The effect of T cell growth factor on the generation of cytolytic T cells.

The development of cytotoxic effector cells through primary allogeneic mixed tumor-lymphocyte culture (MTLC) was found to be accompanied by the production of T cell growth factor (TCGF). Addition of supplemental TCGF to MTLC resulted in the generation of significantly greater quantities of effector cells, and these effector cells displayed augmented cytotoxic activity. The TCGF-induced effect could not by duplicated by the addition of fresh medium or a mitogenic concentration of concananvalin A. Although TCGF augmented the proliferation of antigen-nonreactive cells, antigen-reactive cells appeared to be preferentially stimulated by TCGF. Finally, it was shown that depletion of TCGF from MTLC resulted in an impairment of proliferation and differentiation of cytotoxic effector cells. These findings demonstrate that soluble factors are involved in the regulation of in vitro cell-mediated immune responses in an analogous manner to similar factors that have been shown to regulate humoral immune responses. Therefore, the forces affecting TCGF production may modulate the amplitude of a T cell-mediated cytolytic response.     

Monocyte-mediated augmentation of human natural cell-mediated cytotoxicity

Normal human monocytes can significantly and rapidly augment natural cell-mediated cytotoxicity (NCMC) against K562 target cells. Approximately 50% augmentation was observed after direct mixture of monocytes with autologous null cells in the 4-hr chromium-release assay. This effect was dependent on the number of monocytes, and B cells and granulocytes were not effective. Coculture of null cells with monocytes and subsequent recovery of null cells for use as effector cells also produced significantly elevated cytolytic activity. This effect was dependent upon the number of monocytes, the length of time of coculture, and the cell donor. Augmentation of NK activity was rapid and observed after 0.5-12 hr of coculture, but suppression was observed after 36 hr; augmentation was observed with high monocyte:null cell (1:1, 1:2) ratios, and no effect was generally observed with lower ratios (1:8). At the single-cell level, the augmentation was associated with an increase in the proportion of target-binding cells which were lytically active. The augmentation of NK activity by monocytes required close cellular proximity, was mediated by a factor which was active or induced only in close proximity of the effector and producer cells, and/or was mediated by a soluble factor with a molecular weight greater than 50,000. This new demonstration that monocytes can augment as well as suppress NCMC may represent another avenue by which NK cell activity may be modulated in vivo.     

Effector activity of OKT4+ and OKT8+ T-cell subsets in lectin-dependent cell-mediated cytotoxicity against adherent HEp-2 cells

The role of OKT4+ and OKT8+ T-cell subsets was studied in lectin-dependent cell-mediated cytotoxicity (LDCC) against adherent HEp-2 human epipharynx carcinoma target cells. LDCC was evaluated by detachment from the monolayer of [3H]thymidine prelabeled HEp-2 cells in a 24-hr assay with a concanavalin A (Con A) dose of 25 microgram/ml at effector:target cell ratios of 5:1, 25:1, and 50:1. Under these conditions but without Con A considerable natural cell-mediated cytotoxicity (NCMC) was not elicited; however, the cytotoxicity was significantly augmented in the presence of Con A (=LDCC) by sheep erythrocyte rosette-forming T lymphocytes and by both OKT4+ and OKT8+ T-cell fractions. LDCC activity by isolated OKT8+ T cells was superior to that by OKT4+ T cells and unfractionated T lymphocytes. By contrast, addition of either OKT4+ or OKT8+ T cells together with unfractionated T lymphocytes, or OKT4+ and OKT8+ T cells mixed at ratios of 1:1, 1:2, and 2:1, to target cells did not result in major differences in comparison of LDCC activities by these mixed effector cell populations with each other or with that by unfractionated T lymphocytes. Parallel studies were carried out to determine the effect of OKT4+ and OKT8+ T-cell subsets on the Con A-induced proliferation of peripheral blood mononuclear cells (PBMC). While OKT8+ T cells inhibited the mitogenic response to Con A, OKT4+ T lymphocytes had no major effect. A higher responsiveness of the OKT8+ to OKT4+ T-cell subset in LDCC to HEp-2 targets and in Con A-induced lymphocyte proliferation is suggested.     

