect of immunocompetence is not restricted to cells that have finished their intrathymic proliferation. The IL 2-producing lymphoblasts do not bind peanut agglutinin or express thymus-leukemia antigen, but they do express high levels of Lyt-1. Although distinct from most medullary thymocytes, therefore, they are also distinct from the majority of cortical blast cells for which a direct precursor role has been established. They may be a subset of the rare proliferating blast cells in the medulla. Further heterogeneity in the thymic IL 2 producers is demonstrated by their expression of the Lyt-2 glycoprotein. The majority of IL 2 producers are Lyt-2- as are the majority of peripheral T "helper" cells. However, a distinct minority of the thymic IL 2 producers express Lyt-2. Therefore, the ability of some peripheral Lyt-2+ cells to secrete IL 2 may be determined at the time of their initial programming in the thymus.     

Glucocorticoid receptors and corticosensitivity of human thymocytes at discrete stages of intrathymic differentiation

Human thymus is composed of several discrete compartments. Stage III thymocytes, located mainly in the medulla, stain brightly with anti-T3 monoclonal antibody; stage II thymocytes, located in the cortex, are T3- but react with T6 antibodies. The earliest identifiable intrathymic cell (stage I) expresses the sheep erythrocyte glycoprotein T11 but not T6 or T3 antigens. Within the thymus a phenotypically heterogeneous pool of proliferating lymphoblasts is present. This capacity to proliferate without in vitro activation is mainly attributable to thymocytes unable to respond to mitogens and expressing the cortical T6 marker. Both T3+ and T3-T6- cells respond to mitogen. However, in order to exhibit maximal proliferative responses, T3+ but not T3-T6- thymocytes require the addition of exogenous IL 2. Thymocyte subsets at distinct stages of intrathymic differentiation were then analyzed for glucocorticoid (GC) receptor content by using a whole cell assay with 3H-triamcinolone acetonide as tracer. The least mature T3-T6- thymocyte subset contained the highest levels of GC receptors . T3+ thymocytes exhibited a receptor content higher than that found in T6+ cells and similar to that reported for peripheral blood lymphocytes. Apart from the number, the GC receptor sites in all thymocyte subsets were similar in their affinities, kinetic characteristics, specificity for steroids, and ability to undergo translocation from cytoplasm to nucleus, and they behave in all these respects like binding sites of GC receptors in lymphoid and other cells. Independently of both phenotype and GC receptor content, all in vivo activated thymocytes (i.e., spontaneously proliferating cells) were similarly sensitive to the steroid inhibitory action in vitro. Both in the presence and in the absence of exogenous IL 1 or IL 2, the PHA-induced mitogenesis of T3-T6- cells was less inhibited by GC than that of T3+ thymocytes. Exogenous IL 1 and IL 2 were equally effective in removing, although not completely, the GC inhibition on T3-T6- proliferative responses to PHA. Relative to T3+ cell mitogenesis, only exogenous IL 2 was able to antagonize the steroid inhibitory action. The capacity observed in vitro of GC to differentially affect the proliferative potential or the cell viability of thymocytes belonging to functionally distinct subsets suggests that these hormones could regulate the intrathymic maturative pathways. Finally, although at present the physiologic relevance of the highest expression of GC receptors in intrathymic precursor cells remains unclear, the receptor density may be considered a marker of differentiation for the T lymphoid lineage.     

Regulation by interleukin 2 of interleukin 2 receptors and gamma-interferon synthesis by human thymocytes: augmentation of interleukin 2 receptors by interleukin 2

