Cytotoxic activities of normal cultured human T cells.

Normal human T cells grown in continued cultures in medium containing conditioned medium (CM) from PHA-stimulated lymphocytes were studied for their ability to manifest three known forms of cell-mediated cytotoxicity: lectin-induced cellular cytotoxicity (LICC), natural killer cell (NK) activity, and antibody-dependent cellular cytotoxicity (ADCC). The cultured T cells (CTC) were very effective mediators of LICC, being cytotoxic even at very low attacker-target cell ratios in the presence of different lectins, and against different types of targets. When tested without the addition of lectin, the CTC demonstrated a low degree of spontaneous cytotoxicity. This spontaneous cytotoxicity might not be due to conventional NK cells however, since the CTC failed to show significant numbers of cells with Fc receptors (FcR) for IgG, and had no detectable ADCC activity. CTC could represent a population enriched in polyclonal activated T cells with low spontaneous cytotoxicity against a variety of allogeneic target cells, which is greatly enhanced by the addition of lectins dur ing the 51Cr release assay.     

Antibody-dependent cell lysis by NK cells is preserved after sarcoma-induced inhibition of NK cell cytotoxicity

Osteosarcoma and Ewing’s sarcoma tumor cells are susceptible to IL15-induced or antibody-mediated cytolytic activity of NK cells in short-term cytotoxicity assays. When encountering the tumor environment in vivo, NK cells may be in contact with tumor cells for a prolonged time period. We explored whether a prolonged interaction with sarcoma cells can modulate the activation and cytotoxic activity of NK cells. The 40 h coculture of NK cells with sarcoma cells reversibly interfered with the IL15-induced expression of NKG2D, DNAM-1 and NKp30 and inhibited the cytolytic activity of NK cells. The inhibitory effects on receptor expression required physical contact between NK cells and sarcoma cells and were independent of TGF-β. Five days pre-incubation of NK cells with IL15 prevented the down-regulation of NKG2D and cytolytic activity in subsequent cocultures with sarcoma cells. NK cell FcγRIIIa/CD16 receptor expression and antibody-mediated cytotoxicity were not affected after the coculture. Inhibition of NK cell cytotoxicity was directly linked to the down-regulation of the respective NK cell-activating receptors. Our data demonstrate that the inhibitory effects of sarcoma cells on the cytolytic activity of NK cells do not affect the antibody-dependent cytotoxicity and can be prevented by pre-activation of NK cells with IL15. Thus, the combination of cytokine-activated NK cells and monoclonal antibody therapy may be required to improve tumor targeting and NK cell functionality in the tumor environment.     

Evidence that Con A induces cytotoxicity in the same subclass of T cells as does alloimmunization.

We have studied the induction of cytoxic activity in murine T cells by the T cell mitogen Con A. Here we report the results of experiments that indicate that this cytotoxicity develops in the same class of T cells potentially activatable to cytotoxicity by immunization with allogeneic cells. Cytotoxic activity does not result from activation of cells of the T-helper class by PHA, and extensive reduction of the proportion of cells of the T-helper class by in vivo treatment with ATS does not comparably reduce the cytotoxicity developed in response to Con A. The Con A-activated cytotoxic cell sediments as a large cell. Furthermore, spleen cell populations previously immunized to alloantigens in vivo develop greatly increased cytotoxicity specific for the alloantigen of the immunizing haplotype after culture with Con A in vitro.     

Simultaneous expression of cell-mediated cytotoxicity and antibody-dependent cellular cytotoxicity to a syngeneic rat lymphoma: separation and partial characterization of two types of cytotoxic cells

