Activation of granulocyte cytotoxic function by purified mouse colony-stimulating factors

Highly purified mouse colony-stimulating factors (CSF) were tested for their effect on neutrophil cytotoxic function in a homologous antibody-dependent cell-mediated cytotoxicity (ADCC) assay in which TNP-coupled mouse thymoma cells coated with mouse anti-TNP antibodies were used as targets, and purified normal mouse bone marrow neutrophils or induced peritoneal neutrophils were used as effector cells. Biochemically pure granulocyte-macrophage (GM)- and granulocyte (G)-CSF enhanced the cytotoxic activity of neutrophils obtained from both sources, allowing them to kill target cells at low antibody concentrations. Furthermore, GM- and G-CSF showed an additive effect, suggesting either the presence of separate receptors for GM- and G-CSF or of separate subsets of neutrophils. Induced peritoneal neutrophils showed a higher level of basal cytotoxic activity than did bone marrow neutrophils, suggesting neutrophil activation in vivo, but both reached similar levels of cytotoxicity upon maximal stimulation with CSF. In addition, CSF was found to be cross-reactive between mouse and human species in their enhancement of neutrophil cytotoxicity. By testing purified mouse CSF on human neutrophils, it could be shown that G-CSF and GM-CSF are functionally distinct molecules, because only G-CSF enhanced ADCC by human neutrophils. These experiments show that the purified factors that control the production of neutrophils by progenitor cells in vitro also activate differentiated neutrophils to carry out their cytotoxic activity in a more effective manner.     

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.     

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.     

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.     

Extracellular calcium does not contribute to cryopreservation-induced cytotoxicity

Summary The possible role of extracellular calcium ([Ca⁺²]e) in cryopreservation-induced cytotoxicity was tested using Madin-Darby canine kidney (MDCK) cells and a fluorescent multiple endpoint assay. MDCK cells maintained in 2 mM [Ca⁺²]e and treated with the calcium ionophore, ionomycin, increased their intracellular calcium ([Ca⁺²]i) as revealed by the calcium indicator dye, Fluo3 and the bottom-reading spectrofluorometer, CytoFluor 2300. The addition of 10 mM [ethylene bis (oxyethylenenitrilo)]-tetraacetic acid (EGTA) to the extracellular medium before treatment with ionomycin blocked this ionomycin-dependent increase in [Ca⁺²]i. A number of site and activity-specific fluorescent probes were surveyed to determine which indicator dye might best reveal the ionomycin-induced cytotoxic events during this increase in [Ca⁺²]i. Although most dyes changed their emission profiles in response to calcium, neutral red was found to best reflect the loss of [Ca⁺²]i homeostasis. The NR50 for a 15-min exposure to ionomycin in the presence of 2 mM [Ca⁺²]e was approximately 2μM ionomycin, but ionomycin had little apparent effect on neutral red retention when 10 mM EGTA was added to the extracellular medium. Thus it was clear that an increase in [Ca⁺²]i could be cytotoxic to MDCK cells and that neutral red could monitor this cytotoxic episode. To test if [Ca⁺²]e was similarly cytotoxic during cryopreservation, MDCK cells were subjected to cryopreservation in the presence of dimethylsulfoxide (DMSO). In contrast to previous studies, plasma membrane integrity, not lysosomal function, seemed to best correlate with cell survival subsequent to cryopreservation. In addition, decreasing [Ca⁺²]e had no discernable effect on the retention of plasma membrane indicator dyes, neutral red, or cell survival. It is concluded that a) plasma membrane indicator dyes, not neutral red, might be better indicators of cytotoxicity occurring during cryopreservation; b) DMSO might be toxic to lysosomes during cryopreservation of cultured cells; and c) although [Ca⁺²]e can contribute to cytotoxicity, the presence of [Ca⁺²]e might not influence cryopreservation-induced cytotoxicity.     

