Human lectin-dependent T cell-mediated cytotoxicity against Hep-2 cells

A sensitive method for human lectin-dependent cell-mediated cytotoxicity (LDCC) is presented using HEp-2 adherent human epipharynx carcinoma cells as targets. Cytotoxicity was evaluated by detachment from the monolayer of 3H-TdR-prelabelled HEp-2 cells. Maximal LDCC was obtained in a 24 h assay with a Con A dose of 25 micrograms/ml for 50 : 1 effector-target cell ratio requiring only 2500 target cells per well. Testing of five different lymphocyte fractions: peripheral blood mononuclear cells (PBMC), monocyte-enriched adherent cells (AC), monocyte-depleted non-adherent cells (non-AC), T and non-T lymphocytes as effector cells from 25 normal individuals, suggests that LDCC to HEp-2 targets is mediated by T lymphocytes.     

Depressed lectin-dependent and enhanced antibody-dependent cell-mediated cytotoxicity in patients with stage I cancer of the larynx

Lectin-dependent cell-mediated cytotoxicity (LDCC) of peripheral blood mononuclear cells (PBMC) from patients with stage I cancer of the larynx (LC) was evaluated using human adherent 3H-TdR-prelabeled HEp-2 carcinoma cells as targets at 50:1 effector-target ratio with 25 micrograms/ml concanavalin A (Con A) in a 24-hour assay. Under these conditions, but without Con A, no considerable natural cell-mediated cytotoxicity (NCMC) was performed by PBMC either from control or from LC donors. Depressed levels of LDCC, but augmented ADCC to chicken red blood cells were detected in LC patients. Natural killer activity to K562 targets was not different from that of control subjects. In parallel studies, normal Con A-induced blastogenesis and B cell counts, low T, and active T cell counts, as well as high Leu-11a+ cell counts were detected in patients with LC. The relationship between depressed LDCC and low T, and active T cell counts, and enhanced ADCC and high Leu-11a+ cell counts is suggested in stage I LC patients.     

Spontaneous human T-cell cytotoxicity against murine hybridomas expressing the OKT3 monoclonal antibody: comparison with natural killer cell activity

Human peripheral blood lymphocytes (PBL) exhibited spontaneous cytotoxicity against OKT3 monoclonal antibody (mAb)-expressing murine hybridoma cells (OKT3 hybridomas). In contrast, other murine hybridomas expressing OKT4, OKT8, anti-HLA DR, and anti-HLA A, B, and C mAb were not lysed. PBL showed much lower levels of cytotoxicity (3 folds) against OKT3 hybridomas as compared with NK activity against the K562 targets. Lymph node (LN) cells exhibited the inverse relationship of cytotoxicity levels. The addition of OKT3 mAb to the effector cells totally blocked both the binding and the lysis of OKT3 hybridoma targets, indicating that the CD3 antigen on the effector cells may be involved in recognition of the targets. The addition of concanavalin (Con A) also inhibited the cytotoxicity of OKT3 hybridomas. OKT4 mAb-expressing hybridomas became susceptible to lysis after chemical attachment of OKT3 mAb with CrCl3. The kinetics of lysis of OKT3 hybridomas resembled that of NK activity. Both cytotoxicities were detectable after 1 to 2 hr and reached plateau levels by 4 to 6 hr. Effector cells responsible for lysis of OKT3 hybridomas expressed T3, T8, and Leu 7 antigens, but lacked T4 and Leu 11b antigens, and were sensitive to the treatment with L-leucine methyl ester. These results indicate that T3+, T8+, Leu 7+ and T4-, and Leu 11- granular lymphocytes have a spontaneous cytotoxic activity against OKT3 hybridomas which is different from classic NK activity. These findings may provide a method for the assessment of T-cell cytotoxicity mediated presumably by in vivo generated cytotoxic T lymphocytes in blood and the other immune organs.     