The immune response of $\text{W}\text{Fu}$ rats to a syngeneic Gross virus-induced lymphoma (C58NT)D evokes the simultaneous generation of effector cells able specifically to destroy the tumor cells by two different cytotoxic pathways: cell-mediated cytotoxicity (CMC) and antibody-dependent cellular cytotoxicity (ADCC). The question of possible interdependence in the relationship between the effector cells mediating both cytotoxicities was approached in several ways: (a) Immunospecific competition of one form of cytotoxicity (CMC or ADCC) did not interfere with the full expression of the other cytotoxic effect (ADCC or CMC, respectively), (b) Elimination of T cells by anti-thymocyte serum and complement completely abrogated the CMC activity while not impairing the ADCC activity, (c) Specific depletion of cytotoxic (CMC) lymphoid cells on monolayers of target cells bearing the sensitizing antigens considerably diminished the CMC activity, but did not affect the ADCC activity, (d) Depletion of Fc receptor-bearing cells (non-T cells) markedly reduced the ADCC activity, but did not interfere with CMC activity. These findings indicate that, in this system, two forms of cell-mediated cytotoxicity to tumor-associated antigens exist concurrently in the immune host and are expressions of different lymphoid cell populations; CMC is mediated by T cells, whereas ADCC is a non-T cell function.     

Augmentation of human natural cell-mediated cytotoxicity by a soluble factor. I. Production of N-cell-activating factor (NAF).

Natural cell-mediated cytotoxicity (NCMC) like immune T cell-mediated cytotoxicity and antibody production is regulated by a soluble factor released during co-culture of lymphocytes with mitomycin C-treated lymphoblastoid cell lines. This N-cell-activating factor (NAF) enhances the activity of effector N cells and increases natural cytotoxicity. There appears to be no restriction for compatibility at the A and B locus of the major human histocompatibility complex in the production or activity of the factor. NAF was observed in the supernatant as soon as 2 days after initiation of mixed culture with a peak of production at 5 days. A soluble factor produced and released by T cells in response to stimulation by other cells acts by enhancing cytotoxicity of effector cells in NCMC, demonstrating a T-N cell cooperation.     

Suppression of in vitro maintenance and interferon-mediated augmentation of natural killer cell activity by adherent peritoneal cells from normal mice

The ability of adherent peritoneal cells (APC) to inhibit murine natural killer (NK) cell activity was examined. Nylon wool-nonadherent splenic effector cells were incubated overnight with or without different numbers of APC. NK activity was then measured against YAC-1 in a 4-hr 51Cr-release cytotoxicity assay. Proteose peptone-elicited or unstimulated resident APC from normal mice markedly suppressed NK activity of splenic effector cells in the presence or absence of exogenously added interferon. The suppression was dependent on the number of APC added with 10% APC, relative to the number of effector cells, resulting in a greater than 65% inhibition of cytotoxicity. The effector phase of cytotoxicity was not the target of the suppressor cells, because APC did not suppress NK activity when they were present only during the cytotoxicity assay. The addition of APC to alloimmune cytotoxic T cells under similar conditions resulted in no inhibition of cytotoxicity. Both syngeneic and allogeneic APC suppressed NK activity, but several murine macrophage-like cell lines lacked this property. In contrast to APC, incubation of effector cells with adherent spleen cells from normal mice resulted in no inhibition of NK activity. APC from mice injected with C. parvum were less inhibitory for NK activity than normal resident APC. In contrast, C. parvum APC suppressed concanavalin A-induced lymphoproliferation and were directly cytotoxic to tumor target cells in vitro, whereas normal APC lacked these properties. The results indicate that the peritoneum of untreated mice contains suppressor cells that can inhibit the in vitro maintenance and IFN-mediated augmentation of NK activity. In addition, these results indicate a broader spectrum of immune reactivities regulated by APC and suggest that, depending on their level of activation, APC can preferentially inhibit different immune functions.     