Differential effects of ouabain on human cell-mediated cytotoxicity. I. Inhibition of mitogen-induced cellular cytotoxicity and antibody-dependent cellular cytotoxicity against chicken red cell targets.

The effects of ouabain, a known inhibitor of lymphoproliferation, were studied in relation to the cytotoxic effector function of human peripheral blood mononuclear leukocytes (MNL) against chicken red blood cell (CRC) targets. MNL effectors lysed ⁵¹Cr-labeled CRC targets in the presence of PHA (mitogen-induced cellular cytotoxicity—MICC) or rabbit anti-CRC antibody (antibody-dependent cellular cytotoxicity—ADCC) in the absence of ouabain. The addition of ouabain to the cytotoxic reaction caused profound diminution of MICC with greater than 90% suppression of killing at ouabain concentrations of 5 × 10^?4M; ADCC was much more resistant to the effects of ouabain with only 60 to 70% inhibition of killing at similar ouabain concentrations (P < 0.01). Similar ouabain inhibition of MICC occurred whether the effector cell populations were unseparated MNL, depleted of monocytes, enriched for T cells, or depleted of T cells, suggesting a generalized activity by ouabain against all effector cells active in MICC. Ouabain inhibition of MICC could be overcome by increasing PHA concentrations, indicating that ouabain inhibition was not due to irreversible toxic effects on effector cells. Increasing the concentration of anti-CRC antibody resulted in increased killing in this ADCC system and, paradoxically, ADCC cultures with the highest antibody concentrations were more completely inhibited by ouabain. This enhanced inhibitory effect of ouabain on ADCC cultures with the highest antibody concentrations was not observed when the effector cell population was first depleted of phagocytic cells, suggesting a preferential inhibitory action by ouabain against monocyte effectors in ADCC. Thus, the differential inhibitory effects of ouabain on MICC and ADCC against CRC targets may be in part explained by the differing ouabain sensitivities of the various effector cell subpopulations involved in these cell-mediated cytotoxic events.     

Modulation of cytolytic T cell function by lectins

Human thymocytes cultured for 5 days in interleukin 2 containing supernatants (IL 2 Sup) virtually become a population of mature T cells (T3+, HTA-) that acquires strong cytotoxic activity against NK-sensitive and NK-resistant target cells. The addition of different lectins to the cultures abrogated the expression of the cytotoxic activity and enhanced thymocyte proliferation. The modulation of this cytotoxic activity by lectins has the following properties: a) inhibition of cytotoxicity is related to the concentration of lectins added, but does not correlate with their mitogenic properties, because either strong mitogens such as PHA or weak mitogens such as wheat germ agglutinin (WGA) are both able to strongly decrease cytotoxicity; b) lectin presence is not required at the onset of the culture but is required during the last 24 hr of the 5-day incubation period; c) reversion of inhibition with full expression of cytotoxic activity can be obtained after removal of the lectin and subsequent culture in lectin-free conditions for at least an 18 to 24 hr period; d) lack of cytotoxicity is observed regardless of target cell specificities and cannot be overcome in a lectin-dependent cytotoxicity assay (LDCC); and e) abrogation of cytotoxicity is not restricted to thymocyte cultures because it can also be observed in peripheral lymphocytes. These results cannot be explained by a simple steric blockade, the overgrowth of a distinctive noncytotoxic lymphocyte population, autologous killing, or a failure in the recognition phase of the lytic event. Modulation by lectins of function-associated cell surface structures implicated in cytolysis is discussed as an alternative hypothesis that might account for the observed phenomenon.     