Natural cell-mediated cytotoxicity in normal human peripheral blood lymphocytes and its in vitro boosting with BCG

Summary Natural cell-mediated cytotoxicity (NCMC) against K-562 human erythroleukemic cells was monitored in an overnight chromium release assay using normal human peripheral blood lymphocytes (PBL) as effector cells. Two hundred and ten normal individuals were tested from 3 to 24 times over a period of 3 years. The level of NCMC was shown to vary from 4% to 46% lysis at an effector-to-target cell ratio of 5/1; males had higher levels of activity than females (P<0.001). A group of individuals with low natural killer (NK) cell activity (below the 90% tolerance limit) was identified in replicate experiments and 60% of them were young women (ages 20–39). In vitro boosting of NK activity with Bacillus Calmette-Guérin (BCG) was also studied; overall, 56% of normal individuals responded positively to BCG. There was a significant (P<0.0001) correlation between the unstimulated level of NCMC and the in vitro boosting with BCG, as 63% of individuals with a normal level of NK activity could be boosted as against only 19% of persons with low NK activity. We have also established the in vivo relevance of this in vitro test by determining the degree of correlation between responses to in vitro boosting with BCG and a positive or negative reaction in a hypersensitivity skin test using 5 IU of PPD (purified protein derivative of BCG). Our results indicate that NCMC is an individual trait that varies little under physiological conditions, and that the response to BCG is a characteristic property of the effector lymphocyte, depending primarily on the unstimulated level of NCMC.     

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.     

Cell surface tumor necrosis factor (TNF) accounts for monocyte- and lymphocyte-mediated killing of TNF-resistant target cells

WEHI164 cells are susceptible to cytotoxicity by soluble recombinant or monocyte-derived TNF alpha, as well as to cell-mediated cytotoxicity by monocytes or lymphocytes. In contrast, K562 cells are resistant to lysis by soluble recombinant or natural TNF alpha, but are killed by monocyte or lymphocyte effector cells. Cell-mediated cytotoxicity against both target cell lines is enhanced by treatment of monocyte effector cells with recombinant interferon gamma or lymphocyte effector cells with interleukin-2. However, treatment of monocytes with LPS, or of lymphocytes with PHA, although inducing secretion of soluble TNF alpha in the medium, does not increase cell-mediated cytotoxicity. Anti-TNF alpha neutralizing antibodies partially inhibit monocyte- as well as lymphocyte-mediated cytotoxicity against WEHI164 and K562 cells. Formaldehyde-fixed effector cells are cytotoxic to both target cell lines. Cytotoxicity by fixed effector cells can be inhibited by anti-TNF alpha antibodies. The extent of cell-mediated cytotoxicity induced by treatment of effector cells with stimulators prior to fixation corresponds to the expression of TNF on monocyte membranes, but not to the titers of secreted TNF. The data suggest that membrane-associated TNF alpha may be a mechanism of human monocyte- as well as lymphocyte-mediated cytotoxicity, regardless of whether the target cells are sensitive or insensitive to soluble TNF.     

Ultraviolet light-induced increase in tumor cell susceptibility to TNF-dependent and TNF-independent natural cell-mediated cytotoxicity

Previously we demonstrated that two consecutive in vitro irradiations of MCA 102 cells with high doses of UVC light (610 and 457 J/m2) resulted in a selection of a permanent line MCA 102UV that manifested high sensitivity to natural cell-mediated cytotoxicity (NCMC). In the present study analysis of the effector cells involved in lysis of these tumor cells was performed by comparing the cytotoxicity of normal spleen cells which mediated both NK and NC cell activity with (a) normal spleen cells in which NC activity was neutralized by anti-TNF Abs (NK+,NC-), (b) NK-depleted or NK-deficient spleen cells (NK-,NC+), and (c) NK-deficient or -depleted spleen cells with NC activity neutralized by anti-TNF Abs (NK-,NC-). Results of these studies indicate that lysis of the original MCA 102 tumor cells was relatively low and was mediated by NC cells. UV irradiation significantly increased MCA 102 tumor cell sensitivity to lysis by both NK and NC cells. Analysis of the mechanisms involved in UV-induced NK sensitivity revealed that UV irradiation increased tumor cell susceptibility to lytic NK-derived granules. NC sensitivity of MCA 102UV tumor cells was associated with their increase in sensitivity to TNF and selection of MCA 102UV cells for resistance to rTNF resulted in a decrease in their susceptibility to NC cells. To determine how fast UV-induced sensitivity to NCMC and rTNF can be established, 51Cr-labeled MCA 102 cells were irradiated in vitro with 38-304 J/m2 of UVC light and their sensitivity to lysis by spleen cells and rTNF was tested immediately in an 18-hr cytotoxicity assay. UV treatment with the same doses was repeated 12 days later. The data obtained showed that tumor cell sensitivity to NCMC and TNF appeared shortly after UV irradiation, was stable, and was further substantially augmented by the second round of UV treatment. Thus, in vitro UV irradiation of tumor cells could be an effective modulator of tumor cell sensitivity to TNF-dependent and TNF-independent cell-mediated cytotoxicity.     