Lectin-dependent cell-mediated cytotoxicity in hamsters bearing syngeneic tumors

Spleen cells from LSH hamsters inoculated with xenogeneic, allogeneic, or syngeneic (PARA-7) tumor cells were assayed for their ability to mediate direct cell-mediated cytotoxicity (DCMC) and lectin-dependent cell-mediated cytotoxicity (LDCC) in a 4-hr chromium release assay. Spleen cells from animals immune to xenogeneic or allogeneic cells demonstrated specific DCMC against homologous target cells in the absence of Con A and nonspecific LDCC against both homologous and heterologous target cells in the presence of Con A. Spleen cells from animals bearing syngeneic PARA-7 tumors (TBA) failed to express DCMC against homologous or heterologous target cells; however, significant lysis of all target cells occurred in the presence of Con A. LDCC was not detectable when nonsensitized spleen cells from normal animals were employed. The LDCC reaction was dependent on the concentration of Con A and the number of effector cells present in the reaction. The development of LDCC effector cells in the TBA appeared to parallel the development of both DCMC and LDCC effector cells in immune animals.     

Lectin-dependent and anti-CD3 induced cytotoxicity are preferentially mediated by peripheral blood cytotoxic T lymphocytes expressing Leu-7 antigen

Monoclonal antibodies against the CD3 antigen and certain lectins can induce interleukin 2 dependent antigen-specific T cell clones to mediate non-antigen specific cytotoxicity. On the basis of this observation, we predicted that it may be possible to identify cytotoxic T lymphocytes (CTL) in peripheral blood without knowing the antigen specificity of these in vivo primed CTL. By using this strategy, peripheral blood lymphocytes were separated into low and high-density fractions on Percoll gradients and were tested for cytotoxic activity in the presence or absence of concanavalin A (Con A) or anti-Leu-4 antibody. Lectin-dependent cellular cytotoxicity (LDCC) and anti-CD3 induced cytotoxicity against both natural killer (NK)-insensitive and NK-sensitive targets were exclusively mediated by low-density CD3+ T lymphocytes. Additional studies indicated that low-density CD3+ T lymphocytes co-expressing Leu-7 antigen preferentially mediated this activity, although in some individuals, significant activity was also observed in the low-density T cells lacking Leu-7. In contrast, high-density CD3+ T lymphocytes and CD16+ (Leu-11+) NK cells (both Leu-7 and Leu-7+) did not mediate nonantigen-specific cytotoxicity under these conditions. The finding that NK cell-mediated cytotoxicity was unaffected by these lectins refutes the hypothesis that lectin-dependent cellular cytotoxicity is simply a result of effector and target agglutination. T cell-mediated cytotoxicity was both lectin and antibody specific. Phytohemagglutinin, Con A, and pokeweed mitogen induced cytolytic activity in the Leu-7+ T cells, whereas wheat germ agglutinin did not. Of the antibodies against T cell-associated differentiation antigens (anti-Leu-2,3,4, and 5), only anti-Leu-4 induced cytotoxicity. This anti-CD3-induced cytotoxicity was essentially completely inhibited by the presence of anti-LFA-1 or anti-CD2 monoclonal antibodies, implicating these molecules in the triggering process. A proportion of the CD3+, Leu-7+ CTL expressed HLA-DR antigens, indicating possible in vivo activation. Because previous clinical studies have indicated that lymphocytes with this phenotype may be elevated in clinical situations associated with immunosuppression and chronic viral infection, this unique subset of CD3+ T lymphocytes may represent a population of in vivo primed CTL possibly against viral antigens.     

Lysis of fresh solid tumor targets in the presence of Con A is mediated primarily by Leu 7+ peripheral blood T lymphocytes: blocking by the anti-CD3 monoclonal antibody and comparison with recombinant interleukin 2-induced lysis by natural killer cells

We investigated the lysis of fresh human solid tumor cells by peripheral blood T lymphocytes in the presence of lectins and anti-CD3 monoclonal antibodies (mAb). Addition of certain lectins (Con A, PHA, or WGA) directly into the 4-hr 51Cr-release assay caused significant lysis of (P less than 0.001) noncultured solid tumor targets by enriched populations of granular lymphocytes (GL). Significant levels (P at least less than 0.001) of Con A- or PHA-dependent solid tumor lysis by GL-enriched lymphocytes were observed in 32 of 39 donors (82%) and 14 of 20 donors (70%), respectively. In contrast, the addition of other lectins (PNA, PWM, or LPS) or anti-CD3 mAb did not cause cytotoxicity. The levels of Con A-dependent lysis were comparable to those of interleukin 2 (IL-2)-induced lysis by Leu 11b+ natural killer (NK) cells. The presence of lectins at the effector phase, but not of recombinant IL-2 (rIL-2), was required for the lysis of solid tumor targets. Both Con A-dependent and rIL-2-induced lysis were totally inhibited by treatment of the effector cells with the lysosomotropic agent L-leucine methyl ester (LeuOMe). Effector cells responsible for Con A-dependent lysis of solid tumors expressed T3 (CD3), T8 (CD8), and Leu 7 antigens, but lacked T4 (CD4) and Leu 11 (CD16) antigens as determined by both negative and positive cell selection studies. Con A-dependent lysis was inhibited at the effector phase by anti-CD3 (OKT3 or anti-Leu 4) or anti-CD2 (OKT11) mAb. On the basis of their phenotype (Leu 7+ CD3+ CD8+ CD16-), we hypothesize that these effector cells may contain a population of cytotoxic T cells (CTL) generated in vivo against autologous modified cells that can lyse fresh solid tumor target cells under conditions where the recognition requirements for the CTL are bypassed by lectin approximation.     

