The selective activation of T8+ cells by neuraminidase and galactose oxidase is mediated by activated T4+ cells

The response of highly enriched populations of human T8+ lymphocytes to the oxidative mitogenic enzymes neuraminidase (NA) and galactose oxidase (GO) was enhanced by NAGO-primed T4+ lymphocytes. No similar enhancement occurred when the cells were primed with phytohemagglutinin (PHA). In the absence of subclass contamination (1%), the T8+ and T4+ cells responded equally to NAGO by the criterion of DNA replication. The addition of a small number, 2-10%, of NAGO-T4+ cells to the NAGO-T8+ cells enhanced DNA synthesis by as much as 8.5-fold. Augmentation of the cellular response did not occur unless the T4+ cells were activated by NAGO. The converse situation, 2-10% of NAGO-T8+ cells in a primarily NAGO-T4+ cell population, did not increase the DNA synthetic response of the NAGO-T4+ cells. The NAGO-T4+ cells did not augment the early event of increased phosphatidylinositol metabolism or the midcycle event of induction of receptors for interleukin 2 (IL2) and transferrin. The NAGO-T4+ cells therefore increased the probability that fully activated T8+ lymphocytes crossed the G1/S boundary. The basis for this effect was not an enhanced responsiveness of the NAGO-T8+ cells to IL2 or to other soluble growth mediators in medium conditioned by NAGO-activated lymphocytes. The results of this investigation thus implicate a control point in the NAGO-T8+ lymphocyte cell cycle that is positively modulated by the NAGO-T4+ cells themselves or by a product of their activation.     

Induction of sister chromatid exchanges in Chinese hamster cells by carcinogenic mutagens requiring metabolic activation

The induction of SCEs has proven to be the most sensitive mammalian system for detecting the effects of mutagenic carcinogens. Several chemicals that are mutagenic in the exquisitely sensitive Salmonella mutagenesis test have now been tested in Chinese hamster ovary (CHO) cells in culture. Cells were grown for 24 h (two rounds of DNA replication) in the presence of bromodeoxyuridine (Brd Urd) to form harlequin chromosomes in which it is possible to see the SCEs. To test whether the chemicals increase SCEs without metabolic activation, they were added at various concentrations for the entire culture period. To test if they induce SCEs after activation they were added for 30 min along with microsomes from rat liver (S-9 Mix of Ames). After this treatment the cells were cultured with Brd Urd. N-hydrosy-2-acetylamino-fluorene (10^?6?10^?4 M), N-acetoxy-2-acetylaminofluorenee (10)^?9?10^?7 M), and aflatoxin B₁ (10^?6?10^?4 M) all increased the yield of SCEs with increasing concentration. Further, aflatoxin B₁ was dramatically activated by the addition of rat liver microsomes. Benzo(a)pyrene (10^?6?10^?4 M), however, gave an increase only when activated. 2-aminofluorene (10^?6?10^?4 M) gave a slight increase only after long treatments without activation. In no case did 2-acetylamino-fluorene (10^?6?10^?4 M) increase SCE's. It thus appears that some of the chemicals that are positive in the Salmonella system are negative in the mammalian SCE system. Whether this reflects a difference in sensitivity between the two tests or the ability of the SCE test to discriminate between those chemicals that are active in bacteria, but not in mammals, is as yet unknown.     

Inhibition of the lytic phase of murine T-cell-mediated alloimmune cytotoxicity by a rat antiactivated T-cell antiserum

Antisera produced in rats by immunization with alloimmune murine C57Bl/6 anti-P815 splenic lymphocytes or purified T cells activated in vitro by coculture with phytohemagglutinincoated L-929 cells were found to inhibit the in vitro cytolytic action of in vivo and in vitro alloimmune C57Bl/6 anti-P815 cytotoxic T cells in a 4-hr chromium-51 release assay. The rat anti-murine-activated lymphocyte (anti-MAL) or antiactivated T-cell (anti-ATC) serum inhibited lysis in the absence of exogenously added complement activity and were not directly cytotoxic to CTL. Absorption of anti-MAL with target cells P815, L-929, EL-4, and normal C57Bl/6 lymphocytes removed a limited amount of the CTL-inhibitory activity. In contrast, lectin-activated alloimmune lymphocytes fully absorbed the inhibitory activity indicating these antisera preferentially recognize unique antigenic determinants associated with the activated CTL cell surface. The anti-ATC was found to block alloimmune lysis by CTL from several inbred mouse strains suggesting these antisera recognized antigenic determinants of a common lytic mechanism. A kinetic analysis of the inhibitory activity of the anti-MAL on the CTL reaction scheme revealed this antiserum inhibited lysis at a post-Ca²⁺-dependent step, presumably during the target cell lytic phase. This result suggests the rat antiserum can neutralize the CTL lytic mechanism.     