Mechanism of cell-mediated cytotoxicity at the single-cell level: VII. Trigger of the lethal hit event is distinct for NK/K and LDCC effector cells as measured in the two-target conjugate assay

Normal human peripheral blood lymphocytes (PBL) express several in vitro cytotoxic functions, among which are natural killer (NK), antibody-dependent cellular cytotoxicity (ADCC), and lectin-dependent cellular cytotoxicity (LDCC). The relationship of these various cytotoxic functions and the identity of cells involved has been a subject of controversy. Recently it was reported that NK and K for ADCC can be mediated by the same cell, suggesting that they constitute in large part a single subpopulation with multiple cytotoxic functions. The ability of this NK/K effector cell to mediate LDCC was examined here using the two target conjugate assay. The effector cells were Ficoll-Hypaque PBL or LGL-enriched fractions. The targets used were K562 or MOLT for NK, RAJI coated with antibody for ADCC, and RAJI coated with PHA or Con A or modified by NaIO₄ for LDCC. In the two-target conjugate assay, one of the targets is fluorescein labeled for identification. The results show that (a) LDCC copurifies with NK/K and is enriched in the LGL fraction, as measured in both the ⁵¹Cr-release assay and the single-cell assay for cytotoxicity; (b) single effector cells simultaneously bind to NK or ADCC and LDCC targets, revealing that single cells bear binding receptors for all targets; and (c) single lymphocytes were not able to kill both bound NK/K and LDCC targets. However, significant two-target killing was obtained when both targets were NK targets, ADCC targets, LDCC targets, or one NK and one ADCC target. These results demonstrate that the NK and LDCC effector cells are distinct subpopulations copurified in the LGL fraction. In addition, the results show that lectin is unable to trigger globally an NK effector cell to mediate cytotoxicity against a bound NK insensitive target. Thus, although both NK and LDCC effector cells are present in the LGL fraction and can bind to both types of targets, the trigger of the lethal hit event is the function of specialized effector cells.     

Cytotoxicity to a Tumor Cell Line of Epoxy-Phosphatidylinositol Liposomes

Abstract

Selective cytotoxicity of tumor cells induced by liposomal plant phosphatidylinositol (Ptdlns) has been studied. We could not always obtain cytotoxic plant Ptdlns liposomes in a series of experiments. Moreover, animal Ptdlns occasionally showed cytotoxicity towards tumor cells. By ¹H nuclear magnetic resonance analysis of non-and cytotoxic Ptdlns, it has been suggested that oxidized acyl residues, such as hydroperoxide or dioxetan, may have been present in the cytotoxic Ptdlns. We have prepared epoxy-Ptdlns, as an analogous compound of the oxidized lipid, from noncytotoxic Ptdlns by chemical synthesis. the epoxy-PtdIns liposomes showed cytotoxicity towards tumor cells. In the presence of 100 µM epoxy-Ptdlns liposomes, normal human peripheral lymphocytes survived for 3 days, but Raji human lymphoblastoid-like cells were almost all killed. However, at higher concentrations, epoxy-PtdIns liposomes were also cytotoxic to normal cells.     

Granzyme B‐expressing neutrophils correlate with bacterial load in granulomas from Mycobacterium tuberculosis‐infected cynomolgus macaques

The role of neutrophils in tuberculosis (TB), and whether neutrophils express granzyme B (grzB), a pro‐apoptotic enzyme associated with cytotoxic T cells, is controversial. We examined neutrophils in peripheral blood (PB) and lung granulomas of Mycobacterium tuberculosis‐infected cynomolgus macaques and humans to determine whether mycobacterial products or pro‐inflammatory factors induce neutrophil grzB expression. We found large numbers of grzB‐expressing neutrophils in macaque and human granulomas and these cells contained more grzB+ granules than T cells. Higher neutrophil, but not T cell, grzB expression correlated with increased bacterial load. Although unstimulated PB neutrophils lacked grzB expression, grzB expression increased upon exposure to M. tuberculosis bacilli, M. tuberculosis culture filtrate protein or lipopolysaccharide from Escherichia coli. Perforin is required for granzyme‐mediated cytotoxicity by T cells, but was not observed in PB or granuloma neutrophils. Nonetheless, stimulated PB neutrophils secreted grzB as determined by enzyme‐linked immunospot assays. Purified grzB was not bactericidal or bacteriostatic, suggesting secreted neutrophil grzB acts on extracellular targets, potentially enhancing neutrophil migration through extracellular matrix and regulating apoptosis or activation in other cell types. These data indicate mycobacterial products and the pro‐inflammatory environment of granulomas up‐regulates neutrophil grzB expression and suggests a previously unappreciated aspect of neutrophil biology in TB.     