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

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

Concanavalin A triggers T lymphocytes by directly interacting with their receptors for activation

Anti-HLA-DR antibodies did not inhibit concanavalin A-(Con A) induced T cell proliferation or the generation of suppressor cells capable of inhibiting immunoglobulin synthesis in autologous mononuclear cells after pokeweed mitogen stimulation. Nylon-wool purified T cells (pretreated with anti-HLA-DR antibody and C) exposed to Con A acquired responsiveness to interleukin 2 (IL 2) and were able to absorb this growth factor, whereas nonlectin-treated cells did not respond to IL 2 and could not absorb it. In the presence of interleukin 1 (IL 1), Con A stimulated the synthesis of IL 2 in purified OKT4+ lymphocytes but not OKT8+ cells. However, in the absence of IL 1, neither resting OKT4+ nor Con A-treated OKT4+ cells produced IL 2. Con A by itself did not directly stimulate macrophages to synthesize IL 1, although it could do so in the presence of OKT4+ but not OKT8+ lymphocytes. In addition, Con A induced proliferation of purified T cells provided IL 1 was supplied to the cultures. Cyclosporin A rendered Con A-treated T cells unresponsive to IL 2, made lectin-stimulated OKT4+ lymphocytes unable to respond to IL 1, and inhibited the synthesis of IL 2. Furthermore, this drug abrogated the Con A-stimulated synthesis of IL 1 by acting on OKT4+ lymphocytes and not on macrophages. Finally, cyclosporin-A suppressed the proliferative response and the generation of suppressor T cells induced by Con A. The following are concluded: 1) HLA-DR antigens do not seem to play any role in the triggering of T cells by Con A, and macrophages participate in lectin-induced activation of T cells mainly by providing IL 1. 2) Cyclosporin-A inhibits activation of T cells by interfering with the mechanism by which Con A stimulates T lymphocytes. 3) Con A triggers T lymphocytes by directly interacting with their receptors for activation.     

Cell-mediated cytotoxicity against HLA-D-Region products expressed in monocytes and B lymphocytes

The cytotoxic effector cells that recognize HLA-D-region determinants and their precursors were characterized using monoclonal antibodies against human T lymphocytes and T-cell subsets. These studies were performed using MLC combinations giving rise to cytotoxic cells specific for both class I (HLA-A, B, C) and class 11 (HLA-D-region) antigens, and then tested against target cells displaying relevant antigens of only one class. Both class I and class II specific CTL (cytotoxic T lymphocytes) were inhibited by treatment with the OKT3 monoclonal antibody and complement, indicating that the effector cells were T lymphocytes. A major portion.of class II specific CTL, and their precursors, were inhibited by OKT4 and complement, while class I specific CTL from the same cultures were not. The T4+T8 — cell subset has previously been associated with helper or inducer functions, but not with cytotoxicity. The present findings indicate that class I and class 11 specific CTL, and their precursors, are different on the basis of the class of target antigen recognized and on the basis of surface phenotype detected by monoclonal antibodies.     

Lectin-dependent cell-mediated cytotoxicity: induction of a unique effector cell population.

