Natural killer cell activity in mice infected with Acanthamoeba culbertsoni]

The natural killer cell activity of splenocytes and TBC, active NK cells, recycling capacity of natural killer cells were observed by means of both the 51Cr-release cytotoxicity assay and single cell cytotoxicity assay against YAC-1. C3H/HeJ mice were infected intranasally with 1 x 10(4) or 1 x 10(5) trophozoites of pathogenic Acanthamoeba culbertsoni. The infected mice showed mortality rate of 34% in 1 x 10(4) group and 65% in 1 x 10(5) group, and mean survival time was 16.40 +/- 3.50 and 13.20 +/- 4.09 days respectively. The cytotoxic activity of natural killer cells of the 2 groups was significantly higher than that of non-infected mice from the 12th hour to the 2nd day after infection, showing the highest on the first day. On the 10th day after infection, the cytotoxic activity of natural killer cells was significantly suppressed as compared with that of the control. There was no significant difference in NK cell cytotoxicity between two infected groups. The target-binding capacity and active NK cells of natural killer cells in 1 x 10(5) trophozoite infected mice was significantly increased on the 12th hour and the first day after infection as compared with the control group. Maximal recycling capacity (MRC) was not changed during the observation period. The present results indicated that the elevation of natural killer cell activity in the mice infected with A. culbertsoni was due to elevation of target-binding capacity and increased active NK cells of natural killer cells, and not due to the maximal recycling capacity of the individual NK cell, and there was no difference between two experimental dose groups.     

Induction of tumor cytotoxic immune cells using a protein from the bitter melon (Momordica charantia)

The fruit and seeds of the bitter melon (Momordica charantia) have been reported to have anti-leukemic and antiviral activities. This anti-leukemic and antiviral action was associated with an activation of murine lymphocytes. A partially purified protein factor from the bitter melon caused an infiltration and activation of peritoneal exudate cells in C57B1/6J, C3H/HeJ, and C3H/HeN mice. When the extract was injected twice a week at 8 micrograms of protein per ip injection for 0-4 weeks, the peritoneal exudate cells from the treated mice were cytotoxic in a long-term (18-hr) 51Cr-release assay against a range of labeled targets: L1210, P388, and MOLT-4 tumor cells. Cytotoxicity was also observed against YAC-1 targets in a short-term (4-hr) assay. Fractionation of the cytotoxic immune cells implicated a nonadherent cell population which was capable of killing an NK-sensitive cell line in a 4-hr 51Cr-release assay. Unit gravity sedimentation studies indicated that the cytotoxicity was due to either a neutrophil or a large lymphocyte. Antibody depletion experiments using antibody to asialo GM1, an NK cell-specific antibody, depleted cytotoxicity observed in nonadherent, Ficoll/Hypaque-separated PEC. This suggests that at least part of the anti-leukemic activity of the bitter melon extract is due to the activation of NK cells in the host mouse.     

Cytotoxic T cells in the peritoneal cavity of mice infected with ectromelia virus.

Peritoneal exudate cells from mice infected with ectromelia virus were cytotoxic for virus-infected target cells as measured in a 51Cr release assay. Cytotoxic activity seemed to be T cell-dependent as it was largely abolished by treatment with anti-theta serum and complement but was not impaired by macrophage depletion. The kinetics of development of cytotoxicity in the peritoneal cavity lagged behind spleen cytotoxicity by 1-2 days. Peak activity in peritoneal cells was present about 6 days after intravenous infection with virus. These studies suggest that macrophages present in the free peritoneal cell populations of ectromelia-infected mice are not cytotoxic for virus-infected target cells. The effect of macrophages in virus clearance is therefore likely to be due to phagocytic rather than cytotoxic effects.     