The role of interleukin 2 (IL 2) on the expression of IL 2 receptors and on the synthesis of gamma-interferon (gamma-IFN) by human thymocytes was investigated. Human thymocytes isolated from specimens obtained during cardiac surgery of infants and children were induced with one or all of the following agents: IL 2, concanavalin A (Con A), and 12-O-tetradecanoylphorbol 13-acetate (TPA). The expression of IL 2 receptors and gamma-IFN titers were determined. The results indicate that thymocytes cultured in complete medium do not express receptors for IL 2, nor did IL 2 by itself induce the expression of IL 2 receptors. Con A induced the expression of IL 2 receptors by a moderate number of the thymocyte population and induced the synthesis of low amounts of gamma-IFN. Preincubation of thymocytes with TPA increased the response to Con A; both the number of thymocytes expressing receptors and the synthesis of gamma-IFN were increased. Addition of IL 2 to these cultures further augmented the expression of IL 2 receptors and gamma-IFN synthesis and resulted in the optimal expression of IL 2 receptors and maximal gamma-IFN synthesis. The expression of IL 2 receptors could be detected within 24 hr and preceded the induction of proliferation; it was therefore probably not due to the clonal expansion of a population of receptor-bearing thymocytes. Conversely, inhibition of IL 2 synthesis with dexamethasone (Dex) by thymocytes activated with Con A, or inhibition of the function of IL 2 receptors by anti-Tac, resulted in a decrease in the number of IL 2 receptor-bearing thymocytes activated with Con A, or inhibition of the function of IL 2 receptors by anti-Tac, resulted in a decrease in the number of IL 2 receptor-bearing thymocytes and of gamma-IFN synthesis. Thymocytes activated with TPA and Con A were more resistant to the inhibitory effects of Dex on the expression of IL 2 receptors than thymocytes activated with Con A alone. Maximal inhibition of the expression of IL 2 receptors and of gamma-IFN synthesis was achieved as a result of the synergistic effect of anti-Tac with Dex. Therefore, when IL 2 was prevented from binding to the receptors, and IL 2 synthesis was inhibited, the number of thymocytes expressing IL 2 receptors was sharply reduced and gamma-IFN synthesis was markedly inhibited.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of human large granular lymphocyte subpopulations: comparison of the phenotype of NK cells and of interleukin 2-dependent progenitors of cytolytic effector cells

Antigenically different subpopulations of human large granular lymphocytes (LGL) were identified according to their reactivity with monoclonal antibodies (MoAb). Antigen-positive and -negative subsets were isolated by immunoaffinity columns using a Sepharose 4B gel coupled with F(a')2 goat anti-mouse IgG or by flow cytometry cell sorting. The distinct LGL subsets were tested for natural killer (NK) activity against a panel of tumor targets: K562, Daudi, Alab; and for antibody-dependent cellular cytotoxicity (ADCC) against antibody-coated RL male 1 cells. LGL positively selected for any of the following phenotypic markers: B73.1+, OKM1+, OKT11+, and OKT10+ were highly cytotoxic, while B73.1- and OKM1- cells were completely devoid of NK activity. The OKT10- and OKT11- LGL subsets were occasionally cytotoxic, with low levels of reactivity. LGL subpopulations were also tested in a limiting dilution assay (LDA) for their capacity to proliferate in medium supplemented with interleukin 2 (IL-2) and to develop NK-like cytotoxic activity. The majority of proliferative progenitors have the following phenotype: OKT11+, OKM1-, B73.1-, and OKT10-, while the majority of progenitors for cytotoxic cells were OKT11+, OKM1+/-, OKT10+, and B73.1-. Results indicate that although B73.1+ cells can grow, the mature B73.1+ NK cells seem to be primarily derived in vitro from a small subset of less differentiated B73.1 pre-NK progenitors in the peripheral blood lymphocytes.     

A murine thymocyte clone expressing gamma delta T cell receptor mediates natural killer-like cytolytic function and TH1-like lymphokine production