Characterization of natural cytotoxic effector cells isolated from rat liver

Nonparenchymal liver cells (NPC) from normal untreated female Wistar/Furth rats were tested for natural cytotoxicity in a 4-hour 51Cr release assay against the murine lymphoma YAC-1, the murine mastocytoma P815, and the syngeneic rat mammary carcinoma TMT-081 tumor cell lines. NPC exerted strong cytotoxicity against all three target cells. In contrast, fresh spleen cells displayed cytotoxicity only against YAC-1, although after culture for 24 h at 37 degrees C cytotoxicity was displayed against all three target cells. Fresh spleen cells contained 2-15% large granular lymphocytes (LGL) as assessed by Giemsa staining whereas NPC contained 10-23% LGL and 10-25% Kupffer cells. Centrifugal elutriation produced fractions that were increased in one or the other of the cell types. More cytotoxic activity was observed in the fraction containing more LGL. The cytolytic activity of fresh spleen cells could be eliminated by either in vivo or in vitro treatment with anti-asialo-GM1 antiserum. On the other hand, the cytolytic activity of NPC was resistant to in vivo treatment, but was partially sensitive to in vitro treatment. Furthermore, the activity of cultured spleen cells was also partially sensitive to in vitro treatment. NPC and cultured spleen cells also were more resistant to suppression by prostaglandin E2 and nordihydroguaiaretic acid than fresh spleen cells. We conclude that LGL is mainly responsible for natural cytotoxicity of NPC and that some effector cells in NPC may be highly activated.     

Induction of human lymphokine-activated killer cells by IFN-alpha and IFN-gamma

By traditional definitions, NK cells can be activated by cytokines to exhibit two functionally distinct levels of cytotoxicity. Whereas IL-2-mediated activation of NK cells leads to the development of lymphokine-activated killer (LAK) cytotoxicity, characterized by the acquisition of cytolytic activity against NK-resistant targets, IFN-treated NK cells become activated without the acquisition of novel cytolytic specificities. In this study we show that NK cells activated by 18 to 24 h of stimulation with either IFN-alpha or IFN-gamma do acquire LAK cytolytic activity, demonstrated by the ability of IFN-treated PBMC to lyse NK-resistant COLO 205 cells as well as fresh tumor targets. The level of IFN-alpha-induced LAK activity was significantly greater than that induced by IFN-gamma, although IL-2-induced LAK activity was considerably greater than IFN-alpha-induced LAK cytotoxicity. Maximal IFN-induced LAK cytotoxicity occurred after 24 h of culture, and occurred with the use of IFN-alpha at 500 U/ml and IFN-gamma at 1000 U/ml. Whereas neutralizing antibody experiments demonstrated that IFN-alpha-induced LAK activation did not involve the participation of endogenously produced IL-2, the partial inhibition (63%) of IFN-gamma-induced LAK cytotoxicity by anti-IL-2 and of IL-2-induced LAK by anti-IFN-gamma (33.3%) indicates that the induction of LAK cytotoxicity by either of these individual cytokines involves the endogenous production and participation of the other cytokine. Similar to IL-2-induced LAK cells, phenotypic analysis revealed that IFN-alpha/gamma LAK cells were Leu-19+, although the Leu 19"dim"+ subset exhibited greater IFN-induced LAK activity than the Leu-19"bright"+ subset. The results of this study clearly demonstrate that IFN-alpha and IFN-gamma induce classic LAK activity and IFN-gamma plays a participatory role in the optimal induction of LAK cells by IL-2.     

Analysis of sera from SV40-immunized and tumor-bearing hosts for blocking activity and antibody-dependent cellular cytotoxicity.

The role of serum factors in tumor immunity to cells transformed by PARA-(defective SV40)-adenovirus 7 was investigated. It was found that sera from SV40-sensitized hosts did not block the specific cytotoxicity of SV40-sensitized spleen cells for PARA-7 cells. However, such sera could collaborate with nonsensitized spleen cells to produce specific killing. This activity could be absorbed out by PARA-7 cells but not by cells transformed by cytomegalovirus. The activity of sera from hamsters bearing tumor isografts depended upon when, after transplantation, the specimens were obtained. Sera collected greater than or equal to 10 days after grafting completely blocked immune spleen cell cytotoxicity and did not mediate target cell killing in the presence of normal spleen cells. Sera obtained at an earlier time, i.e., 3 to 6 days after transplantation, consistently were active in the antibody-dependent cellular cytotoxicity test and exhibited reduced or no blocking of antibody-independent cellular cytotoxicity. Thus, there appears to be an inverse correlation in the capacity of serum from tumor bearing hosts to block effector cell cytotoxicity and mediate antibody-dependent cellular cytotoxicity.     

