Glucocorticoid inhibition of lymphokine secretion by alloreactive T lymphocyte clones

The effect of glucocorticoids on lymphokine production by T lymphocytes was examined by using long-term alloreactive T cell clones that secreted one or more of the lymphokines interleukin 2 (IL 2), interferon-gamma, macrophage-activating factor (MAF), and colony-stimulating factor when stimulated by an antigen or a mitogen. Production of all of these four lymphokines was inhibited when glucocorticoids were added at physiologic concentrations (10(-8) to 10(-6) M) to clones stimulated with concanavalin A (Con A). Clones were heterogeneous with respect to their sensitivity to glucocorticoid inhibition of MAF production; cytolytic clones were generally more resistant than noncytolytic clones. The glucocorticoid dexamethasone (Dex) and an IL 2-containing supernatant exerted opposing effects on clonal MAF production. Kinetics experiments showed that Dex inhibited MAF production by reducing the rate of secretion without causing a compensatory increase in the duration of secretion, whereas the IL 2 source increased the rate and the total amount of MAF secretion. Dex abrogated the effect of IL 2. Inhibition by Dex was apparent from the earliest time of detectable MAF production (about 4 hr after stimulation) and increased with longer exposure until production ceased (12 to 24 hr). Pre-exposure and removal of Dex before Con A stimulation also inhibited MAF release. Effects of Dex on lymphokine secretion by clones could be dissociated from effects on their growth in response to stimulator cells and IL 2. Factor production by the 16 clones tested was inhibited to some degree. Proliferation, however, by two of these clones (both cytolytic) was unaffected by Dex, whereas proliferation of two noncytolytic clones was strongly inhibited even in the presence of a saturating dose of IL 2.     

Potentiation of lymphokine-induced macrophage activation by tumor necrosis factor-alpha

In this study, we examined the possible role of TNF-alpha and lymphotoxin (TNF-beta) as cofactors of macrophage activation. The results demonstrate that both TNF were capable of enhancing the cytostatic and cytolytic activity of murine peritoneal macrophages against Eb lymphoma cells. The potentiation of tumor cytotoxicity became apparent when macrophages from DBA/2 mice were suboptimally activated by either a T cell clone-derived macrophage-activating factor or by IFN-gamma plus LPS. Neither TNF-alpha nor TNF-beta could induce tumor cytotoxicity in IFN-gamma-primed macrophages, indicating that TNF cannot replace LPS as a triggering signal of activation. In LPS-resistant C3H/HeJ macrophages, which were unresponsive to IFN-gamma plus LPS, a supplementation with TNF fully restored activation to tumor cytotoxicity. Furthermore, TNF-alpha potentiated a variety of other functions in low-level activated macrophages such as a lactate production and release of cytotoxic factors. At the same time, TNF-alpha produced a further down-regulation of pinocytosis, tumor cell binding and RNA synthesis observed in activated macrophages. These data demonstrate new activities for both TNF-alpha and TNF-beta as helper factors that facilitate macrophage activation. In particular, the macrophage product TNF-alpha may serve as an autocrine signal to potentiate those macrophage functions that were insufficiently activated by lymphokines.     

Interleukin 2 enhancement of lymphokine secretion by T lymphocytes: analysis of established clones and primary limiting dilution microcultures

The effect of exogenous interleukin 2 (IL 2) on lymphokine production by T lymphocytes was examined in two systems: the secretion of macrophage-activating factor (MAF) and interferon (IFN) by cloned long-term T cell lines, and a limiting dilution system for estimating the frequency of precursors of MAF-secreting cells in normal spleen. An IL 2-containing, MAF- and IFN-free supernatant from the EL-4 thymoma (EL-4 SN) significantly enhanced release of MAF and IFN by mitogen- or antigen-stimulated, cytolytic or noncytolytic T lymphocyte clones directed against alloantigens or Moloney leukemia virus-associated antigens. Highly purified IL 2 produced equivalent enhancement as EL-4 SN in cultures of alloreactive clones stimulated with concanavalin A. Kinetics experiments showed that EL-4 SN increased both the rate and duration of MAF release by T cell clones. EL-4 SN also increased MAF production when added during restimulation of limiting dilution cultures of positively selected Lyt-2+ and Lyt-2- C57BL/6 splenic T lymphocytes activated against DBA/2 alloantigens. This enhancement resulted in a threefold increase in the apparent precursor frequency of MAF-secreting cells among Lyt-2+ lymphocytes, but did not affect the frequency among Lyt-2- cells. Additional analysis indicated that average MAF production in cultures of Lyt-2-+ cells was sixfold lower than in cultures of Lyt-2- cells, and hence that EL-4 SN allowed detection of a significant proportion of Lyt-2+ cell cultures secreting low levels of MAF. Under these improved conditions, the MAF assay detected the majority of responding Lyt-2+ and Lyt-2- lymphocytes.     

T cell clones for antigen selection and lymphokine production in murine Schistosomiasis mansoni.