In vitro induction of polyclonal killer T cells with 2-mercaptoethanol and the essential role of macrophages in this process.

Killer T cells against allogeneic and syngeneic tumor cells were generated in vitro by the addition of 2-mercaptoethanol (2-ME) to the murine spleen cell culture in the absence of any antigenic stimulation. The maximum activity of T cell-mediated cytotoxicity (CMC) induced with 2-ME was observed on day 4 of culture and the induction of CMC was completely inhibited by the addition of inhibitor of DNA synthesis, hydroxyurea, or cytosin arabinoside. CMC induced with 2-ME was specifically inhibited by the addition of unlabeled target cells to the 51Cr-release assay system. These results indicated that killer T cells were generated in the presence of 2-ME as a result of nonspecific polyclonal activation of precursors into cytotoxic effector cells and that they recognized target cells with antigen-specific recognition receptors. Spleen cells deprived of adherent cells showed impaired induction of CMC with 2-ME. The addition of peritoneal exudate macrophages to splenic T cells restored this response. The result indicated that macrophages were essential for the induction of CMC with 2-ME. The possibility that the function of macrophages was mediated by soluble factor(s) released from macrophages was demonstrated by the separate culture of splenic T cells and macrophages in double-chambered, Marbrook-type vessels and by the addition of supernatants from macrophage cultures to splenic T cells. 2-ME and soluble factor(s) released from macrophages seemed to be required for the activation of precursors into killer cells.     

Adherent cell requirement for PWM-stimulated factor suppression of natural killer cytotoxicity

Natural killer cytotoxicity is enhanced in a 5-day mixed-leukocyte culture (MLC). This augmentation of NK can be suppressed by factor released from pokeweed-mitogen (PWM)-activated peripheral blood cells. To maximize activity, the PWM-soluble factor must be present within the first 6 hr of the MLC, and is required to be in the culture for at least 4 hr. The affect of the PWM factor is not due to the destruction of either effector or stimulator cells. This factor does, however, require the presence of an adherent, non-T cell in the effector population. Directly incubating adherent cells with the PWM-induced soluble factor activates this population to mediate suppression. Thus the adherent cells are required for the PWM-induced suppression of NK cytotoxicity, indicating a possible regulatory mechanism for this cytotoxicity.     

Differential sensitivity to natural cell-mediated cytotoxicity of two rat colon adenocarcinoma variants differing in their tumorigenicity: identification of the effector cells as natural killer cells

Summary DHD/K12 TRb (PROb) and DHD/K12 TSb (REGb) are two cancer cell variants originating from the same rat colon adenocarcinoma. They differ in their tumorigenicity: when inoculated into syngeneic BDIX rats, PROb cells induce progressive tumors whereas REGb cells induce tumors which always regress. As previously described, there is an inverse relation between their tumorigenicity and their susceptibility to NCMC mediated by syngeneic spleen or peripheral blood lymphocytes: PROb cells are significantly less sensitive to NCMC than REGb cells. This suggests a role for NCMC in the regression of REGb tumors. In this work the BDIX NCMC effector cells active in vitro against REGb cells were identified as NK cells according to four criteria: (1) efficacy in a 4-h ⁵¹Cr release assay, (2) sensitivity to anti-asGM1 antibody plus complement, (3) LGL morphology, and (4) ability to bind with the same affinity REGb and YAC-1 cells. In spleen, these NK cells were heterogeneous with respect to their asGM1 surface density and their morphology. PROb cells were not lysed by these NK cells in a short-term cytotoxicity assay, but only in a 16-h assay. It was shown that PROb and REGb cells were bound with the same affinity by NK cells, thus they certainly differ in their ability to resist to NK lytic mechanisms. This difference could play a role in the different tumorigenicity of the two variants. Abbreviations used: NK, natural killer; NC, natural cytotoxic; NCMC, natural cell-mediated cytotoxicity; asGM1, asialo GM1; LL, large lymphocytes; LGL, large grnular lymphocytes; LAL, large agranular lymphocytes; PBMNC, peripheral blood mononuclear cells; E:T, effector to target cell ratio; C:H, cold to hot cell ratio; FBS, fetal bovine serum     