Antigen-independent activation of memory cytotoxic T cells by interleukin 2

Culture supernatants from mitogen- or antigen-activated murine spleen cells are capable of causing reexpression of specific cytolytic activity from inactive memory cytotoxic T lymphocytes (CTL) in the absence of the original priming antigen. We have demonstrated that memory CTL from cytolytically inactive day 14 MLC cells are induced to reexpress high levels of specific cytotoxic activity after incubation with IL 2. Highly purified IL 2 was shown to induce levels of lytic activity comparable with that induced by supernatants from secondary mixed lymphocyte cultures (secondary MLC SN), suggesting that only IL 2 is necessary for the reactivation process. Moreover, only Lyt-2+ cells are necessary for reactivation inasmuch as inactive MLC cells depleted of Lyt-1+ cells by treatment with antibody and complement, followed by FACS selection of Lyt-2+ cells, were efficiently reactivated by IL 2. Because IL 2 is considered a proliferative signal, we examined whether proliferation was requisite for reactivation of memory CTL by IL 2. In the presence of cytosine arabinoside, which effectively inhibited proliferation, IL 2 was capable of reactivating memory CTL as efficiently as antigen, thus implying a differentiative role for IL 2 in secondary CTL activation. Reactivation of CTL by IL 2 and antigen appear to be functionally distinct events, because antigen but not IL 2 could trigger immune interferon release, although either IL 2 or antigen induced high levels of cytotoxicity. We propose that resting, memory CTL retain a heightened level of expression of IL 2 receptors as compared with naive CTL precursors, and thus are able to respond directly to exogenous IL 2. The consequences of this are proliferation and reexpression of specific killing activity, but this signal is not sufficient to induce immune interferon secretion. Rather, it appears that a signal via the antigen receptor is necessary for release of this lymphokine.     

Activation and inhibition of the action potential Na+ ionophore of cultured rat muscle cells by neurotoxins.

Both myoblasts and myotubes in cultures of clonal rat muscle cells have action potential Na⁺ ionophore activity. The ionophore is activated by batrachotoxin (K_0.5 = 3 to 5 × 10^?7 M) and veratridine (K_0.5 = 4 to 6 × 10^?5 M) which compete for the same activation site. As in denervated rat muscle, the ionophore of cultured muscle is 100 fold more resistant to inhibition by tetrodotoxin (K_0.5 = 1.5 to 3 × 10^?6 M) and 20 fold more resistant to inhibition by saxitoxin (K_0.5 = 1.5 to 3 × 10^?7 M) than in nerve, innervated muscle, or cultured neuroblastoma cells.     

2B4 (CD244) signaling via chimeric receptors costimulates tumor-antigen specific proliferation and in vitro expansion of human T cells

Regulatory NK cell receptors can contribute to antigen-specific adaptive immune responses by modulating T cell receptor (TCR)-induced T cell activation. We investigated the potential of the NK cell receptor 2B4 (CD244) to enhance tumor antigen-induced activation of human T cells. 2B4 is a member of the CD2 receptor subfamily with both activating and inhibitory functions in NK cells. In T cells, its expression is positively associated with the acquisition of a cytolytic effector memory phenotype. Recombinant chimeric receptors that link extracellular single-chain Fv fragments specific for the tumor-associated surface antigens CD19 and G_D2 to the signaling domains of human 2B4 and/or TCRζ were expressed in non-specifically activated peripheral blood T cells by retroviral gene transfer. While 2B4 signaling alone failed to induce T cell effector functions or proliferation, it significantly augmented the antigen-specific activation responses induced by TCRζ. 2B4 costimulation did not affect the predominant effector memory phenotype of expanding T cells, nor did it increase the proportion of T cells with regulatory phenotype (CD4+CD25^hiFoxP3+). These data support a costimulatory role for 2B4 in human T cell subpopulations. As an amplifier of TCR-mediated signals, 2B4 may provide a powerful new tool for immunotherapy of cancer, promoting sustained activation and proliferation of gene-modified antitumor T cells.     