The murine CD4- CD8- (double negative, DN) thymocyte cell line and clones expressing T cell receptor gamma delta chains in association with CD3 complex have been established and characterized. This line and a representative clone (DN7.12.11) which appear to derive from the minor population of CD3+ DN thymocytes can be stimulated to proliferate and to produce lymphokines by anti-CD3 or anti-Thy-1 antibodies or calcium ionophore plus phorbol ester. Autocrine proliferation is dependent on binding of interleukin (IL)2 to functional IL2 receptor. Upon stimulation, these cells produce IL2 and IFN-gamma but not IL4, resembling conventional CD4+ TH1 cells in this regard. The cloned line also mediates spontaneous cytolysis against a variety of tumor targets without regard for the presence of conventional major histocompatibility complex molecules on the target cell surface. Blocking and modulation experiments suggest that target recognition by the gamma delta/CD3 complex is not involved in the spontaneous lysis, resembling natural killer (NK) cells. The results suggest that gamma delta +DN T cells are able to have mature functions such as NK-like cytotoxicity and lymphokine secretion as peripheral gamma delta +T cells. They also provide a possible role of gamma delta + DN thymocytes in establishing a intrathymic environment for differentiation and selection of alpha beta-expressing T cells.     

Distinct patterns of lymphokine requirement for the proliferation of various subpopulations of activated thymocytes in a single cell assay

The frequency and capacity for clonal expansion of several murine thymocyte subpopulations responsive to various IL (fetal day 15, and adult CD4-8-, CD4+8- and CD4-8+) were investigated using a single-cell limiting-dilution cell culture system without filler cells. This assay requires the presence of PMA and ionomycin. The main conclusions of these studies are the following: 1) IL-4 is a better growth factor than IL-2 for immature thymocytes (fetal day 15 or adult CD4-8-). 2) IL-2 is a better growth factor than IL-4 for mature phenotype thymocytes (CD4+8- and CD4-8+). 3) IL-4 is a relatively poor growth factor for adult CD4-CD8- thymocytes and CD4+CD8- thymocytes, while it induced strong responses in fetal day 15 and CD4-8+ thymocytes. 4) IL-6 enhanced the response of CD4+8- thymocytes to either IL-2 or IL-4. 5) Cortisone-resistant thymocytes grown initially with IL-4 and then switched to IL-2 showed a significant decrease in cloning efficiency. No inhibitory effect was observed when cells were cultured first with IL-2 and then switched to IL-4. 6) Finally, supernatant from Con-A stimulated rat spleen cells induced maximal growth of all adult thymocyte populations tested, suggesting that unidentified thymocyte growth factor(s) remain to be characterized. These results indicate that the maturational stage of thymocytes determines their requirements for activation and proliferation.     

Development of fetal thymocytes in organ culture: effect of corticosteroids.

Corticosteroids affect the development of fetal foregut-derived organs in which epithelial-mesenchymal interactions are associated with the developmental process. The thymus is one such organ and is profoundly sensitive to corticosteroids when mature. In this study corticosterone (CS) effects on fetal thymocyte development were investigated using a fetal thymus organ culture system which allows the growth, differentiation, and function of developing thymocytes to be monitored in vitro. CS inhibited, but did not block growth of fetal thymocytes, although the appearance of mature thymocytes was inhibited, similar to previously reported effects of interleukin 2 (IL2). CS enhanced the proportion of Mac1+, Ia+ and FcR+ cells and maintained high levels of IL2 receptor (IL2R) positive immature cells. Functional cytotoxic cells were detected in CS-treated organ cultures which expressed a Thy 1-, CD8- phenotype, atypical for thymus derived killer cells. While this cytotoxicity may be stimulated by CS, it could simply be due to a relative depletion of the main pool of thymocytes. These cytotoxic cells may have a role in directing apoptotic mechanisms occurring during thymocyte development.     

In situ identification of cells in human leprosy granulomas with monoclonal antibodies to interleukin 2 and its receptor