Tuftsin: a naturally occurring immunopotentiating factor. I. In vitro enhancement of murine natural cell-mediated cytotoxicity

Tuftsin is a physiologic tetrapeptide, which has recently been shown to possess immunoadjuvant properties including the stimulation of macrophage and granulocyte phagocytosis, migration, bactericidal, and tumoricidal activities. Tuftsin has also been reported to possess in vivo immunologically mediated anti-tumor potential. To determine the potential role of tuftsin as an antineoplastic immunoadjuvant, the in vitro effects of tuftsin on murine natural cell-mediated cytotoxicity were studied. We observed that in vitro treatment of mouse splenic effector cells with synthetic tuftsin induced a pronounced enhancement of natural killer cell (NKC) cytotoxicity against the T cell lymphoma Yac-1. The magnitude of NKC enhancement was directly dependent upon the concentration of tuftsin employed, with maximum NKC stimulation observed at tuftsin concentrations of 50 to 100 microgram/ml. The tuftsin induced enhancement of NKC activity was not strain specific, since equivalent stimulation was seen in CBA/J, C56BL/10, and DBA/2 mice. Elimination of macrophages, monocytes, T cells, and immunoglobulin-bearing cells had no effect on the dose-dependent tuftsin stimulation of natural cell-mediated cytotoxicity; thus the characteristics of the effector cells activated by tuftsin were consistent with those reported for NKC. We also observed that treatment of splenic effector cells with tuftsin prolonged the cytotoxic capabilities of these cells beyond 18 hr.     

In vitro enhancement of human natural cell-mediated cytotoxicity by purified influenza virus glycoproteins.

The role of the glycoproteins of influenza virus, hemagglutinin (HA), and neuraminidase (NA) in the in vitro stimulation of natural cell-mediated cytotoxicity (NCMC) or natural killer activity of human peripheral blood lymphocytes was evaluated with radiolabeled K562 cells as target cells in an overnight chromium release assay. Three different approaches were used. (i) Purified viral proteins were obtained by extraction with Nonidet P-40, separation on a sucrose gradient, and further purification by affinity chromatography. Ficoll-Hypaque-purified peripheral blood lymphocytes exposed to HA or NA individually or to a mixture of both significantly increased NCMC (32 to 50%). (ii) Treatment of HA and NA with their respective homologous antisera or F(ab')2 antibody abrogated the stimulation of NCMC by these glycoproteins. (iii) Virions treated with proteolytic enzymes resulted in viral cores lacking either HA or NA or both activities. Compared to whole virions, viral cores devoid of HA activity only induced a 50% increase in NCMC, whereas viral cores lacking HA activity and with traces of NA activity stimulated only 10% of the NCMC. These results suggest that influenza virus-induced cell-mediated cytotoxicity is largely due to its glycoproteins.     

Augmentation of human natural cell-mediated cytotoxicity by recombinant human interleukin 2

Human peripheral blood mononuclear cells (PBMC) demonstrated increased natural cell-mediated cytotoxicity (NCMC) activity after only 5 min of exposure to purified recombinant human IL 2 or interferon (IFN)-gamma. The mechanism of NCMC augmentation by treatment with IL 2 is not entirely dependent on IFN-gamma production because: a) IL 2 was found to augment NCMC activity at levels which did not induce detectable IFN-gamma; b) IL 2 required only 5 min of exposure to PBMC to augment NCMC activity, whereas 3 hr of contact were required to demonstrate detectable IFN-gamma levels; c) the levels of NCMC enhancement by treatment with IL 2 exceeded the amount of NCMC enhancement that could be due to IFN alone; d) anti-recombinant IFN-gamma, which totally eliminated the augmentation of NCMC enhancement by IFN-gamma, only partially reduced the augmentation of NCMC activity by IL 2; and e) combination treatment of PBMC with IL 2 and IFN-gamma resulted in a synergistic enhancement of NCMC. The results strongly support the conclusion that augmentation of NCMC by IL 2 and IFN-gamma involve overlapping mechanisms.     