Differential cytotoxicity of activated lymphocytes on allogeneic and xenogeneic target cells. II. Activation by phytohemagglutinin

In the preceding paper it has been shown that human or mouse lymphocytes stimulated by a variety of agents, damaged allogeneic target cells while damage of xenogeneic target cells was weak or absent. In this study, the species specificity of the cytotoxicity of PHA activated lymphocytes has been studied in greater detail. Effector cells were purified lymphocytes either from human peripheral blood, or from spleen or lymph nodes of inbred mice. Target cells were ⁵¹Cr-labeled human Chang liver cells or mouse L cells.PHA stimulated human or mouse lymphocytes were significantly more cytotoxic to allogeneic than to xenogeneic target cells. At low PHA doses at which damage of allogeneic target cells was significant, damage of xenogeneic target cells was very weak or absent. At higher PHA doses, damage of xenogeneic target cells became also significant but always remained at a lower level than that of allogeneic target cells.Prestimulation of human lymphocytes with PHA for 3 days increased their cytotoxic efficiency. Furthermore, damage of human Chang cells by human lymphocytes had a dose-response relationship similar to that valid for stimulation of DNA synthesis. However, damage of mouse L cells by human lymphocytes increased at PHA-doses at which stimulation of DNA-synthesis declined. For mouse lymphocytes, these doseresponse relationships were less clear-cut, probably due to differences in origin and survival of the effector cells. This confirms previous observations that cytotoxicity and DNA-synthesis are different but probably interdependent expressions of lymphocyte activation.     

Potentiation of bleomycin cytotoxicity by membrane-interacting drugs and increased calcium ions

The cytotoxic effect of the antitumor antibiotic peplomycin (PEP), a new member of bleomycin group antibiotics, toward HeLa cells and mouse FM3A cells is enhanced by some membrane-interacting drugs such as verapamil, persantin, prenylamine, chlorpromazine and anafranil. The enhancing action of verapamil is selective to this group antibiotics, since it does not potentiate the cytotoxic effects of vincristine, adriamycin, mitomycin C, cis-diamminedichloroplatinum(II) and macromomycin. An enhanced PEP cytotoxicity has been also demonstrated by the treatment of cells in the presence of increased CaCl₂. This enhancing effect of increased CaCl₂ is prevented by the Ca²⁺ transport inhibitor ruthenium red. Since these membrane-directed drugs have been shown to affect Ca²⁺ metabolism, we conclude that potentiation of PEP cytotoxicity by these drugs is mediated by an increase in intracellular Ca²⁺.     

Studies on the specificity of in vitro-induced lymphocytotoxicity to methylcholanthrene-induced fibrosarcoma cell lines

Cytotoxic effector lymphocytes were induced by in vitro immunization of lymph node and spleen cells from CS7B16(H2^b) and Balb/c(H2^d) mice to syngeneic or allogeneic methylcholanthrene-induced fibrosarcoma (MCAF) cell lines. The T cell-dependent cytotoxicity was specific to target cell lines to which the lymphocytes were immunized in vitro. Normal fibroblasts as stimulator cells did not induce lymphocytotoxicity to syngeneic MCAF cells or to normal syngeneic fibroblasts. The results indicate that the in vitro-immunized lymphocytes recognize individual specific tumor-associated antigens of the MCAF cells. In experiments in which the lymphocytes were immunized in vitro to allogeneic MCAF cells, cytotoxic reactions to alloantigens, but not to tumor-associated antigens, were detected. Incubation with phytohemagglutinin (PHA) during the sensitization period modified the specificity of the cell-mediated lysis of MCAF cells: Allogeneic as well as syngeneic target cells were destroyed by these effector cells. PHA induced a nonspecific cytotoxic effect which increased the specific lysis of target cells. The cytotoxicity of the in vitro-immunized lymphocytes was inhibited by incubation with membrane protein preparations from the syngeneic MCAF cell lines. In contrast to the specificity of the cytotoxic effect to the different syngeneic cell lines, the membrane extract of one individual syngeneic MCAF cell line was able to inhibit the lymphocytotoxicity to all other syngeneic cell lines. Membrane protein preparations from allogeneic MCAF cells or from normal syngeneic fibroblasts were not inhibitory. The in vitro-immunized cytotoxic lymphocytes did not impair the tumor growth in vivo as could be demonstrated by passive transfer of the lymphocytes in a Winn assay.     