Spleen cells from C57BL/6 (H-2^b) mice were assayed for their ability to mediate lectin-dependent (Con A, PHA) cell-mediated cytotoxicity (LDCC), following immunization with erythrocytes, bovine serum albumin, Bacillus Calmette Guerin, and allogeneic (H-2^d) P815 cells. Sensitization with viable, but not formaldehyde-fixed, P815 cells resulted in lectin-dependent lysis of syngeneic EL-4 cells. All other sensitization procedures failed to produce LDCC. Spleen cells from mice challenged with high (10⁸) doses of P815 cells were capable of mediating both direct (anti-P815) cytotoxicity and LDCC, while challenge with low (10⁴) doses of P815 cells produced strong LDCC reactivity in the apparent absence of direct cytotoxicity (DCMC). Characterization of the effector cells indicated that LDCC reactivity was mediated by an activated, non-adherent T cell population. The effector cells appear to be unique in that LDCC could be induced in the absence of DCMC, LDCC activity appeared prior to DCMC, and DCMC could be removed by adsorption on P815 monolayers without depleting LDCC reactivity.     

The role of HLA-DR determinants in monocyte-macrophage presentation of herpes simplex virus antigen to human T cells

Spleen cell killing of target cells can manifest through spleen cell-target cell interaction in the presence of mitogenic lectin, lectin-dependent cell-mediated cytotoxicity (LDCC). Spleen cells from C57B1/6 mice immunized with C3H mouse cells were found to be capable of cytotoxicity against autologous and other C57B1/6 spleen cells in the presence of Con A. Thus, alloimmune spleen cells are capable of an anti-self cytotoxic response in the presence of mitogenic lectin, antiautologous LDCC. Antiautologous LDCC is blocked by preincubation of cytotoxic cells with colchicine, an inhibitor of the cytotoxic effector mechanism. Analysis of alloimmune spleen cell subpopulations suggests that the antiautologous LDCC cell is an immature alloimmune cytotoxic cell (prekiller cell). Potent LDCC was found in alloimmune spleen cell preparations depleted of alloimmune cytotoxic T cells (killer-depleted) by three passes on allogeneic cell monolayers genetically identical with the immunizing cell. However, some LDCC effectors were also found to adhere to the adsorbing target, suggesting that there is some maturational diversity among LDCC effectors.     

Production of alpha-lymphotoxin by human T-cell subsets

Human T cells were isolated from peripheral blood lymphocytes (PBL) and sensitized to allogeneic PBL in a one-way mixed-lymphocyte culture. These sensitized T cells were fractionated on the basis of their possession of Fc receptors for IgG (TG+) or IgM (TM+), or the absence of both IgG and IgM receptors (TG-M-). When restimulated with alloantigen of the same derivation, TG+, TM+, and TG-M- cells yielded almost equal amounts of cytotoxin. Anti-alpha-lymphotoxin serum neutralized most of this cytotoxic activity indicating that alpha-lymphotoxin (alpha-LT) constituted most of this activity. Although TG-M- cells function as effectors in allogeneic cytotoxicity, TG+ cells lyse IgG-coated targets in an antibody-dependent cell-mediated cytotoxic (ADCC) reaction, which has been shown to be mediated in part by alpha-LT. Whether TM+ cells can be cytotoxic is not clear. In addition, freshly isolated human T-cell subsets were stimulated with phytohemagglutinin-P (PHA-P). After PHA stimulation, TG+, TM+, and TG-M- cells produced similar amounts of soluble cytotoxin, which was largely neutralized by anti-alpha-LT. The TG+ cells incorporated less thymidine than the TM+ or TG-M- cells. Likewise, OKT4+ and OKT8+ subsets, isolated with the aid of monoclonal OKT8 or OKT4 antibody and complement, yielded lymphotoxin after stimulation with PHA. It is shown that all T-cell subsets, as defined here, can produce lymphotoxin. Furthermore, depending on the assay system, cytotoxicity can be clearly demonstrated in all of these subsets, except in TM+ cells, where positive and negative results have been reported.     

Natural killer cell activity correlates with the amount of beta 2-microglobulin on human peripheral blood lymphocytes