Periodate-induced lymphocyte transformation : II. Character of response and comparison with phytohemagglutinin and pokeweed mitogen stimulation

Sodium metaperiodate is mitogenic for human peripheral lymphocytes. Evidence of stimulation can be detected as increased thymidine incorporation at 72 h after only 10 sec of exposure to the IO₄⁻. The degree of response varies with lymphocytes from different donors, but maximum stimulation for the healthy donors studied was obtained at concentrations of IO₄⁻ between 10⁻³ M and 4 × 10⁻³ M. Concentrations of 8 × 10⁻³ M and above are non-stimulatory and toxic. Exposures to optimum concentrations for 1 h or longer result in essentially no stimulation and inincreased cell death. However, a significant response to phytohemagglutinin (PHA) and pokeweed mitogen (PWM) remains. The kinetics of response over a 4 day culture period are similar for IO₄⁻, PHA and PWM. The morphology of the blast cells and the degree of response suggest that the IO₄⁻ responsive lymphocyte population may be more closely related to the PWM stimulated cells than the PHA responsive lymphocytes.     

Granulysin-expressing CD4+ T cells as candidate immune marker for tuberculosis during childhood and adolescence

Background

Granulysin produced by cytolytic T cells directly contributes to immune defense against tuberculosis (TB). We investigated granulysin as a candidate immune marker for childhood and adolescent TB.

Methods

Peripheral blood mononuclear cells (PBMC) from children and adolescents (1–17 years) with active TB, latent TB infection (LTBI), nontuberculous mycobacteria (NTM) infection and from uninfected controls were isolated and restimulated in a 7-day restimulation assay. Intracellular staining was then performed to analyze antigen-specific induction of activation markers and cytotoxic proteins, notably, granulysin in CD4⁺ CD45RO⁺ memory T cells.

Results

CD4⁺ CD45RO⁺ T cells co-expressing granulysin with specificity for Mycobacterium tuberculosis (Mtb) were present in high frequency in TB-experienced children and adolescents. Proliferating memory T cells (CFSE_lowCD4⁺CD45RO⁺) were identified as main source of granulysin and these cells expressed both central and effector memory phenotype. PBMC from study participants after TB drug therapy revealed that granulysin-expressing CD4⁺ T cells are long-lived, and express several activation and cytotoxicity markers with a proportion of cells being interferon-gamma-positive. In addition, granulysin-expressing T cell lines showed cytolytic activity against Mtb-infected target cells.

Conclusions

Our data suggest granulysin expression by CD4⁺ memory T cells as candidate immune marker for TB infection, notably, in childhood and adolescence.     

Intravenous administration of stabilized antisense lipid particles (SALP) leads to activation and expansion of liver natural killer cells

Stabilized antisense lipid particles (SALP) have been developed for the systemic delivery of oligonucleotides. The impact of intravenous SALP administration was measured with respect to activation of natural killer (NK) and NK1.1+ T (NKT) cells in the livers of immunocompetent mice. Treatment with a SALP containing a highly mitogenic oligonucleotide (INX-6295) generated an increase in NK cytolytic activity and cell number within the liver but did not appear to affect the number of hepatic NKT cells or their cytolytic activity. The same results were observed after intravenous administration of the mitogenic oligonucleotide alone. Interestingly, treatment with a SALP containing a weakly mitogenic oligonucleotide (INX-6300) also activated the liver NK cells, whereas the oligonucleotide alone was unable to elicit these effects. The NK stimulatory activity of a SALP containing INX-6300 required both lipid and oligonucleotide components. These results demonstrate that in addition to modifying the pharmacokinetics and biodistribution of intravenously administered oligonucleotides, SALP possess immunostimulatory activity independent of oligonucleotide mitogenicity, which can serve as an adjuvant to antisense therapies for cancer.     

Generation of cytolytic T lymphocytes in vitro. X. Induction of primary and secondary CTL responses by the mitogen sodium periodate.