Leprosy is a chronic granulomatous disease with an immunologic spectrum in which lepromatous leprosy patients have defective cell-mediated immune responses, in comparison to tuberculoid leprosy patients. Immunoregulatory aspects of this spectrum were investigated by using monoclonal antibodies to interleukin 2 (IL 2), IL 2 receptors (Tac), and T lymphocyte subpopulations with immunoperoxidase techniques on frozen sections of skin biopsy specimens from 10 tuberculoid and 10 lepromatous patients. A comparison of IL 2+ cells revealed markedly fewer IL 2+ cells in lepromatous specimens (lep. 0.028% +/- 0.02 vs tub. 0.46% +/- 0.28, p less than 0.001). These IL 2+ cells were large, exhibited cytoplasmic staining, and on double immunostaining were Leu-4+, Leu-3a+, Leu-2a-, Tac-, and OKT6-, consistent with the fact they are IL 2 producers. Equivalent numbers of Tac+ cells were observed in both lepromatous and tuberculoid granulomas (lep. 1.5% +/- 0.5 vs tub. 2.1% +/- 0.7, p, NS), suggesting that the responder cells are present in both conditions. The tuberculoid granuloma was highly organized, composed of a central core of mature macrophages, Leu-3a+ and Tac+ cells with a surrounding mantle of Leu-2a+, Leu-3a+, IL 2+, Tac+, and OKT6+ cells. In lepromatous granulomas, Leu-2a+, Leu-3a+, Tac+, and rare IL 2+ cells were randomly admixed with bacilli-laden macrophages. The defective cell-mediated immune responses in lepromatous leprosy appears to be associated with diminished IL 2 production and disorganization of the granuloma.     

Identification and estimation of the proportion of limiting cell types involved in the phytohemagglutinin response by limiting cell dose-response analysis

Fluoresceinated peanut agglutinin (PNA-FITC) and a monoclonal anti-T-cell antibodies were used to identify human thymocyte subpopulations. The phenotypes of PNA+ and PNA? thymocytes were studied using two different techniques: agglutination with PNA and double-labeling immunofluorescence. The mitogen-responsive PNA- subset was shown to include early thymocytes bearing the OKT9 antigen as well as lymphocytes with the OKT3 phenotype. Nearly all PNA+ thymocytes were found to bind simultaneously OKT4, OKT6, and OKT8 antibodies, whereas about 30% of them weakly bind the OKT3 antibody. These data suggest the existence of several intermediate stages of intrathymic differentiation, including a subset simultaneously bearing the OKT6- and OKT3-defined antigens.     

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.     

Selective stimulation of human thymocyte subpopulations by recombinant IL-4 and IL-3

Human thymocytes and thymocyte subsets were examined for their proliferative response to recombinant interleukin-4 (IL-4) and interleukin-3 (IL-3) in serum-free cultures. IL-4 induced marked proliferation of thymocytes after PHA and TPA stimulation, in contrast to the marginal response of T cells from adult peripheral blood. However, depletion of thymocytes bearing the CD3 antigen diminished the IL-4-induced proliferation of thymocytes, indicating that the response of thymocytes to IL-4 is mainly mediated by the CD3-positive cells. Phenotypic changes after culture with IL-4 showed an increase in the percentage of total thymocytes expressing mature T cell antigens (CD3, CD5, and TCR-1) and a decrease in CD1-positive cells. In addition there was an increase in the percentage of CD4+8- cells in both nylon wool-separated thymocytes and CD3-depleted cells with the disappearance of most of the CD4+8+ cells. However, an increase in the percentage of CD4-8- cells was also observed. The IL-4-responding cells do, however, express the mature T cell antigen, CD5, in high density. The effect of IL-3 on the proliferation of human thymocytes was very low and detected only when the thymocytes were cultured in serum-free medium. Depletion of CD3-positive cells did not diminish the IL-3-mediated proliferation of thymocytes, indicating that IL-3-responsive thymocytes are more immature than the subset of thymocytes which responds to IL-4. These results suggest that IL-4 and IL-3 play different roles in the development of human T cells.     