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.     

Activation of human blood lymphocyte subsets for cytotoxic potential

Blood lymphocytes of individuals differ in the spontaneous cytotoxic potential exerted in vitro against certain cell lines (natural killing, NK). In the low NK donors, the activity can be enhanced by short-term IFN pretreatment of the effectors (interferon activated killing, IAK) and by addition of PHA to the short-term assay (lectin-dependent cellular cytotoxicity, LDCC). Lymphocyte subpopulations fractionated on the basis of nylon adherence, SRBC, and EA rosette formation differ in their response to these measures. The results obtained with IFN-treated lymphocytes of low NK donors were similar in strength to the spontaneous activity of the high NK donors. Therefore, the distinction between NK and IAK is only operational. The nylon passed E receptor-negative and low-avidity E receptor-positive cells had the strongest NK activity. These subsets can be triggered for enhanced activity by IFN. In the majority of the cases the high-activity E-receptor-positive subset which did not sediment with EA indicators had low NK effect and was not triggered by IFN. Addition of PHA to the lytic assay, however, induced activity in the subset. Realization of DNA synthesis was not necessary for the lytic performance. The PHA-imposed triggering event was not dependent on IFN production nor on induction of the competence for IFN response. The results showed that all non-B lymphocyte subsets separated on the basis of nylon wool adherence, SRBC, and EA rosetting contain cells with lytic potential if the appropriate stimulus is used. The relative activities of the subsets against K562 and Daudi differed. Cells which rosetted readily with EA indicators had weak effect against Daudi.     

Murine T-cell-mediated cytotoxicity against syngeneic and allogeneic cell lines induced by fetal calf serum

Mouse spleen cells from normal animals developed easily measurable cytotoxicity against various cell lines when cultured in vitro without deliberate sensitization. Cytotoxicity, measured by a 3-hr ⁵¹Cr-release assay, was maximum on Days 3 and 4 of culture and was dependent on the presence of fetal calf serum. Neither cell recovery nor blastogenesis, however, invariably correlated with the amount of cytotoxicity generated. Nylon wool adsorption of effector cells cultured 3 days had only a marginal effect on cytotoxicity, whereas cytolysis was markedly reduced (but not totally eliminated) by treatment with anti-T-cell serum and complement. When target cells were in relative excess to effector cells, ⁵¹Cr release was proportional to effector cell number and proceeded for at least 22 hr. The cytotoxicity was not tumor or H-2 specific, and targets without known C-type viral antigens (gp71) were killed as readily as those with easily measurable viral antigens. Nontumorigenic fibroblasts were lysed, but concanavalin A-induced blast cells were not. Cytotoxicity was not augmented in cultures of spleen cells from mice injected with fetal calf serum or with tumor fragments exposed to fetal calf serum. Mercaptoethanol was not necessary for the generation of cytotoxic activity, but T cells and Sephadex G-10 or nylon wool-adherent cells were necessary and the function of the adherent cell could not be replaced by mercaptoethanol. Removal of plastic adherent cells had no effect. Fetal calf serum retained its activity when heated for 45 min at 56 °C or when dialyzed. Dilution and reconcentration by Amicon filtration revealed that the mass of the active material was between 30,000 and 100,000 daltons.The early appearance, transient nature, and nonspecificity of this cytotoxicity distinguish it from antigen-specific reactions. The effector's stability at 37 °C and its relatively easily detectable T-cell markers distinguish it from natural killer and cytotoxic cells. This activity is like lectin-induced cytotoxicity but differs because allogeneic blast cells are not lysed. The observed cytotoxic activity may be of in vivo relevance (vis-à-vis natural killer cells) or, more likely, an in vitro expression of a stage of cell differentiation that T cells may normally pass through during their response to antigen.     