Natural killer cell activity in Naegleria fowleri infected mice]

The natural killer (NK) cell activity of splenocytes and recycling capacity of NK cells were observed by combining the 51Cr-release cytotoxicity assay and single cell cytotoxicity assay against YAC-1. The ICR mice were infected intranasally with Naegleria fowleri, that is a pathogenic free-living amoeba. The mice infected with 1 x 10(5) trophozoites showed mortality rate of 76.7% and mean survival time of 12.9 days. The cytotoxic activity of NK cells in infected mice was significantly higher than that of non-infected mice during the period between 12 hours and day 3 after infection, and highest on day 1. The target-binding capacity of NK cells in infected mice was not different from that of non-infected ones. Maximal killing potential and maximal recycling capacity were remarkably increased in infected mice as compared with the control. The results obtained in this observation indicated that elevated NK cell activity in mice infected with N. fowleri was not due to target-binding capacity of NK cells but due to the increased activity of NK cells and increased recycling capacity of individual NK cells.     

Natural cytotoxic reactivity of human lymphocytes against a myeloid cell line: characterization of effector cells.

Using a series of techniques to identify and deplete various peripheral blood lymphocyte subpopulations, we studied the cytotoxic reactivity of normal individuals against the myeloid cell line K-562 in a 4-hr 51chromium-release assay. Depletion of lymphocytes bearing complement receptors had a variable, usually negligible effect on cytotoxicity. In contrast, depletion of lymphocytes bearing Fc receptors abrogated target cell lysis. Separation of lymphocytes with high-affinity binding of sheep red blood cells (SRBC) evidenced by rosette formation at 29 degrees C yielded a population of rosette-forming cells containing few cytotoxic cells, whereas separation of total E-RFC under optimal rosetting conditions produced a rosette fraction containing a major proportion of the effector cells. These data indicate that the cytotoxic lymphocyte in this system is Fc receptor positive, largely complement receptor negative, and may possess low density or low affinity receptors for SRBC.     

Natural cytotoxicity of lymphocytes and monocytes and its augmentation by OK432 in melanoma patients

Summary Lymphocytes and monocytes from the peripheral blood of 30 patients with malignant melanoma were tested for natural cytotoxicity against K562 cells in a 3-h ⁵¹Cr-release assay, and the effects of OK432 (a streptococcal preparation) on the cytotoxicity were examined. The lymphocyte cytotoxicity of melanoma patients was similar to that of normal donors and control patients with benign skin disease. Furthermore, the lymphocyte cytotoxicity of melanoma patients was not correlated to the stage of the disease. Similarly, lysis of K562 cells by monocytes isolated by adherence to autologous serum-coated plastic dishes in melanoma patients was comparable to that of controls and not associated with the stage of the disease. Positive monocyte reactions were recorded in 10 of 30 (33%) melanoma patients, seven of 21 (33%) normal donors and three of 10 (30%) control patients. There was no correlation between lymphocyte cytotoxicity and monocyte cytotoxicity. Overnight treatment of monocytes and lymphocytes with OK432 resulted in an increase in cytotoxicity. Significant augmentation of cytotoxicity by OK432 was observed in 28% of the monocyte samples and 86% of the lymphocyte samples, while partially purified human interferon augmented cytotoxicity in 63% of the monocyte samples and all the lymphocyte samples. These results suggest that neither lymphocyte nor monocyte cytotoxicities are depressed in melanoma patients as compared with normal donors and patients with benign disease and that OK432 has a stronger stimulatory effect on lymphocytes than on monocytes.     

Purification and target cell range of in vivo elicited blast natural killer cells