Studies of complement receptors on cytotoxic effector cells in human peripheral blood

The question of whether cells bearing complement receptors (CR) mediate cytotoxicity in vitro against allogeneic Chang liver cell targets was investigated by assessing peripheral blood mononuclear cells (PBMC) from normal humans for cell surface characteristics and cytotoxic capacity before and after depletion of CR+ cells capable of forming rosettes with sheep erythrocytes coated with 19S antibody and mouse complement (EAC) and depletion of Fc receptor-bearing cells capable of forming rosettes with human O+ erythrocytes coated with Ripley antibody (EA-Ripley). PBMC depleted of CR+ cells by density centrifugation contained markedly reduced proportions of phagocytes and sIg + cells and increased proportions of both sIg ?, FcR+ cells as well as cells forming rosettes with sheep erythrocytes (E). PBMC depleted of CR+ cells mediated cytotoxicity to an extent equal to or greater than that mediated by unfractionated PBMC in assays of spontaneous cell-mediated cytotoxicity (SCMC), antibody-dependent cellular cytotoxicity (ADCC), and mitogen-induced cellular cytotoxicity (MICC). Cells harvested from the EAC-rosette enriched pellet mediated cytotoxicity 5- to 10-fold less than unfractionated PBMC; however, the cytotoxic activity of the pellet could not be attributed to CR + effector cells since similar cytotoxic activity was present in cell pellets obtained by density centrifugation of PBMC which had been incubated with E coated with 19S antibody or E alone. PBMC depleted of EA-Ripley rosette-forming cells contained decreased proportions of sIg?, FcR+ cells and increased proportions of CR+ cells; PBMC so depleted contained virtually no SCMC and ADCC effector cell activity. These findings indicate that at least the majority of effector cells which mediate SCMC, ADCC, and MICC do not bear CR.     

Inhibition of mouse natural killer cytotoxicity by heparin

The effect of heparin on mouse natural killer (NK) cytotoxicity was investigated. Heparin greatly inhibited NK activity at a concentration of more than 10 units/ml. Inhibition of NK cytotoxicity was observed only when heparin was present in the reaction mixture of the cytotoxicity assay. The results of kinetic study of NK inhibition and target-effector binding assay proposed the possibility that heparin inhibits NK cytotoxicity after the binding of effector cells to target cells. Dextran sulfate, the heparin analog, which has potent negative charge also had an inhibitory effect on NK activity. Fractionation of heparin on Sephadex A-25 column revealed the parallelism of the negative charge and the inhibitory effect of heparin on NK cytotoxicity. These results demonstrated that polyanion could modulate NK cytotoxicity.     

Cytotoxic studies in human newborns: lessened allogeneic cell-induced (augmented) cytotoxicity but strong lymphokine-activated cytotoxicity of cord mononuclear cells

Nonspecific cytotoxic responses such as natural killer activity can be increased in vitro by incubating effector cells with soluble factors or allogeneic cells. We sought to determine if newborn cells, known to be deficient in most cytotoxic responses, including resting NK activity, could develop enhanced cytotoxic responses following incubation with allogeneic cells (augmented cytotoxicity) or with lymphokines (lymphokine-activated cytotoxicity). Cord whole mononuclear cells (WMC) incubated with irradiated Raji cells for 5 days develop lower levels of cytotoxicity toward K562 targets at both a 20:1 effector:target (E:T) ratio (39 +/- 2.7% vs 49 +/- 3.6%) and a 10:1 E:T ratio (29 +/- 2.6% vs 40 +/- 3.6%) than do adult cells. Lessened specific cytotoxicity of cord cells developed toward the sensitizing Raji cells was also observed at both E:T ratios. Attempts to enhance the induced cytotoxicity by incubation with interferon or isoprinosine were unsuccessful. In contrast, lymphokine (i.e., interleukin 2)-activated killer (LAK) cytotoxicity is not deficient in cord WMC. Indeed, the level of LAK cytotoxicity is equivalent to that observed with similarly treated adult cells despite a lower baseline level of cytotoxicity toward the target cells. In the presence of purified IL-2 for 5 days, cord WMC cytotoxicity against K562 cells increased from 12 +/- 2.6 to 71 +/- 4.2% and against Raji cells increased from 9.6 +/- 2.5 to 48 +/- 6.7%. Similarly treated adult cells increased their killing against K562 from 23 +/- 4.2 to 61 +/- 4.5% and against Raji from 12 +/- 3.0 to 36 +/- 5.3%. This substantial lymphokine-activated cytotoxicity of newborn cells suggests the possibility of therapeutic intervention with purified lymphokines in neonatal infections or neoplasms.     