Effects of human colony-stimulating factor on the uptake and destruction of a pathogenic parasite (Trypanosoma cruzi) by human neutrophils

The ability of granulocyte-macrophage colony-stimulating factor (CSF-H) to modulate human neutrophil functions was studied by using an in vitro system in which this cell type interacted with intracellular (amastigote [AMA]) forms of Trypanosoma cruzi. The presence of CSF-H during the 30-min period of neutrophil incubation with the AMA markedly enhanced parasite internalization. This effect was evidenced by significant increases in both the percentage of neutrophils incorporating AMA and the average number of AMA per 100 neutrophils with respect to mock-treated neutrophils. Pretreatment of the neutrophils with CSF-H reproduced the enhancement effect, whereas pretreatment of the AMA had no detectable consequence. The minimal neutrophil CSF-H pretreatment period required to significantly increase the number of AMA per 100 neutrophils was 20 min--suggesting that CSF-H induced time-dependent events ultimately leading to the manifestation of the noted effect--but neutrophil treatment with CSF-H for longer periods of time (up to 60 min) caused a much greater enhancement. Consistent with the notion of a regulatory action of CSF-H on neutrophils was the fact that the enhancing effect subsided gradually after removal of the factor and was no longer detectable after 16 hr. When 3H-labeled AMA were used, CSF-H-treated neutrophils released greater amounts of radiolabeled substances than mock-treated cells, indicating a stimulatory effect of CSF-H on the killing capacity of neutrophils. This was confirmed by the fact that untreated neutrophils that had internalized 3H-AMA killed the parasites at a faster rate when subsequently incubated with CSF-H. Catalase, but not superoxide dismutase, mannitol, benzoate, or histidine, inhibited neutrophil killing of the 3H-AMA whether the granulocytes had been exposed to CSF-H or not. This indicated that the cytotoxic mechanism involved the production of hydrogen peroxide in both cases, but possibly at a higher rate in the CSF-H-treated neutrophils. These results point to a regulatory effect of CSF-H on neutrophils that promotes cellular activities that might be relevant to the mechanisms of clearance of T. cruzi in vivo.     

Selection and characterization of chinese hamster ovary cells resistant to the cytotoxicity of lectins

Summary Chinese hamster ovary (CHO) cells selected in a single step for resistance to the cytotoxicity of the lectin from red kidney beans (PHA) behave as authentic somatic cell mutants. The PHA-resistant (Pha^R) phenotype is stable in the absence of selection; its frequency in a sensitive population is increased several-fold by mutagenesis; and it behaves recessively in somatic cell hybrids. The activity of a specific glycosyl transferase which transfers N-acetylglucosamine (GlcNAc) to terminalα-mannose residues is dramatically reduced (⩽5% of the activity detected in wild-type CHO cells) in several independent Pha^R clones. These clones also exhibit (a) a decreased ability to bind [¹²⁵I]-PHA; (b) a marked resistance to the cytotoxicity of wheat germ agglutinin (WGA), Ricin (RIC) andLens culinaris agglutinin (LCA); (c) a 4- to 5-fold increased sensitivity to the cytotoxicity of concanavalin A (Con A); (d) an increased ability to bind¹²⁵I-Con A; and (e) decreased surface galactose residues—all properties consistent with the specific loss of the GlcNAc transferase activity. The lectins WGA, RIC, LCA and Con A have also been used to select, in a single step, resistant clones from each of two complementary CHO auxotrophic lines. These lectin-resistant clones have been characterized by their ability to survive cytotoxic doses of PHA, Con A, WGA, RIC or LCA, and 4–5 “lectin-resistance” phenotypes have been demonstrated. Complementation data is being sought by somatic cell hybridization. Preliminary results show that two phenotypically-distinct Con A^R mutants are complementary in that hybrid cells formed between them exhibit wild-type sensitivity to Con A. Presented in the formal symposium on Information Transfer in Eukaryotic Cells, at the 26th Annual Meeting of the Tissue Culture Association, Montreal, Quebec, June 2–5, 1975.     