Short-term (15 min) sodium periodate (NaIO4) treatment of mouse spleen cells previously primed in vivo or in vitro against alloantigens induced the formation of secondary (2 degree) cytolytic T lymphocytes (CTL) specific for the priming antigens. CTL formation was readily demonstrable within 24 hr after treatment.This early CTL response occurred equally well in the presence or absence of cytosine arabinoside (Ara C), indicating that NaIO4 could induce CTL independently of DNA synthesis. Forty-eight hours after periodate treatment, the lytic activity was similar to that observed in parallel cultures stimulated with irradiated allogeneic spleen cells, although the peak activity was reached earlier (day 4) and was somewhat lower than that induced by alloantigen. The addition of irradiated NaIO4-treated unprimed syngeneic spleen cells to cultures of untreated alloimmune spleen cells also led to CTL formation, which suggests an indirect mechanism of activation. In contrast to alloimmune spleen cells, normal spleen cells treated with NaIO4 developed only very low levels of cytotoxicity after 4 days of incubation. However, in the presence of PHA, such cells were capable of lysing syngeneic and allogeneic target cells.     

LY-2+ effectors cytotoxic for syngeneic tumor cells: generation by allogeneic stimulation and by supernatants from mixed leukocyte cultures

The present study was aimed at gaining insight into means by which stimulation of mouse spleen cells with allogeneic normal cells in mixed leukocyte cultures (MLC) can result in the generation of effector cells cytotoxic for syngeneic tumor or transformed cells. Stimulation of lymphocytes from BALB/c or C3H mice for 5 days with cells from mice of every allogeneic strain tested, in medium containing mouse serum and lacking xenogeneic serum, resulted in the activation of effectors cytotoxic for syngeneic cells transformed spontaneously or by SV40, polyoma or adenovirus. In each experiment, all of the syngeneic transformed cell lines, as well as clones derived from these lines, were lysed to the highest degree by effectors obtained from the same culture, and therefore stimulated with cells from the same allogeneic strain. Although the particular allogeneic sensitizing strain that induced the highest cytolytic activity varied between experiments, effectors obtained from the culture with the highest cell recovery always exhibited the greatest cytotoxicity against all the syngeneic transformed cells and clones. Lysis was mediated predominantly by Ly-2+ effectors; total lytic units of cytotoxicity recovered after treatment with monoclonal anti-Ly-2 antibody and complement (C) were reduced by 85 to 90% compared to cells treated with C alone. Lysis of syngeneic tumor cells by the allosensitized effectors in cytotoxicity assays was not inhibited by the addition of unlabeled "blocking" lymphocytes from the allogeneic strain used for sensitization. In addition, it was found that lymphocytes cultured without stimulating cells for 5 days in medium supplemented with supernatants from secondary MLC that are known to contain high levels of lymphokines, mediated high levels of cytotoxicity on all the transformed cells tested, but lacked detectable cytotoxic activity for syngeneic or allogeneic Con A blasts. The MLC supernatant-activated effectors that lyse the transformed cells are phenotypically CTL, because treatment with anti-Ly-2 and C reduced lytic activity by approximately 75%. Taken together, these findings suggest that the generation in MLC of Ly-2+ effector cells cytotoxic for syngeneic transformed cell lines might not be due, in some cases, to lymphocyte responses to particular alloantigens on the stimulating cells that are cross-reactive with "alien" histocompatibility antigens on transformed cells, but rather is due to effector cell activation by lymphokines produced during allogeneic stimulation.     

Intracellular chloride regulates cell proliferation through the activation of stress‐activated protein kinases in MKN28 human gastric cancer cells