Inhibition of mast cell-mediated cytotoxicity by IFN-alpha/beta and -gamma.

Although IFN enhance the cytotoxic activity of NK cells, K cells, and monocytes, IFN-alpha/beta and IFN-gamma did not stimulate the cytotoxic activity of rat peritoneal mast cells (PMC), but had an inhibitory effect. Preincubation for 2 h with 100 and 200 U/ml of IFN-gamma and IFN-alpha/beta, respectively, inhibited PMC cytotoxicity against WEHI-164 target cells. Lower concentrations of IFN-gamma (12.5 U/ml) and IFN-alpha/beta (25 U/ml) inhibited cytotoxicity of PMC after 8 h preincubation. The inhibitory effect of IFN was concentration and time dependent. In contrast to cytotoxicity, the release of histamine by PMC was not stimulated by the target cells WEHI-164 and there was no correlation between histamine release and cytotoxic activity of PMC. Specific antibody to subclasses of IFN prevented the inhibition of PMC cytotoxic activity, but preincubation with antibodies to the alternate subclass of IFN did not affect the observed inhibition. Moreover, the presence of both subclasses of IFN showed an additive inhibition of PMC cytotoxicity. The cytotoxic activity of PMC can be completely inhibited by the addition of anti-TNF during the assay. At high concentrations (400 U/ml), IFN inhibited the release of TNF from PMC. In the presence of RNA or protein synthesis inhibitors, IFN did not inhibit cytotoxicity of PMC further. We postulate that IFN may alter gene expression in mast cells in a manner that down-regulates their functions.     

Tumor necrosis factor production by human monocytes is a regulated event: induction of TNF-alpha-mediated cellular cytotoxicity by endotoxin

Expression of cellular cytotoxicity by monocytes or macrophages has been conceived as an induced function secondary to collaboration in the immune response or to other agonists. However, a form of spontaneous cellular cytotoxicity by monocytes analyzed with unseparated human peripheral blood mononuclear cells (PBM) has been described by using the 6-hr 51Cr release from actinomycin D (ActD)-treated murine WEHI 164 cells, a target cell refractory to the cytotoxic effects of natural killer and cytolytic T cells. We observe that when cells are isolated under rigorously endotoxin-free conditions, there is no cytotoxicity. Inclusion of serum does not induce cellular cytotoxicity; however, cytotoxic activity is induced by the presence of as little as 1 pg/ml of bacterial lipopolysaccharide (LPS). PBM required 2 hr of preexposure to endotoxin in order to express full cytotoxic activity. We investigated the basis of the cytotoxicity of WEHI 164 cells and the effect of ActD. ActD-treated target cells are highly susceptible to the effects of TNF-alpha and TNF-beta (alpha-lymphotoxin), whereas untreated target cells were resistant. In contrast, ActD does not affect susceptibility to the cytotoxic effects of H2O2, and interleukin 1 is not cytotoxic to the target cells. With the use of a neutralizing monoclonal antibody specific for TNF-alpha, the cytotoxic activity induced by LPS greatly diminished and the amount of TNF-alpha neutralized is similar to that required for equivalent cytotoxicity. We conclude that monocytes present in human PBM are not "spontaneously" cytotoxic for ActD-treated WEHI 164 target cells, but that the reported cytotoxicity results from exposure to a level of endotoxin or endotoxin-like agonists to which the cells are exposed. The cytotoxicity is mediated mostly if not entirely by TNF-alpha, an established product of monocytes/macrophages. With the use of endotoxin-free conditions, PBM can be isolated in a cytotoxically latent state, suitable for analysis of the immunologic regulation of TNF-alpha-mediated monocyte cellular cytotoxicity.     