Blast natural killer (NK) cells were elicited in the spleens of mice by treatments with the interferon inducers lymphocytic choriomeningitis virus (LCMV) or polyinosinic-polycytidylic acid (poly I:C). The blast-NK cells, separated on the basis of size by centrifugal elutriation, were compared with blast cytotoxic T lymphocytes (CTL) generated during infection with LCMV. In vivo treatments with antibody to asialo GM1 (AGM1) blocked the appearance of blast-NK cells but not blast-CTL. Antibody and complement depletion experiments indicated that the blast-NK cells were AGM1+, NK 1.2+/-, Lyt-5+/-, Thy+/-, Qa-5/NK 1.1+, Lyt-2-, B23.1-, and J11d-. Blast-NK cells could be unequivocally distinguished from blast-CTL, because the blast-CTL were completely sensitive to treatments with anti-Lyt-2 and complement, whereas the blast-NK cells were completely resistant. The blast-NK cells were purified from populations of large-size cells by antibody and complement treatments that depleted the co-eluting monocyte/macrophages and polymorphonuclear leukocytes. The population resulting after separation from dead cells over Percoll gradients represented approximately 1% of the total spleen cells, contained greater than 60% large granular lymphocytes and mediated greater than 15% killing of YAC-1 target cells in a 4-hr 51Cr release assay at an effector to target cell ratio of 1:1. The purified blast-NK cells lysed a broad range of target cells at relatively low effector to target cell ratios. The order of sensitivity of the target cells was YAC-1 much greater than K562 approximately equal to L-929 much greater than P815, consistent with that reported for NK cell-mediated lysis. The ability of the blast-NK cells to mediate lysis of NK cells also was examined. The purified NK cells mediated significant levels of lysis against the NK-like cloned line, NK1B6B10, in a 51Cr release assay. Furthermore, the purified blast-NK cells mediated lysis of bound blast-NK cells in a single-cell agarose assay. These results indicate that highly purified blast-NK cells are exceptionally efficient at mediating lysis and suggest that NK cells may act to negatively regulate the proliferation of NK cells by lysing other NK cells.     

Enhanced lysis of herpes simplex virus type 1-infected mouse cell lines by NC and NK effectors

Spontaneously cytotoxic murine lymphocytes lysed certain cell types infected by herpes simplex virus type 1 (HSV-1) better than uninfected cells. The levels of virus-directed lysis varied widely from target to target, and we found that differences in virus-directed lytic efficiency could be attributed both to the characteristics of HSV-1 replication in the different targets and to the subgroup of natural effector cells which mediated lysis. Although HSV-1 adsorbed to the surface of all the target cells, those in which the virus replicated more efficiently were lysed to a greater extent. As targets, we used cell lines that, when uninfected, were spontaneously lysed by NK cells (YAC-1) or by NC cells (WEHI-164). We also used a fibroblastoid cell line (M50) and a monocytic tumor line (PU51R), which were not spontaneously killed. Using complement-mediated elimination of Qa-5-positive or asialo-GM1-positive NK cells to distinguish NK from NC activity, we found that NK cells lysed HSV-1-infected YAC cells better than uninfected cells, and an NC-like activity selectively lysed HSV-1-infected WEHI cells. In addition, we showed that both NK and NC cytotoxicities contributed to the lysis against the HSV-1-infected fibroblastoid line, M50, but the infected PU51R cells were killed by only NK effectors. These findings were consistent with the results of experiments performed to define the role of interferon in induction of virus-augmented cytolysis. Increased lysis of YAC-HSV and PU51R-HSV was entirely due to interferon activation and was completely abolished by performing the 51Cr-release assay in the presence of anti-interferon serum. Because NC activity was not augmented by interferon, virus-enhanced NC lysis of M50-HSV and WEHI-HSV was not due to this nonspecific mechanism. Together, our data show that HSV-1 infection of NK/NC targets induces increased cytotoxicity, but the effector cell responsible for lysis is determined by the uninfected target, or by an interaction between the virus and target cell, rather than by a viral determinant alone.     

Cytotoxic action of natural killer cells on human tumor cells

Natural killer cell cytotoxicity was studied in a 18-hour 51Cr-release assay in the cultures of human tumor target cells: K562 leukemia and lung adenocarcinoma (LAC) cells. The mean cytotoxic value was similar for K562 and LAC cells: 36.13 +/- 3.23% and 40.78 +/- 3.43%, respectively, although significant individual variability was recorded. The similar cytolytic action of blood mononuclear cells (MNC) on the two tumor lines was observed in 30% of normal donors. MNC from 30% donors produced more pronounced lytic action on K562 cells while MNC from other 30% donors lysed mainly LAC cells. In the competitive inhibition test cold K562 cells more effectively than cold LAC cells suppressed the MNC-induced lysis of both K562 and LAC cells.     