Thymus-dependent and thymus-independent effector functions of mouse lymphoid cells. Comparison of cytotoxicity and primary antibody formation in vitro

We have compared two effector functions, antibody formation and cytotoxic capacity in vitro, of mouse cells of various origin with special reference to the T lymphocyte dependence of these processes. We have used addition of PHA and coating of target chicken erythrocytes (CRBC) with antibody as the two means of inducing cytotoxicity. Antibody formation in vitro has been studied both against thymus-dependent sheep erythrocytes (SRBC) and thymus-independent (E. coli) antigens. Spleen cells from thymectomized, lethally irradiated bone marrow-, or fetal liver-repopulated mice were deprived of phagocytic cells by uptake of colloidal iron. They did perform better than normal spleen cells in the antibody-induced cytotoxicity and were also induced to cytotoxicity by PHA. PHA did not induce increased DNA synthesis in these T cell-deprived spleen cell preparations, which could not make primary antibodies to SRBC but were able to do so against E. coli antigens. Fresh bone marrow and fetal liver cells, deprived of phagocytic cells, were also induced into a highly efficient cytotoxicity by anti-CRBC as well as by PHA. Pretreatment of spleen cells with an alloantiserum (θ) against T lymphocytes reduced but did not abolish the PHA-induced cytotoxicity. In contrast, it did not affect the antibody-induced cytotoxicity. Such treated cells could not make antibodies to SRBC but could do so against E. coli. Pretreatment of spleen cells with a heteroantiserum (MBLA) against mouse B lymphocytes completely abolished all cytotoxic- and antibody-forming abilities of the cells, although experiments with combinations of θ-treated and MBLA-treated cells suggested that the MBLA treatment had left behind a significant portion of helper T cells needed for the in vitro antibody response. From these data we conclude, as have others, that the antibody-induced cytotoxicity is independent of T lymphocytes. It can be induced in immature precursor cells from fetal liver or bone marrow, and these cells may also become cytotoxic on interaction with PHA. However, in normal spleen cells, at least part of the PHA-induced cytotoxicity is T cell dependent. Some preliminary data suggest that this PHA-induced cytotoxicity of normal spleen cells may be a joint process between T lymphocytes and other cells.     

Effect of the o-methyl catechols apocynin,curcumin and vanillin on the cytotoxicity activity of tamoxifen

Apocynin (APO), curcumin (CUR) and vanillin (VAN) are o-methyl catechols widely studied due their antioxidant and antitumour properties. The effect of treatment with these o-methyl catechols on tamoxifen (TAM)-induced cytotoxicity in normal and tumour cells was studied. The cytotoxicity of TAM on red blood cells (RBC) was performed by haemoglobin or K⁺release and on polymorphonuclear leukocytes (PMNs) by trypan blue dye exclusion method. Cytotoxic activity was assessed in human chronic myeloid leukemia (K562) cell line by (3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide). According the release of haemoglobin and K⁺, the CUR showed a decrease in TAM cytotoxicity on RBC; however, in PMN, APO, CUR and VAN showed increased of these cells viability. VAN presented the highest cytotoxicity on K562 cells, followed by APO and CUR. These results point the potential therapeutic value of these o-methyl catechols with TAM, particularly of CUR, which potentiates the cytotoxic effects of TAM on K562 cells and also decreases TAM-associated cytotoxicity on RBC and PMN.