Differential contribution of Fas- and perforin-mediated mechanisms to the cell-mediated cytotoxic activity of naive and in vivo-primed intestinal intraepithelial lymphocytes

Intestinal intraepithelial lymphocytes (IELs) are known to exert strong constitutive cytotoxic activity. In the present study we compared the Ag-specific cytotoxic activity and the effector mechanisms involved in non-Ag-primed, naive and in in vivo-primed IELs and splenic CD8 T cells. Ex vivo isolated naive CD8alphaalpha TCRalphabeta IELs, CD8alphabeta IELs, and splenocytes from lymphocytic choriomeningitis virus (LCMV)-specific TCR transgenic mice exert Ag-specific cytotoxic activity in a long-term, but not in a short-term, cytotoxicity assay. This cytotoxic activity is mainly Fas-Fas ligand mediated and is significantly reduced in the presence of 20 microg/ml Fas-Fcgamma1 fusion protein. Both CD8alphabeta IELs and CD8alphabeta splenocytes isolated from LCMV-infected C57BL/6 mice exert potent perforin-dependent cell-mediated cytotoxicity. CD8alphaalpha TCRalphabeta IELs from LCMV-infected animals, however, show only minimal Ag-specific cytotoxicity. The potent cytotoxic activity of in vivo activated CD8alphabeta IELs is not affected by the addition of Fas-Fcgamma1. Nevertheless CD8alphabeta IELs from LCMV-infected perforin-deficient mice exert Ag-specific cytotoxicity in a short-term cytotoxicity assay, and this cytotoxicity is almost completely blocked by the addition of Fas-Fcgamma1. These results demonstrate that naive CD8alphabeta IELs exert Ag-specific, Fas-Fas ligand-mediated, constitutive cytotoxic activity in a long-term cytotoxicity assay, whereas primed CD8alphabeta IELs primarily use the perforin-dependent exocytosis pathway to exert their potent cytotoxic activity. Furthermore, these results clearly illustrate the requirement for Ag-specific determination of IEL-mediated cytotoxicity, because the elevated, but variable, frequencies of memory-type T cells in this compartment may lead to ambiguous results when polyclonal activation or redirected assays are used.     

Immunostimulatory Activities of the Sulfated Polysaccharide Ascophyllan from Ascophyllum nodosum in in Vivo and in Vitro Systems

Splenic natural killer (NK) cell activity against YAC-1 cells increased in mice intraperitoneally injected with ascophyllan. Ascophyllan enhanced the cytotoxicity of RAW264.7 cells toward YAC-1 cells in a concentration-dependent manner. The cytotoxicity of ascophyllan-stimulated RAW264.7 cells as to YAC-1 cells was suppressed with N(G)-nitro-L-arginine methyl ester hydrochloride (L-NAME), an inhibitor of nitric oxide (NO) synthase, suggesting the involvement of NO in the cytotoxicity of ascophyllan-stimulated RAW264.7 cells.     

Assessment of immunological parameters during tumour development in a murine model

Natural Killer activity assessed by 51Cr release assay from K-562 cells showed detectable activity from 5th day after tumour transplantation, reaching a peak on 12th day and thereafter showing a gradual decline in the activity. Antibody dependent cell mediated cytotoxicity estimated by 51Cr labelled sheep red blood cells anti SRBC system demonstrated a peak activity on 5th day. Cytotoxic T lymphocyte activity detected by 51Cr release of Dalton's lymphoma ascites target cells showed a peak on 10th day. Antibody complement mediated cytotoxicity revealed a similar pattern as natural killer cell activity.     

Functional heterogeneity among herpes simplex virus-specific human CD4+ T cells.