Lymphocyte cytotoxicity to influenza virus-infected cells. II. Requirement for antibody and non-T lymphocytes.

Peripheral blood lymphocytes (PBL) obtained from humans were cytotoxic for influenza virus-infected target cells. The PBL were shown to have associated influenza virus anti-hemagglutinin antibody (AHAb) detectable only by radioimmunoassay. This antibody could be removed by incubating PBL at 37 degrees C for 30 min. The lymphocyte population that was effective in this system was nonadherent and nonphagocytic cells. PBL gave comparable levels of cytotoxicity when tested by using either a xenogeneic or allogeneic virus-infected target cell. These results indicate that lymphocyte cytotoxicity to influenza virus infected cells may be mediated by small quantities of antibody and by lymphocytes that possess characteristics of K cells. No evidence for T cell-mediated cytolysis was found with this xenogeneic system.     

Interleukin-2- and mitogen-activated NK-like killer cells from highly purified human peripheral blood T cell (CD3+ N901-) cultures

In this study, highly purified (HP) CD3-positive N901-negative T lymphocytes could be induced to become natural killer (NK)-like in culture in the presence of recombinant interleukin-2 (rIL-2) and phytohemagglutinin (PHA). Thus, purified CD3+ N901- T cells from fresh human peripheral blood were obtained by negative selection using an indirect panning technique. To ensure that T lymphocyte fractions were completely devoid of any detectable NK cells, two additional purification procedures were employed: incubation of post-pan T cells with the NK-cytotoxic lysomotropic agent L-leucinemethylester, and complement-mediated lysis using the NK cell specific NKH1a monoclonal antibody. Purity of CD3+ N901- cells could be confirmed by surface marker analysis, whereby two NK-associated antigens, N901 and H-25, were undetectable, while 94 +/- 1% of cells expressed the CD3 (Leu-4) antigen. On functional analysis, fresh HP CD3+ N901- cells exhibited no cytotoxic activity against the standard NK target K562. When HP NK-depleted T lymphocytes were cultured for 7 days in the presence of rIL-2 (100 U/ml), neither surface antigen expression nor cytotoxic activity against K562 changed significantly. However, significant cytotoxicity against K562 [18 +/- 5% specific lysis at 25:1 effector:target (E/T) ratio] could be induced when HP CD3+ N901- cells were grown for 7 days in the presence of rIL-2 and PHA (0.5% v/v). Concomitantly, antigens N901 and H-25 were found to be coexpressed on a minor proportion (22 +/- 16 and 22 +/- 6%, respectively) of CD3+ (88 +/- 2% on day 7) cells. Four-week long-term culture of HP NK-depleted T cells in the presence of rIL-2 and PHA yielded a continuous increase in cytotoxicity against K562 cells (0 up to 46% specific lysis at 25:1 E/T ratio). Of particular interest was the emergence of cytotoxicity against the NK-resistant Daudi cell target (15 +/- 8% specific lysis at 25:1 E/T ratio on day 21). Expression of antigens N901 and H-25 as well as CD3 remained essentially unchanged in long-term culture. In sorting experiments, the H-25+ cell fraction was significantly enriched for cytotoxicity against K562, when compared to both H-25- and unseparated cell fractions. In summary, our results suggest that a proportion of HP CD3+ N901- T lymphocytes may give rise to cells that exhibit NK-like functional and phenotypic properties.     

Natural cytotoxicity against mouse hepatitis virus-infected cells. II. A cytotoxic effector cell with a B lymphocyte phenotype