Recently, we reported that reduction of intracellular Cl^? concentration ([Cl^?]_i) inhibited proliferation of MKN28 gastric cancer cells by diminishing the transition rate from G₁ to S cell‐cycle phase through upregulation of p21, cyclin‐dependent kinase inhibitor, in a p53‐independent manner. However, it is still unknown how intracellular Cl^? regulates p21 expression level. In this study, we demonstrate that mitogen‐activated protein kinases (MAPKs) are involved in the p21 upregulation and cell‐cycle arrest induced by reduction of [Cl^?]_i. Culture of MKN28 cells in a low Cl^? medium significantly induced phosphorylation (activation) of MAPKs (ERK, p38, and JNK) and G₁/S cell‐cycle arrest. To clarify the involvement of MAPKs in p21 upregulation and cell growth inhibition in the low Cl^? medium, we studied effects of specific MAPKs inhibitors on p21 upregulation and G₁/S cell‐cycle arrest in MKN28 cells. Treatment with an inhibitor of p38 or JNK significantly suppressed p21 upregulation caused by culture in a low Cl^? medium and rescued MKN28 cells from the low Cl^?‐induced G₁ cell‐cycle arrest, whereas treatment with an ERK inhibitor had no significant effect on p21 expression or the growth of MKN28 cells in the low Cl^? medium. These results strongly suggest that the intracellular Cl^? affects the cell proliferation via activation of p38 and/or JNK cascades through upregulation of the cyclin‐dependent kinase inhibitor (p21) in a p53‐independent manner in MKN28 cells. J. Cell. Physiol. 223:764–770, 2010. © 2010 Wiley‐Liss, Inc.     

Down-Regulation of T-Cell Proliferation in Response to Soluble Anti-CD3 Antibodies through Development of Redirected Cytolytic Activity Eliminating Costimulatory Cells

CD4⁺ T-depleted spleen cells (CD8⁺ T cells) activated by anti-CD3 antibodies (aCD3) suppressed proliferation of CD8⁺ T-depleted spleen cells (CD4⁺ T cells) and fresh normal T cells in response to aCD3. Antigen-nonspecific cytolytic activity was induced in splenic CD8⁺ T cells by stimulation with aCD3 and showed the peak level on day 3, whereas cytolytic activity induced in CD4⁺ T cells was weak. Intact Ig but not F(ab')₂ of aCD3 induced and mediated cytolytic activity. Correspondingly, the cytolytic activity induced by aCD3 was directed against target cells bearing Ig-binding Fc-receptor activity and cytolysis was inhibited by the addition of free Ig into the assay system. We showed that aCD3-activated T cells carried a high level of aCD3 on their surface at the time after the peak proliferation when they attained high cytolytic activity. This raised the possibility that the anti-CD3-induced aCD3-redirected cytolytic activity eliminated Fc-receptor-bearing costimulatory cells in the culture for down-regulation of the T-cell proliferation. This view was supported by partial restoration of anti-CD3-induced low responsiveness of CD8⁺ T cells by the addition of fresh costimulatory cells. These results suggested a new pathway of down-regulation of T-cell proliferation by aCD3-activated cytolytic CD8⁺ T cells.     

Inhibition of T cell-mediated cytolysis by 2-deoxy-D-glucose (2-DG): differential effect of 2-DG on effector cells isolated early or late after alloantigenic stimulation in vitro.

The effect of the hexose analogue 2-deoxy-D-glucose (2-DG) on the functional activity of various populations of cytolytic T lymphocytes (CTL) has been compared. Under aerobic conditions, CTL harvested at the peak of the response (day 4) in primary or secondary mixed leukocyte cultures (MLC) were much more readily inhibited by 2-DG that CTL obtained from MLC at later times (day 11 to 18) or from the peritoneal cavity of alloimmune mice. Quantitatively, 0.4 mM 2-DG was sufficpient to inhibit cytolysis by 50% in day 4 CTL populatons, whereas 25 mM had little or no effect on day 11 to 18 CTL. Evidence was obtained that inhibition of cytolysis by 2-DG under these conditions was accompanied by a parallel inhibition of effector:target cell binding. In contradistinction to these findings, the cytolytic activity of both day 4 and day 11 MLC cells was readily inhibited by 2-DG under conditions where cell respiration was blocked by sodium azide. Furthermore, uptake of radiolabeled 2-DG was observed under aerobic conditions in both day 4 and day 11 MLC cells. These results strongly suggest that inhibition of cytolysis by 2-DG under aerobic conditions is mediated via a direct effect on CTL which is independent of the consequences of energy depletion. An indirect method by which CTL may be inhibited by 2-DG is suggested.     