Two cytotoxic assays, lectin-dependent cytotoxicity and natural killer (NK) cytotoxicity, were used to assess the competence of cord blood and neonatal peripheral blood mononuclear cell (PBMC) and T-cell cytotoxic reactions. The effect of exogenous interferon was also studied. Results were compared with cytotoxic capabilities of adult cells and cells from patients with primary immunodeficiency syndromes. Lectin-dependent cytotoxicity (LDCC), a property of both T and non-T cells, was assessed by lysis of chromium-labeled EL4 tumor target cells in the presence or absence of exogenous fibroblast interferon (IFN-β). Natural killer cytotoxicity was assessed by lysis of two different chromium-labeled tumor target cells, Molt 4f and K562 in the presence or absence of IFN-β. Lectin-dependent cytotoxicity (LDCC) of PBMC of cord blood (32 ± 4% SEM) and adult cells (36 ± 2% SEM) were equivalent but neonatal cells had slightly decreased LDCC (22 ± 3% lysis). T-depleted cells from cord or neonatal blood had increased LDCC but T-enriched (>95% sheep erythrocyte rosette-forming cells) from both cord (22 ± 3%) and neonatal blood (18 ± 5%) had significantly reduced LDCC compared to 55 ± 2% for adult T cells. This deficiency corrects with age and is near normal after age 2. Preincubation with IFN-β did not enhance LDCC of newborn or adult cells. The LDCC of some cord T cells was markedly reduced and was in the same low range as patients with severe combined immunodeficiency. Natural killer (NK) cytotoxicity of PBMC from cord and adult cells was equivalent at three effector:target ratios against the Molt 4f target but against the K562 target, cord PBMC had significantly less NK activity (22 ± 11 SD) compared to adult NK activity (50.5 ± 22.2 SD) at a 50:1 effector:target ratio. Similar differences were noted at 25:1 and 10:1 target:effector ratios. NK cytotoxicity against Molt 4f targets of adult cells was significantly enhanced by preincubation with IFN-β but NK of cord cells was only variably enhanced. By contrast, IFN-β enhanced NK against K562 targets of both adult and cord cells, adult greater (67.7 ± 20) than cord cells (37.8 ± 2.0). These T-cell effector deficiencies are in marked contrast to the vigorous proliferative responses of newborn T cells, and parallel deficiencies of certain neonatal lymphokines. These defects may explain the newborns' enhanced susceptibility to intracellular viruses and to congenital viral infections.     

Mechanism of cell-mediated cytotoxicity at the single cell level. VI. Direct assessment of the cytotoxic potential of human peripheral blood non-lytic effector-target cell conjugates

Single cell cytotoxicity assays reveal that a large percentage of lymphocytes are unable to kill attached targets in a 4- to 18-hr assay. Additional signals (in the form of lectin or anti-target antibody) delivered to target-bound lymphocytes enable these previously non-lytic lymphocytes to kill attached target cells. This finding was obtained by using a modification of the single cell assay, in which lectin or target cell antibody is incorporated into agarose with preformed lymphocyte-target conjugates. Human peripheral blood lymphocytes (PBL) or Percoll density gradient-enriched large granular lymphocytes (LGL) were used as effector cells in natural killer (NK), antibody-dependent cellular cytotoxicity (LDCC) assay systems. The targets used were NK-sensitive K562 and Molt-4 and NK-insensitive Raji. Several findings were made in the modified single cell assay, namely a) the frequency of cytotoxic NK or ADCC effector cells was not augmented, suggesting that the initial trigger was sufficient for lytic expression in these instances. Furthermore, these results showed that the NK-sensitive targets used do not bind nonspecifically to the LDCC effector cells. K562 coated with Con A, however, serve as LDCC targets. b) The frequency of two target conjugate lysis by NK/K effectors was not augmented by Con A. These results suggest that Con A does not potentiate the killing of multiple targets bound to a single cytotoxic lymphocyte. c) Although conjugates formed between LGL or PBL and NK-insensitive Raji are non-lethal, significant lysis was observed when these conjugates were suspended in Con A or antibody agarose. These results demonstrate that Raji bind to cytotoxic NK, K, and LDCC effector cells, but are lysed only when the appropriate trigger is provided. d) The cytotoxic potential of non-lytic conjugates appears to lie within the low density Percoll fraction, although the high density lymphocytes are able to nonlethally bind to targets. Altogether the results demonstrate that target recognition and/or binding by the effector cells is a distinct event from the trigger or lytic process. The implications of these findings are discussed.     

Spontaneous cell-mediated cytotoxicity in patients with transitional cell carcinoma of the urinary bladder

Summary Lymphocytes isolated from the blood of TCC patients, like those of control patients, were capable of mediating spontaneous cell-mediated cytotoxicity against K-562 cells. When this natural cytotoxicity was analyzed with regard to the effector cell type it was found that in TCC patients the SLMC was mostly displayed by E-rosetting T lymphocytes, whereas compared with controls, a significant decline in the SLMC of the non-T lymphocytes was observed. The SLMC of the T lymphocytes derived from TCC patients was further demonstrated on a T leukemia target cell (Peer). When the SLMC on K-562 and on Peer target cells was compared, a specificity difference was observed between TCC and the control patients' effector cells. The SLMC activity of the TCC patients' T cells was not abolished after depletion of Fc receptor-positive cells or following treatment with monoclonal antibodies OKT 8 or OKT 4 and complement (C'). These NK-like cells are therefore distinguished from cytotoxic T lymphocytes and NK cells.     