IL-4 (B cell stimulatory factor 1) exhibits thymocyte growth factor activity in the presence of IL-2

The proliferative activity of thymocytes cultured with IL-2 and submitogenic concentrations of PHA is increased by 3- to 10-fold in the presence of IL-4. In contrast, IL-4 alone is unable to induce proliferative activity in thymocyte cultures and its synergistic activity is only apparent to concentrations of IL-2 above 1 U/ml. The costimulatory activity of IL-4 is abrogated by the monoclonal anti-IL-4 antibody 11B11. Furthermore, potentiation of the IL-2-mediated thymocyte proliferation is not seen with IL-1, IL-3, IFN-gamma, and granulocyte-macrophage CSF. Thymocytes are at least as responsive to IL-4 as B cells and the IL-4 costimulatory activity in fractionated thymocytes appears to be restricted mainly to the Lyt-2+/L3T4- population. In contrast, purified resting mature T cells do not respond to IL-4 plus IL-2, although they did proliferate in response to IL-4 in combination with PMA. These findings indicate that thymocytes and mature T cells are responsive to the costimulatory activity of IL-4 under quite different conditions, and that IL-4 may play an important role in thymocyte maturation in the thymus.     

Human autologous rosette-forming cells. I. Expression of cell surface antigens in relation to age and lymphoid organ distribution

Autologous rosette-forming cells (auto-RFC) were characterized with monoclonal antibodies to various cell surface antigens using a technique combining immunofluorescence and rosette formation. In peripheral blood, auto-RFC were T cells (Leu 1+/OKT3+) the majority being derived from the helper/inducer subset (Leu 3a+/OKT4+). A small proportion of the circulating auto-RFC were Leu 2a+/OKT8+ and virtually none of them bore T10, T6, and DR antigens or peanut agglutinin (PNA) receptors. In the elderly, the percentages of Leu 3a+ auto-RFC increased significantly along with the augmentation of the Leu 3a+ circulating pool. After Con A stimulation of peripheral blood lymphocytes the autorosette population was expanded and therefore their phenotype was again that of helper cells. In the thymus, high levels of autorosettes are found (30 to 50%). Simple or double labeling of the rosetting cells with various monoclonal antibodies permitted the confirmation of the existence of distinct thymocyte subpopulations and moreover to identify the location of the auto-RFC in the intrathymic differentiation scheme. Nearly 70% of the rosetting cells were derived from common thymocytes, those cells defined by the coexpression of T10, T6, T4, and T8 antigens whether or not they were also stained by OKT3 antibodies. The remaining auto-RFC were found with similar frequency among the T4+ and T8+ mature thymocytes. In the spleen low percentages of auto-RFC were found and the majority resided in the Leu 3a+/OKT4+ population, similarly to peripheral blood autorosettes. Taken together, these data suggest that the expression of autologous erythrocyte receptors is acquired in the thymus and is gradually lost during T-cell maturation.     

Clonogenic potential of murine CD4+8+ thymocytes. Direct demonstration using a V beta 6-specific proliferative stimulus in Mlsa mice

Although considerable indirect evidence supports the hypothesis that CD4+8+ thymocytes are developmental intermediates in the generation of mature (CD4+8- or CD4-8+) T cells, the ability of these cells to proliferate in vitro has been highly controversial. We demonstrate here that a fraction of purified murine CD4+8+ thymocytes can be induced to proliferate in response to immobilized anti-TCR mAb. To exclude possible proliferation by trace mature T cell contaminants, we have exploited our recent finding that in Mlsa mice mature V beta 6-bearing thymic T cells are virtually absent (less than or equal to 0.5%) due to clonal deletion, whereas V beta 6 +CD4+8+ thymocytes are present in much higher numbers (approximately 3%). Proliferation of sorted CD4+8+ thymocytes from Mlsa mice was therefore induced at limiting dilution with immobilized anti-V beta 6 mAb to select against any contaminating mature T cells. Under optimal culture conditions, the frequency of CD4+8+ thymocytes proliferating specifically to anti-V beta 6 mAb (1/1000) was higher than those obtained for purified CD4-8+ (1/2000) or CD4+8- (1/5000) subsets, thus demonstrating directly that a proportion (in this case 3%) of CD4+8+ thymocytes are potentially clonable. During culture, V beta 6 +CD4+8+ thymocytes gave rise to a mixture of phenotypically "immature" (CD4-8-) and "mature" (CD4-8+) T cells. This system should be valuable for further analysis of the elusive CD4+8+ thymocyte subset.     