Induction of activated natural killer cells from murine spleen cells primed in vivo and subsequently challenged in vitro with the streptococcal preparation OK432

Summary The present study shows that natural killer cell-mediated cytotoxicity of BALB/c mouse spleen cells to syngeneic tumor cells was augmented by in vivo priming or in vitro stimulation with the streptococcal preparation OK432. The augmentation of spleen cell cytotoxicity to syngeneic tumor cells by in vivo priming alone with OK432 was lower than that obtained by in vitro stimulation alone with OK432. When the murine spleen cells primed in vivo with OK432 were rechallenged in vitro with OK432 at various intervals, the natural cytotoxicity was more strongly enhanced than that seen with in vitro stimulation alone. The cell surface phenotype of killer cells activated with OK432 was Thy 1⁺ and asialo GM _inf1 ^sup+ , suggesting the activated natural killer cell. Next, mice were transplanted with syngeneic colon adenocarcinoma cells, and primed in vivo with OK432. These spleen cells were subsequently challenged in vitro with OK432. These spleen cells displayed a strong cytotoxic activity not only to the transplanted adenocarcinoma cells but also to other syngeneic tumor cells.     

Further studies on the differences in cytotoxicity of human peripheral blood monocytes and bronchoalveolar macrophages for cultured human lung cells

Summary Previously reported differences between the cytostatic activity of human peripheral blood monocytes (PBM) and bronchoalveolar macrophages (BAM) for cultured human lung tumor cells have been further investigated. The differences are both quantitative and qualitative and are shown not to be due to the respective methods of purification. There was a varying contribution of cytolysis to the cytostasis detected by the ⁷⁵selenomethionine post-labeling assay used. Bronchoalveolar macrophages were cytolytic when tested at both low and high E: T ratios but PBM were only cytolytic at the low E: T ratio. A variable dependence upon soluble cytostatic factor(s) was suggested, and there was evidence of heterogeneity in the factors released by the two populations. Cytostatic factor production by both populations appeared to be under similar regulatory constraints. In vitro maturation of PBM altered their cytostatic dose-response curve to one resembling that previously reported for BAM. It was also shown that sera from poor-prognosis lung tumor patients, which suppressed the in vitro maturation of PBM, also suppressed the in vitro cytostatic activity of PBM for cultured human lung tumor cells.     

Suppressor T cells induced by soluble immune complexes can adoptively transfer inhibition of cytophilic antibody receptors on macrophages.

Immune complexes (soluble antigens of L1210 and antibody to L1210) when given to allogeneic C3H mice generated suppressor cells that inhibited receptors for cytophilic antibody on macrophages. Thymocytes or nylon-nonadherent splenic T cells (4 × 10⁷) from immune-complex-treated mice transferred this suppressive activity when injected into normal syngeneic mice. Maximal suppression of macrophages occurred 4 to 6 days after transfer. In contrast, even 5 × 10⁷ nylon-adherent, non-T spleen cells from immune-complex-treated (“suppressed”) mice failed to induce macrophage suppression in the syngeneic recipients. When T-cell-depleted “B” mice were used as recipients, neither thymocytes nor splenic T cells from suppressed mice were able to transfer suppressive activity. However, the admixture of 2 × 10⁷ normal syngeneic thymocytes with 4 × 10⁷ thymocytes from suppressed mice restored the latter's ability to elicit suppression of macrophages in T-cell-deprived recipients. Peritoneal monocytes from recipients of suppressor thymocytes (to L1210) could not attach cytophilic antibody to L1210 but could attach cytophilic antibody to EL-4 and sheep erythrocytes. Thus, suppressor T cells induced by immune complexes can transfer immunologically specific macrophage suppression (inhibition of cytophilic antibody receptors) to syngeneic recipients. The suppressor cells required the cooperation of normal T cells, suggesting either recruitment of suppressor cells from, or a helper effect by, the normal T cells, in order to produce their effect.     

In vitro expression of secondary antitumor immunity by in vivo tumor-sensitized T cells: Inhibition by tumor-induced suppressor T cells

Summary In vitro cultivation of memory immune cells from P815- or P388-immune mice with corresponding irradiated tumor cells induced generation of cytolytic T cells (CTL). The induction of CTL generation, as well as the cytolytic activity itself, was tumor-specific. The in vitro generation of CTL from P815- or P388-immune cells was suppressed by spleen cells from mice bearing corresponding progressive tumors (tumor size 15 mm). The tumor-induced suppressor cells suppressed the in vitro generation of CTL, but did not affect their cytolytic function. The suppression was tumor-specific and was mediated by Ly1⁺2^–L3T4⁺ T cells. Treatment of suppressor cell donors with cyclophosphamide or sublethal -radiation completely abolished the ability of their spleen cells to inhibit the in vitro CTL generation.     