The effector cell in mouse spleen which mediates natural cytotoxicity against mouse hepatitis virus (MHV)-infected target cells was characterized. The target cells were MHV-infected BALB/c 3T3, and the assay time was 3 hr. The effector cell, designated virus killer (VK) cell for the purpose of discussion, had the following phenotype: lymphocyte morphology, plastic-nonadherent, nylon wool-adherent, nonphagocytic, cyclophosphamide-sensitive; by antibody plus complement (C) depletion studies, it was asialo GM1-, NK 1.2 alloantigen-negative, Thy-1.2-, Lyt-5-, and macrophage antigen-negative; by rosetting techniques, it was Fc receptor-positive and surface Fab+; by flow cytometry (FACS) analysis, it was Lyt-2-, MAC-1-, Ia+, IgG (gamma)+, IgM (mu)+, IgD (delta)+, and B cell lineage antibody B-220+. NK cells, measured for cytotoxicity on YAC-1 cells, were similarly tested and were found to differ from the VK cell in the following properties: nylon wool-nonadherent, asialo GM1+, NK alloantigen-positive, Lyt-5+, surface Fab-, MAC-1+, Ia-, IgG-, IgM-, IgD-, and B-220-. The VK effector cell had a phenotype highly distinguishable from NK cells, effectors most commonly associated with antiviral natural cytotoxicity. The VK cell had a phenotype identical to that of a B lymphocyte and was identified as such. Although the effector cells displayed cell surface antibody, the antibody did not appear to be involved in lysis, because lysis could not be blocked by F(ab)'2 directed against Fab, mu, or delta. Cytotoxicity was more likely associated with recognition of the B lymphocyte surface by the MHV glycoprotein E2, as shown in the accompanying companion paper. This is the first demonstration that natural cytotoxicity can be mediated by B lymphocytes.     

Methods for amplifying the induction and expression of cytotoxic response in vitro to syngeneic and autologous freshly-isolated solid tumors of mice

Summary Spontaneously arising tumors are frequently poorly immunogenic and exhibit a limited capacity to induce cytotoxic effector lymphocytes. In the present study, various approaches have been used to amplify the induction and expression of cytotoxic responses in vitro toward freshly isolated, autologous, and syngeneic solid neoplasms of spontaneous origin in mice. Cytotoxic lymphocytes were generated in one-way mixed lymphocyte-tumor cell cultures (MLTC) consisting of splenocytes or lymph node cells from normal and from tumor-bearing mice co-cultured with inactivated tumor cells. Optimal culture conditions have been established for the number of responder (R) cells, the method of inactivation of the stimulating (S) tumor cells, the responder/stimulator (R/S) cell ratio, and the duration of sensitization. Under optimal sensitization conditions only weak cytotoxic responses, as measured by the ⁵¹Cr-release assay, were generated. The antitumor cytotoxic activity could be augmented 2- to 12-fold by using each of the following procedures: (a) addition of crude or of partially purified interleukin-2 (IL-2) to the sensitization cultures; (b) depletion of nylon-adherent cells from the responding cell population; (c) enrichment of large lymphoblasts from the sensitized effector cell population by Percoll density gradient; and (d) treatment of mice donating the responder lymphocytes with low doses of either cyclophosphamide, adriamycin, or indomethacin. Although the highly reactive effector cells generated under the improved conditions also reacted appreciably with unrelated tumor target cells, only low levels of cytotoxicity could be demonstrated against normal target cells. The antitumor cytotoxic cells in sensitized splenocyte cultures were exclusively Thy1⁺, Lyt1^–2⁺, whereas in lymph node cell cultures some cytotoxicity was also exerted by Thy1⁺, Lyt1⁺2⁺ cells.     

Susceptibility of the human promyelocytic cell line HL-60 to an endogenous antileukaemic factor in suspension cultures

HL-60 human leukaemic cell line a suitable homogeneous target population for the selective endogenous inhibitor of myelopoiesis, isolated in our laboratory, was submitted to multiparameter analysis of cell proliferation in suspension cultures. As detected by 3H-TdR incorporation, a single dose of the regulator elicited a 6 to 8 hours arrest of DNA synthesis. The inhibition could be prolonged by repeated applications. As affected by the factor, alteration of population kinetics is characterized, revealed by flow cytofluorometric analysis, in G1 arrest of a fraction of cells, and diminishing those in hyperdiploid and tetraploid stage. 51Cr-release detection of vitality proved, that the endogenous factor, chemically determined as nucleopeptide, affected non-toxically and reversibly HL-60 cell proliferation.     