Stimulation with autologous lymphoblastoid cell lines: lysis of Epstein-Barr virus-positive and -negative cell lines by two phenotypically distinguishable effector cell populations

Human lymphocytes, stimulated in vitro for 6 days with x-irradiated or glutaraldehyde-treated autologous Epstein-Barr (EB) virus-transformed lymphoblastoid cell lines (LCL), are cytotoxic for autologous and allogeneic EB+ LCLs as well as for several EB- cell lines that are also susceptible to lysis by interferon-activated natural killer (NK) cells. To determine whether the apparent nonspecific lysis mediated by LCL-stimulated cells is due to a mixture of effector cells directed against different target cells, advantage was taken of our recent finding that monoclonal antibody OKT8 reacts with human cytotoxic T lymphocytes but not with NK cells or NK-like cells generated in mixed leukocyte cultures. The depletion of OKT8+ cells from LCL-stimulated cultures by treatment with OKT8 and complement abolished or markedly depleted cytotoxicity against all EB+ target cells tested, whereas cytotoxicity against EB-, NK-sensitive cell lines including K562, MOLT-4 and HSB-2 was not or only minimally reduced. These results indicate that stimulation with autologous LCL results in the generation of OKT8+ cytotoxic T lymphocytes that lyse EB virus-transformed LCL and OKT8- NK-like cells that lyse EB-, NK-sensitive cells.     

OKT4+ cytotoxic T cells can lyse targets via class I molecules and can be blocked by monoclonal antibody against T4 molecules

Human cytotoxic T lymphocytes (CTL) have been shown to recognize either class I or class II major histocompatibility (MHC) products. This recognition has been correlated with the expression of OKT antigens on the surface of the CTL. Thus, OKT4+ CTL have been shown to be reactive with class II products, whereas OKT8+ effectors recognize class I molecules. In this study, responder cells were separated according to their OKT4 or OKT8 cell surface phenotype on a fluorescence-activated cell sorter (FACS). The OKT4+ subsets were stimulated with an LCL mutant that did not express DR and MB/MT but did express SB and class I antigens. After 7 days in culture, the activated subsets were tested on a panel of class I matched or mismatched targets. The cytotoxicity observed could be correlated with the presence of matched class I antigens. In addition, monoclonal antibody (MCA) W6/32, directed at a monomorphic determinant on HLA-A and -B molecules, blocked lysis. Furthermore, six OKT4+ CTL clones were derived from the OKT4+ bulk cultures; three clones were found to be directed at class I molecules whereas the other three recognized class II determinants. The ability of these clones to lyse their relevant targets was blocked by OKT4 MCA, raising questions as to the role of the T4 molecule in antigen class-specific CTL recognition.     

Effector activity of decidual CD8+ T lymphocytes in early human pregnancy

Although CD8+ T lymphocytes are present in human decidua throughout pregnancy, albeit as a minor population in early pregnancy, their role in normal pregnancy is largely unknown. The present study aimed to characterize their effector phenotype, including cytolytic activity, cytokine profile, and capacity to affect placental invasion. CD8+ lymphocytes were positively selected from normal early pregnancy decidua (7-14 wks gestational age). Decidual CD8+ T lymphocytes were studied using standard and redirected chromium release assays to investigate natural killer cell-sensitive cytotoxicity and cytotoxicity that requires T-cell receptor signal transduction respectively, multiplex cytokine analysis to analyze cytokine production, and a placental explant invasion model to assess the effect of soluble products of decidual CD8+ T lymphocytes on trophoblast invasion. Decidual CD8+ T lymphocytes exhibited cytolytic ability against P815 target cells (mean % Specific Chromium Release at effector:target ratio of 32:1 [SCR(32)] of 32.7 +/- 5.8) and against K562 target cells (mean SCR(32) of 20.3 +/- 0.5). Phytohemagglutinin-P (PHA-P)-stimulated decidual CD8(+) T lymphocytes produced high levels of both interferon gamma and interleukin (IL) 8, and low levels of granulocyte-macrophage colony-stimulating factor (CSF2), IL1B, IL2, IL6, IL10, IL12, and tumor necrosis factor; these did not vary with gestational age. IL4 was undetectable. Decidual CD8+ T lymphocyte supernatants increased the capacity of extravillous trophoblast cells to invade through Matrigel compared with the PHA-P control. These findings suggest that decidual CD8+ T cells can display cytolytic activity, do not evoke a predominant local intrauterine Th2 type cytokine environment, and may act to regulate invasion of extravillous trophoblast cells into the uterus, a crucial process for normal uteroplacental development.     