Susceptibility to lysis by natural killer and natural cytotoxic cells is independent of the mitotic stage of the target cell cycle

Natural cell-mediated cytotoxicity (NCMC) against a number of target cells is mediated by at least two distinct effector populations, with natural killer (NK) and natural cytotoxic (NC) cells being the predominant in the murine system. The studies described in this report examine the role that the phase of the mitotic cycle of the target cell has on its susceptibility to lysis by NC and NK cells. We show that neither the kinectics nor the magnitude of NC cell lysis is altered when assayed using target cells which have been enriched for G1, S, or G2 + M stages of the cell cycle. Similarly, NK cell lysis by fresh or poly-IC augmented effector cells was not effected by target Cell Cycle.     

Indomethacin does not influence natural cell-mediated cytotoxic response to endurance exercise.

Natural cell-mediated cytotoxicity (NCMC) has been shown to be attenuated during recovery from high-intensity or prolonged exercise. Two theories have been proposed to explain the transient suppression of NCMC: prostaglandin-induced inhibition of natural killer (NK) cell activity or a numerical redistribution of NK cells. This study was designed to examine the effects of oral indomethacin (a prostaglandin inhibitor) on NCMC before and after 1 h of high-intensity running (85% maximal oxygen uptake). A secondary purpose was to compare whole blood and isolated peripheral blood mononuclear cell assay procedures for assessing NCMC. Ten male distance runners completed two trials that were preceded by either 48 h of indomethacin (Indo; 150 mg/day) or no treatment (control). NK (CD3(-)/CD16(+)/CD56(+)) cell concentrations were significantly elevated postexercise but were not affected by Indo. NCMC was significantly suppressed at 1.5 h of recovery relative to preexercise only with the whole blood assay procedure. Indo was not found to influence NCMC, leukocyte, or lymphocyte subset concentrations. Mean cytotoxic response was significantly greater with the whole blood method.     

Kupffer cells modulate natural killer cell activity in vitro by producing prostaglandins

The effect of Kupffer cells on natural killer (NK) cell-mediated cytotoxicity was examined. Kupffer cells prepared from rat liver suppressed NK activity against K562 cells and other tumor cell lines through a soluble factor secreted into the culture supernatant. When human peripheral blood mononuclear cells were incubated with the Kupffer cell-culture supernatant, a significant reduction of the cytotoxic activity was observed in the 6-hr chromium-release assay. This activity was dose dependent and was evident at various effector/target cell ratios. Lipopolysaccharide stimulated generation of the suppressive factor released from Kupffer cells in a dose-dependent manner. Suppression of the NK activity was observed when the Kupffer cell-culture supernatant was present in the assay system, whereas pretreatment of effector/target cells with the supernatant had minimal inhibitory effects. Autologous monocytes in human peripheral mononuclear cells were not related to this suppression. The suppressive factor in the fraction had a molecular weight below 10,000. Indomethacin, an inhibitor of prostaglandin synthesis, ameliorated the suppressive effects. These results suggest that Kupffer cells may modulate NK activity by producing PGs (E1, E2, and F2 alpha).     

The effects of hexose 6-O-sulfate esters on human natural killer cell lytic function

Natural cell-mediated cytotoxicity (NCMC) is inhibited by some neutral hexoses and hexose phosphates at 25 to 100 mM concentrations. In this study we describe the effects of hexose 6-O-sulfate esters on NCMC against K-562 target cells. Mannose 6-sulfate, galactose 6-sulfate, N-acetylglucosamine 6-sulfate, and N-acetylgalactosamine 6-sulfate inhibit NCMC in a dose-dependent manner at concentrations of 10 mM and below. Inhibitory effects of mannose 6-sulfate and galactose 6-sulfate were evident at concentrations as low as 1.25 mM. The neutral forms of these sugars, glucose and glucose 6-sulfate, did not inhibit NCMC over this range of concentrations. Comparison of the inhibitory effects of sulfated and phosphorylated forms of mannose and galactose indicated that the sulfated forms are much more potent inhibitors. Formation of effector cell:target cell conjugates was unaffected by the presence of sugar sulfates. Calcium pulse experiments demonstrated that inhibitory effects of sugar sulfates were exerted after the Ca++-dependent triggering step in the NK lytic process. Kinetic studies showed that addition of sugars as long as 60 min after initiation of cultures yielded potent inhibitory effects. Sugar sulfates were not toxic for effector cell populations and effectors were not refractory for lytic function after removal of sugars. Sugar sulfates were inhibitory against multiple tumor types in both human and murine NK lytic assays. These results suggest that the sugar sulfates inhibit NK cells at a postconjugation, posttriggering step involving lectin-like receptors or lectin-like molecules.     