Comparison between clonogenic and cytotoxic assays for measuring LAK cell activity

The antiproliferative effect of lymphokine-activated killer (LAK) cells was studied using a clonogenic assay in an attempt to find a model for predicting this effect in vivo or ex vivo (in the case of purging) in cancer treatment. The results were compared with the standard 51Cr-release cytotoxic assay. Cells from clonogenic neoplastic cell lines (K562 and HL-60) were plated in methylcellulose with LAK cells obtained from ten different donors in various effector-to-target (E:T) ratios. At E:T ratios of 16:1, elimination of greater than 90% of the clonogenic cells was seen in 20 of 21 experiments, whereas such lysis was incidentally found in the 51Cr-release assay. In almost all paired combinations, clonogenic cells tested in a colony assay were more sensitive to kill by LAK cells than the whole tumor cell suspensions measured in the 51Cr-release assay.     

Characterization of a monoclonal antibody enhancing porcine natural killer cell activity (PNK-E)

A monoclonal antibody, termed PNK-E, that functionally enhances porcine natural killer (NK) cell activity but not antibody-dependent cellular cytotoxicity (ADCC) is investigated in this report. When PNK-E and K562 target cells were simultaneously added to effector cells, killing of target cells could be detected as early as 30 min, and a dramatic enhancement of killing activity was observed in short term 51Cr-release assays. When a panel of five NK-sensitive targets were tested, PNK-E enhanced the killing of K562, MOLT-4, and U937 cells, but not the killing of CEM and YAC-1. F(ab)'2 fragments of PNK-E did not enhance NK activity, indicating a requirement for the Fc portion of PNK-E to elicit enhancement of NK. Immunofluorescence analysis shows that PNK-E antigen is expressed on approximately 15% of peripheral blood lymphocytes with a relatively dull fluorescence staining pattern. PNK-E-positive sorted cells were enriched for large granular lymphocytes (LGL) and contained all detectable NK activity as compared to the PNK-E-negative sorted cells. When analyzed by polyacrylamide gel electrophoresis, PNK-E antibody immunoprecipitated a protein from 125I-labeled peripheral blood lymphocyte (PBL) cell lysates that resolved as a single band of approximately 205 kDa under nonreducing conditions and as two bands of approximately 50 kDa and 47 kDa under reducing conditions. The present data demonstrate a functional association between PNK-E antigen and NK cell activation.     

Cytolytic activity of human peripheral blood leukocytes against Legionella pneumophila-infected monocytes: characterization of the effector cell and augmentation by interleukin 2

The present study was an in vitro attempt to define the effector mechanisms against the intracellular bacterium Legionella pneumophila. Monocytes from human peripheral blood leukocytes (PBL) were infected in vitro with L. pneumophila and cultured for 2 days to allow intracellular replication of the bacterium. Cells were then labeled with 51Cr and used as targets in a 4-h 51Cr-release assay. We report here that autologous nonadherent PBL effectively lysed infected monocytes, and this activity was enhanced when the effector cells were precultured with IL 2 for 2 days. The IL 2-activated killer cells were also cytolytic against uninfected cultured monocytes, but cytotoxicity was higher against Legionella-infected target cells in a dose-dependent manner. The effector cells were located in Percoll density fractions that were enriched for large granular lymphocytes. The phenotype of the effector cell activated by IL 2 was determined to be OKM1+, OKT11+, partially Leu-11+, and negative for Leu-M1, OKT4, OKT8, and Leu-7, indicating that it is neither a T cell nor a monocyte, and is possibly and NK subset that is Leu-11+ and Leu-7-. Cold target inhibition studies indicated that a similar recognition structure is shared by both infected and uninfected monocytes, but differs from that on K562 tumor target cells. Thus, in addition to tumor surveillance and controlling viral infections, killer cells can be activated to provide protection against intracellular bacterial infections.     

Interpretation of 51Cr-release data: a kinetic analysis.