Suppression of interleukin 2 receptor acquisition by monoclonal antibodies recognizing the 50 KD protein associated with the sheep erythrocyte receptor on human T lymphocytes

Monoclonal antibodies OKT11A, 9.6, and 35.1 recognize epitopes on a 50000 dalton surface molecule (p50) identical to or closely associated with the sheep erythrocyte receptor (E receptor) on human T lymphocytes. These three antibodies were investigated for ability to inhibit T cell proliferation and interleukin 2 (IL 2) receptor acquisition (determined with anti-Tac antibody in an immunofluorescence assay) induced by the lectin mitogen phytohemagglutinin (PHA) or by the phorbol ester 12-O-tetradecanoyl-phorbol-13 acetate (TPA). OKT11A, 9.6, and 35.1 were found to suppress [3H]thymidine incorporation and IL 2 receptor acquisition stimulated by PHA but not by TPA. This inhibition was not attributable to a lag in kinetics, but was sustained throughout 4 to 5 days of culture. Because OKT11A and 9.6 have been reported to suppress lectin mitogen-induced IL 2 production, we attempted to overcome inhibition of proliferation with exogenous IL 2 (MLA144 supernatants or immunoaffinity-purified human IL 2). Adding IL 2 at the initiation of culture abrogated the suppressive effect of all three anti-p50 antibodies on proliferation and on the acquisition of IL 2 receptors, raising the possibility that IL 2 may up-regulate expression of its cellular receptor on human T lymphocytes. These data, together with previous reports, indicate that OKT11A, 9.6, and 35.1 suppress lectin mitogen-induced T cell proliferation by impairing both IL 2 elaboration and IL 2 receptor acquisition, and suggest that IL 2 may be capable, at least under some conditions, of increasing expression of IL 2 receptors on human T lymphocytes.     

Transmembrane signaling during interleukin 1-dependent T cell activation. Interactions of signal 1- and signal 2-type mediators with the phosphoinositide-dependent signal transduction mechanism

The murine T lymphoma line, LBRM-33 1A5, requires synergistic signals delivered by phytohemagglutinin (PHA) and interleukin 1 (IL1) for activation to high level interleukin 2 production. The activation signals provided by PHA and IL1 were replaced by the Ca2+ ionophore, ionomycin, and the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate (TPA), respectively. These observations supported a two-signal model for T cell activation involving increases in intracellular Ca2+ concentration ([Ca2+]i) (signal 1) and activation of protein kinase C (signal 2) as necessary and sufficient events. However, biochemical analyses revealed that additional signals were involved in the activation of LBRM-33 cells by both receptor-dependent and -independent mediators. Both signal 1-type mediators, PHA and ionomycin, exerted pleiotropic effects at the concentrations required for synergy with signal 2-type mediators (IL1, TPA). Within 1-2 min of addition, PHA stimulated phospholipid turnover, including hydrolysis of phosphatidylinositol 4,5-bisphosphate, Ca2+ mobilization, and protein kinase C activation. The [Ca2+]i increase induced by PHA was due to influx from both intracellular and extracellular Ca2+ pools. Similarly, ionomycin increased phospholipid turnover, [Ca2+]i, and directly affected protein kinase C activity in LBRM-33 cells. In contrast, the signal 2-type mediators, TPA and IL1, appeared to act by distinct intracellular mechanisms. TPA induced a protracted association of cellular protein kinase C with the plasma membrane, consistent with the two-signal activation model. Furthermore, acute TPA treatment inhibited PHA-stimulated inositol phosphate release and Ca2+ mobilization, suggesting that this mediator partially antagonized signal 1 delivery. IL1, in contrast, neither activated protein kinase C directly nor did it positively modulate the coupling of signal 1-type mediators to [Ca2+]i or protein kinase C via the phosphoinositide pathway. The intracellular signal delivered by IL1 is, therefore, generated through a mechanism distinct from or distal to the activation of protein kinase C. These studies indicate that the two-signal hypothesis, in its simplest form, is inadequate to explain the signals required for the initiation of IL1-dependent T cell activation.