One hundred thirteen HSV-specific CD4+ T cell clones were established from the PBL of a healthy person and their functional heterogeneity was investigated. All clones proliferated in response to stimulation with HSV in the presence of autologous APC. Among those, 48 clones showed cytotoxic activity to HSV-infected autologous EBV-transformed lymphoblastoid cell line, but not to HSV-infected autologous fibroblasts, HSV-infected allogeneic cells, or K562 cells (group 1). Five clones showed cytotoxicity against HSV-infected autologous cells as well as HSV-infected allogeneic cells and K562 cells (group 2). The cytotoxicity of these clones was found to be mediated by the direct killing but not by the "innocent bystander" killing of target cells. Sixty clones showed no cytotoxic activity, however, among these, 23 revealed HLA-unrestricted and nonspecific cytotoxicity in the presence of PHA in culture (group 3), and the remaining 37 did not show any cytotoxic activity even in the presence of PHA (group 4). The cytotoxic patterns of these clones did not change in activated and resting phases, suggesting that the difference in cytotoxic ability does not depend on cell cycles. The cytotoxic activity of group 1 was inhibited by addition of anti-HLA-DR or anti-CD3 mAb to the culture, whereas these mAb had no effect on the cytotoxicity of group 2. All four groups of clones had helper activity for anti-HSV antibody production by autologous B cells. Moreover it was found that all groups of clones simultaneously produced IL-2, IL-4, and IFN-gamma after culture with APC followed by HSV Ag stimulation. The surface phenotype of all clones was uniformly CD2+, CD3+, CD4+, CD8-, CD29+, CD45RA-, but expression of Leu 8 was varied. These data therefore indicate that HSV-specific human CD4+ T cells are classified into at least four groups according to the presence and specificity of cytotoxicity, i.e., Th cells with HSV-specific and HLA-class II-restricted cytotoxicity, Th cells with HLA-unrestricted and nonspecific cytotoxicity, Th cells with lectin-dependent cytotoxicity, and Th cells without cytotoxic activity. The present finding of functional heterogeneity among virus-specific human CD4+ T cells might shed light on the pathogenesis of CD4+ T cell immunodeficiency, such as human retrovirus infections.     

Enhancement of Natural Killer cell cytotoxicity by a CD18 integrin-activating antibody

Natural Killer (NK) cells kill certain tumor cells and virus infected cells in an antigen-independent manner. Members of CD18 integrins such as CD11a, CD11b, and CD11c are expressed in all NK cells. CD18-blocking mAbs inhibit the killing activity of NK cells implying an essential role of these integrins in NK cell cytotoxicity. In this report we show that the pan CD18-activating mAb, 240Q, augments cytotoxicity of resting NK cells. Since activation of either CD11a or CD11c alone fails to augment the NK cell activity, we postulate that a functional synergy of the individual CD18 integrins is responsible for the observed stimulatory effect of pan CD18 activation on NK cell cytotoxicity.     

Pyridalyl inhibits cellular protein synthesis in insect, but not mammalian, cell lines

To gain insight into the mechanism of action and selectivity of the insecticidal activity of pyridalyl, the cytotoxicity of pyridalyl against various insect and mammalian cell lines was characterized by measuring the inhibition of cellular protein synthesis. When the effect of pyridalyl on the cellular protein synthesis in Sf9 cells was evaluated by measuring the incorporation of [(3)H]leucine, rapid and significant inhibition of protein synthesis was observed. However, pyridalyl did not inhibit protein synthesis in a cell-free protein synthesis system, indicating that pyridalyl does not directly inhibit protein synthesis. No obvious cytotoxicity was observed against any of the mammalian cell lines tested. In the case of insect cell lines, remarkable differences in the cytotoxicity of pyridalyl were observed: the highest cytotoxicity (IC50 mM) was found against Sf9 cells derived from Spodoptera frugiperda, whereas no obvious cytotoxicity was observed against BmN4 cells derived from Bombyx mori. Measurements of the insecticidal activity of pyridalyl against Spodoptera litura and B. mori revealed a correlation between the cytotoxicity against cultured cell lines and the insecticidal activity. From these observations, it was concluded that the selective inhibition of cellular protein synthesis by pyridalyl might contribute significantly to the insecticidal activity and the selectivity of this compound.