An analysis of 51Cr-release data from cell-mediated cytotoxicity assays, plotted in the form of effector cell dilution curves, is analyzed in detail in terms of a saturation kinetics model for effector-target interaction. The effect of nonimmune (bystander) cells in the effector population is particularly examined. The theoretical development of the saturation model predicts that, at low concentrations of target cells, increasing proportions of bystander cells should broaden the range of effector cell concentration required to achieve a given increment of target cell lysis, but that at high target cell concentration this effect should disappear. Experimental validation of this prediction is presented.     

Assessment of human natural killer and lymphokine-activated killer cell cytotoxicity against Toxoplasma gondii trophozoites and brain cysts

Because previous work has suggested that NK cells may be important in host resistance against the intracellular parasite Toxoplasma gondii we examined whether human NK cells and lymphokine-activated killer (LAK) cells have activity against trophozoites and cysts of this organism in vitro. A method to radiolabel Toxoplasma trophozoites with 51Cr was developed and direct cytotoxic activity was determined by using modifications of the standard 51Cr release assay. Viability of 51Cr-labeled trophozoites assessed by both methylene blue staining and trypan blue exclusion was greater than 90%. Significantly more 51Cr was released by anti-Toxoplasma antibody and C than by antibody in the absence of C. Incubation of trophozoites with freshly isolated human NK cells or NK cells activated with either rIL-2 or rIFN-alpha did not result in significant release of 51Cr (specific lysis was 0 to 2.3%). In contrast, the average specific lysis of radiolabeled trophozoites by LAK cells was significant (specific lysis was 7.8% +/- 1.1, p less than 0.01). In a series of separate experiments, preincubation of radiolabeled trophozoites with heat-inactivated normal or Toxoplasma antibody-positive human serum increased the cytotoxicity of LAK cells from a mean specific lysis of 15% +/- 4.5 to 39% +/- 8.5, respectively (p less than 0.05), as assessed by 51Cr release. Because previous work has shown that radioisotope release from parasites may be nonspecific, separate experiments were performed to determine the cytotoxicity of LAK cells against antibody-coated trophozoites by using ethidium bromide-acridine orange staining to assess effector cell damage. LAK cells had a mean specific lysis of 51% against antibody-coated trophozoites by ethidium bromide-acridine orange staining. Preincubation with heat-inactivated Toxoplasma-antibody positive human serum did not increase activity of rIL-2-activated NK cells against 51CR-labeled trophozoites. Neither human NK cells (freshly isolated or activated by rIL-2 or rIFN-alpha) nor LAK cells were cytotoxic for purified preparations of cysts of Toxoplasma isolated from the brains of chronically infected mice.     

The functional significance, distribution, and structure of LFA-1, LFA-2, and LFA-3: cell surface antigens associated with CTL-target interactions

Three cell surface antigens associated with the cytolytic T lymphocyte(CTL)-target cell interaction were identified by generation of monoclonal antibodies (MAb) against OKT4+, HLA-DR-specific CTL and selection for inhibition of cytolysis in a 51Cr-release assay. These MAb block cytolysis by both OKT4+ and OKT8+ CTL and the proliferative responses to PHA and the mixed lymphocyte response (MLR). LFA-1 is an antigen widely distributed on lymphoid tissues and is composed of two polypeptides of 177,000 and 95,000 Mr on all cell types studied. Anti-LFA-1 MAb block NK cell-mediated cytolysis in addition to T lymphocyte-mediated cytotoxicity and proliferation. LFA-2 (Mr = 55,000 to 47,000), a determinant on the sheep red blood cell receptor, is expressed by T cells but not B cells and appears specific for T cell functions. LFA-3 (Mr = 60,000) is a widely distributed antigen present on both hematopoietic and nonhematopoietic tissues and appears to only be involved in T cell functions. MAb to LFA-1 and LFA-2 inhibit function by binding to effector cell surface molecules, whereas anti-LFA-3 MAb appear to block by binding to the target cells. Together with previously described molecules, LFA-1, LFA-2, and LFA-3 demonstrate the complexity of CTL-mediated cytotoxicity at the molecular level.