In vivo antitumor effects of murine interferon- γ -inducing factor/interleukin-18 in mice bearing syngeneic Meth A sarcoma malignant ascites

Interferon-γ-inducing factor/interleukin-18 is a novel cytokine that reportedly augments natural killer (NK) activity in human and mouse peripheral blood mononuclear cell cultures in vitro and has recently been designated IL-18. In this study, IL-18 exhibited significant antitumor effects in BALB/c mice challenged intraperitoneally (i.p.) with syngeneic Meth A sarcoma when administered i.p. on days 1, 2 and 3 after challenge. Intravenous (i.v.) administration also induced antitumor effects in the tumor-bearing mice; however, subcutaneous (s.c.) administration did not. When mice were twice pretreated with 1 μg IL-18 3 days and 6 h before tumor challenge, all mice survived whereas control mice died within 3 weeks of challenge. Inhibitory effects on Meth A cell growth in vitro were not observed with either IL-18 or interferon γ. The effects of IL-18 pretreatment were abrogated by abolition of NK activity after mice had been injected with anti-asialo GM1 antibody 48 h before and, 24 h and 72 h after tumor challenge. Mice pretreated with IL-18 and surviving tumor challenge resisted rechallenge with Meth A cells but could not reject Ehrlich ascites carcinoma, and spleen cells from the resistant mice, but not control mice, exhibited cytotoxic activity against Meth A cells in vitro after restimulation with mitomycin C-treated Meth A cells for 5 days. The effector cells in the spleen cell preparations from resistant mice appear to be CD4⁺ cells because cytolytic activity was significantly inhibited after depletion of this subset by monoclonal antibodies and complement. In conclusion, IL-18 exhibits in vivo immunologically (primarily NK) mediated antitumor effects in mice challenged with syngeneic Meth A sarcoma and induces immunological memory and the generation of cytotoxic CD4⁺ cells. Received: 17 September 1996 / Accepted: 8 November 1996     

Macrophage-mediated cytolysis of erythrocytes in the guinea pig. II. Role of oxidative burst products in macrophage cytotoxicity activated by lectins and phorbol ester derivatives

Guinea pig peritoneal macrophages (GPPM) exhibited enhanced production of O₂^? and H₂O₂, and cytolytic activity toward erythrocytes, in response to reagents such as 12-O-tetradecanoyl-phorbol-13-acetate (TPA), its methylated derivative 4-O-MeTPA, Con A, wheat germ agglutinin (WGA), and opsonized zymosan. In order to examine the possible role of oxidative burst products such as O₂^? and H₂O₂ in the cytolytic process, we used reagents and enzymes which influence the balance of O₂^? and H₂O₂ outside and inside the GPPM cells. Macrophage-mediated cytolysis (MMC) of erythrocytes in the presence of the activators and modulators was assessed by ⁵¹Cr release assay. MMC activated by TPA and 4-O-MeTPA was inhibited by scavengers of H₂O₂ such as catalase and α-tocopherol, and was augmented by the catalase inhibitor 3-amino-1,2,4-triazole, and by horseradish peroxidase. TPA- and 4-O-MeTPA-activated MMC was only partially inhibited by the O₂^? scavenger cytochrome c and the enzyme superoxide dismutase and unaffected by cytochalasin D (an inhibitor of phagocytosis). MMC activated by the lectins Con A and WGA was unaffected by the scavengers and enzymes used, but markedly inhibited by cytochalasin D. Activation of MMC by TPA, WGA, and phagocytosis of opsonized zymosan, as well as O₂^? and H₂O₂ generation triggered by these reagents, were markedly inhibited by chlorpromazine. The results indicate that GPPM-mediated cytolysis activated by lectins, phorbol ester derivatives, and phagocytosis of opsonized zymosan, is dependent on the generation of oxidative burst products, mainly H₂O₂. TPA- or 4-O-MeTPA-activated MMC is mainly an extracellular event, while lectin-activated MMC may take place within the macrophages.