A history of theories of acquired immunity

Alloimmune mouse spleen cells are capable of carrying out nonspecific cell-mediated cytolysis of syngeneic target cells when incubated in the presence of lectins such as Con A or PHA (lectin-dependent cell-mediated cytotoxicity). In the present study plant lectins from a variety of sources were examined for their ability to participate in alloimmune-LDCC. Reactivity was then compared to mitogenic activity and the ability to activate cytotoxic effector cells in vitro. Of the lectins tested only those reported to be T-cell mitogens were capable of participating in alloimmune-LDCC. Agglutinating but nonmitogenic lectins (e.g., WGA) or mitogens such as LPS or PWM failed to yield positive LDCC. Of the T-cell mitogens demonstrating positive reactivity in the alloimmune-LDCC assay, only a portion were able to generate cytolytic activity when incubated with normal spleen cells in vitro (Con A, GPA, lentil). Crude PHA, purified erythroagglutinin, or leukagglutinin failed to generate cytotoxic effector cells in this system even though these were mitogenic and demonstrated positive alloimmune-LDCC. The results suggest that T-cell mitogens interact with cytotoxic effector cells in a manner which specifically triggers cytolysis. The relationship of this interaction to other lymphocyte-lectin interactions is discussed.     

Both cloned interleukin 2 and purified interleukin 1 are required for optimal growth of purified L3T4+ and Lyt 2+ lymphocytes initiated by concanavalin A

Concanavalin A (Con A), cloned interleukin 2 (IL-2), purified interleukin 1 (IL-1) or two different crude preparations containing IL-1 activity alone, did not induce proliferation of rigorously accessory cell (AC)-depleted splenic L3T4+ or Lyt 2+ lymphocytes. Con A together with saturating concentrations of cloned IL-2 (100 U/ml) promoted less than 40% of the proliferative responses observed in AC-supplemented L3T4+ and Lyt 2+ T-cell cultures. The three preparations of IL-1 used supported minimal proliferation of Con A-treated purified L3T4+ or Lyt 2+ lymphocytes. However, all these IL-1 preparations promoted significant growth of the T-cell populations if AC (1%) were included in the cultures. Cloned IL-2 combined with purified IL-1 promoted proliferation of Con A-treated L3T4+ and Lyt 2+ lymphocytes achieving approximately 75% of the responses observed in AC-supplemented T-cell cultures. The additive effect of IL-1 was apparent in the presence of saturating concentrations of cloned IL-2. Finally, Con A alone induced a detectable number of both L3T4+ and Lyt 2+ lymphocytes to express IL-2 receptors as determined with the anti-mouse IL-2 receptor antibody 7D4 by immunofluorescence and FACS analysis. Purified IL-1 neither induced detectable number of L3T4+ or Lyt 2+ T cells to express IL-2 receptors nor increased the number of Con A-treated T cells bearing IL-2 receptors. We have interpreted these findings to indicate the following: Con A alone is sufficient to induce highly purified L3T4+ and Lyt 2+ lymphocytes to express IL-2 receptors. Cloned IL-2 and purified IL-1 are required for optimal growth of L3T4+ and Lyt 2+ lymphocytes and these cytokines together efficiently replace AC in growth of T cells initiated by Con A. IL-1 alone does not replace AC in Con A-induced activation of mouse T cells. IL-1 exerts potentiation on IL-2-driven growth of Con A-treated L3T4+ and Lyt 2+ lymphocytes. The additive activity of IL-1 on growth of normal T cells is not due to increased production of IL-2 in the cultures or induction of normal T cells to expression of IL-2 receptors by IL-1. We propose that IL-1 optimizes the action and/or interaction of IL-2 with its receptors on the T-cell membrane (by, i.e., increasing affinity of the IL-2 receptor for its ligand and/or stabilizing the IL-2 receptor).