Role of tumor necrosis factor in monocyte/macrophage tumor cytotoxicity in vitro

The ability of activated monocytes/macrophages to exert cytotoxic effects in vitro which are preferentially manifest on target cells displaying a transformed phenotype has elicited intense efforts aimed at a molecular characterization of the underlying mechanism. This multistep reaction is typified by an apparently stringent requirement for conjugation between the effector and target to facilitate cytotoxicity, which has therefore long caused bias against the role of soluble effector molecules in mediating target cell damage. However, several laboratories have recently demonstrated a compelling role for at least one such mediator, tumor necrosis factor (TNF), in cell-mediated cytotoxicity exerted against certain target cells; these studies indicated that specific anti-TNF antibodies could block direct monocyte/macrophage-mediated cytotoxicity of TNF-sensitive targets. More recently we have shown that some targets which are completely resistant to soluble or fluid-phase TNF are effectively lysed by a TNF-dependent mechanism upon coculture with activated macrophages under conditions in which conjugation is facilitated. Furthermore, macrophage-mediated cytolysis of both TNF-sensitive and TNF-resistant targets occurs independently of the action of secreted TNF via this mechanism. The purpose of this review is to consider the implications of distinct modes of effector cell delivery of TNF to the target for molecular characterization of the target injury phase of macrophage-mediated tumor cytotoxicity.     

Suppression of B cell MIF production by T cells and soluble T cell-derived factors.

Purified populations of guinea pig B cells from nonimmunized animals may be stimualted by PPD or LPS to produce MIF. Unfractionated lymphocyte suspensions from these animals do not produce MIF under these conditions. Reconstitution of B cells with T cells abolishes their ability to generate detectable MIF. A soluble factor obtained from stimulated T cell cultures (MIFIF) is also capable of suppressing this B cell activity. Thus suppressor T cells can interfere with lymphokine production by B cells and this effect is mediated at least in part by a soluble factor. This previously undescribed capacity of T cells may provide an explanation for the fact that B cells do not appear to play a role in reactions of cell-mediated immunity in vivo.     

Cytotoxic lymphokines produced by cloned human cytotoxic T lymphocytes. I. Cytotoxins produced by antigen-specific and natural killer-like CTL are dissimilar to classical lymphotoxins

Several cloned lines of IL 2-dependent human T cells derived from alloantigen, mitogen, or IL 2-stimulated peripheral blood lymphocytes were examined for their surface marker expression, cytolytic activity in a 51Cr-release assay, and capacity to release cytotoxic lymphokines. Thirty cell lines exhibiting either antigen-specific natural killer cell activity or lectin-dependent killer cell function, which expressed either the CD4 or CD8 surface differentiation markers, were capable of producing cytotoxin(s) in response to the lectins phytohemagglutinin and concanavalin A. Cytotoxin activity was detected on the murine L929 target cell in a 16-hr cytotoxicity assay. In contrast, several nonlytic T cell tumor lines failed to produce a soluble cytotoxin. Antibodies capable of neutralizing human alpha-lymphotoxin were completely ineffective in inhibiting the cytotoxin(s) produced by any of the cytotoxic T lymphocytes (CTL) cell lines. Comparative gel filtration and HPLC hydrophobic chromatography of alpha-lymphotoxin and CTL toxin produced by the CTL-830.B2 clone revealed significant differences in their elution profiles. The CTL-produced toxin and alpha-lymphotoxin exhibited similar kinetics of lysis of the L929 target cells, with 50% target cell lysis occurring at 10 hr. These data indicate human CTL produce a cytotoxin(s) antigenically distinct from alpha-lymphotoxin and imply that human cytolytic effector T cells are not the cellular source for the production of human alpha-lymphotoxin. The relationship of alpha-lymphotoxin and CTL toxin production was investigated in unseparated peripheral blood mononuclear cells stimulated with lectins or IL 2 for 1 and 5 days. Anti-alpha-lymphotoxin antibodies were capable of neutralizing only 30 to 50% of the cytotoxic activity in 24-hr supernatants. Cytotoxic activity in supernatants harvested after 120 hr stimulation with PHA or Con A was neutralized 70 to 100%, whereas the toxin(s) released from IL 2-stimulated lymphocytes was only neutralized 30%. These data suggest the observed heterogeneity of cytotoxic lymphokines produced by unseparated mononuclear cells depends in part on the subpopulations of effector cells responding to a given stimulus and the capacity of different subpopulations to produce distinct cytotoxins.