The role of T cells in immunity to murine schistosomiasis was examined through the use of T cell clones that recognize the live schistosomulum stage of Schistosoma mansoni. T cell clones of three different phenotypes were isolated and expanded into long term culture from lymph nodes of C57B1/6J mice vaccinated with irradiated S. mansoni larvae. They were characterized by surface markers, lymphokine production, and functional assays. The m.w. range of the Ag recognized by one clone was identified through nitrocellulose blotting and confirmed with a preparation of the putative protein made by immunoaffinity purification. All but one of the clones were CD4+, CD5+, Th cells. One clone, 35, produced Il-2 and IFN-gamma and was designated a TH1 clone. The others were designated TH2 clones because of Il-4 production. One clone was CD8+ and failed to show help. Clone 35 recognized live schistosomula and produced Il-2 when presented a 27-kDa protein from nitrocellulose. It proliferated in response to purified Ag. Clone 35 participated along with macrophages to induce up to 98% killing of live schistosomula in vitro. IFN-gamma and TNF-alpha were essential to the killing mechanism whereas Il-1, Il-2, and Il-4 were not required. This study has approached Ag identification for vaccine development from the point of view of T cells and showed that TH1 cells are essential to in vitro macrophage killing of schistosomula in murine schistosomiasis.     

Regulation of macrophage-mediated tumor cell killing by prostaglandins: comparison of the effects of PGE2 and PGI2

Mouse resident peritoneal macrophages stimulated in vitro by purified bacterial lipopolysaccharide (LPS) produced both prostaglandin E2 (PGE2) and prostaglandin I2 (PGI2), the latter detected as its stable metabolite, 6-keto PGF1 alpha. Maximum production, induced in each case by 1 ng/ml purified LPS, was in the range of 10(-7)M for PGI2 and 3 x 10(-8)M for PGE2. A quantitatively similar increase in intracellular levels of macrophage cyclic AMP (measured on a whole cell basis), with a similar duration of effect, was stimulated by PGE2 and PGI2; however, only PGE2 had a negative regulatory effect on macrophage activation for tumor cell killing. These data confirm that more than a whole cell increase in the concentration of cyclic AMP is needed to shut off nonspecific tumor cell killing mediated by LPS-activated resident peritoneal macrophages.     

Cytostasis of tumor cell lines by human granulocytes

Purified peripheral blood granulocytes from normal adult donors were tested for cytolytic and cytostatic activity against a variety of tumor-derived, virus-transformed, and normal cell lines. Altogether, 45 donors and 16 cell lines were tested. Although granulocytes mediated antibody-dependent cell-mediated cytolysis, no spontaneous cytolysis, as measured by chromium-51 (⁵¹Cr) or [³H]thymidine ([³H]TdR) release could be detected in assays performed for up to 12 hr, even at an effector:target (E:T) cell ratio of 100:1. In contrast, granulocytes exhibited substantial growth-inhibitory activity (GIA) against most target cells, as measured by uptake of [³H]TdR by the target cells. These results were confirmed by visual counting of target cells. The degree of cytostasis was dependent on the E:T ratio, with a plateau of 80–95% inhibition usually reached at a ratio of 40:1. Inhibition of growth of adherent tumor target cells was accompanied by cell detachment, with both effects apparent by 5 hr and reaching a peak after 15 hr of incubation. With nonadherent targets, the onset and the peak of cytostasis were delayed, being observed after 8 and 24 hr, respectively. Growth of target cells remained inhibited for up to 4 days of culture. A wide variety of target cells were sensitive to granulocyte-mediated cytostasis, including tumor-derived human and mouse cell lines, lymphoblastoid cell lines from normal donors, and embryo fibroblasts. Normal human fibroblasts were inhibited only at high E:T ratios (40:1). PHA-induced lymphoblasts were the only target cells tested that were completely resistant to the cytostatic effects of granulocytes and in fact, their growth was slightly stimulated. There appeared to be two somewhat different mechanisms of growth inhibition by granulocytes, which varied with the target cell. Trypsinization of granulocytes markedly reduced their reactivity against adherent target cells but had little effect on GIA against suspension target cells. Also, the activity against F-265, but not against other target cells, was almost completely abrogated in the presence of catalase, suggesting an important role of hydrogen peroxide in one mechanism of granulocytemediated cytostasis.     

Anti-tumor activity of class II MHC antigen-restricted cloned autoreactive T cells. I. Destruction of B16 melanoma cells mediated by bystander cytolysis in vitro

Two Lyt-1+, L3T4a+ autoreactive T cell clones specific for self-class II major histocompatibility complex (MHC) gene products were established from lymph node cells and spleen cells of C57BL/6J mice, respectively, by different methods. They were stimulated to proliferate in culture in response to I-Ab antigen-bearing syngeneic spleen cells in a class II MHC-restricted manner. This stimulation was inhibited completely by the addition of anti-L3T4a (GK1.5) or anti-I-Ab (3JP) monoclonal antibodies. The autoreactive T cell clones lysed syngeneic I-Ab+ target cells such as lipopolysaccharide (LPS) blasts. They also lysed I-A- bystander cells such as Cloudman and B16 melanoma and lymphoid tumor cells in the presence of I-Ab+ stimulator cells but not I-Ad+ cells. This bystander killing was most likely mediated by soluble factors released from the autoreactive T cells in response to I-Ab antigens, because culture supernatants from activated autoreactive T cells inhibited the proliferation of B16 melanoma cells in vitro and also had significant cytolytic activity. Both lymphotoxin and interferon-gamma were released from activated autoreactive T cells, suggesting that these cytotoxic lymphokines were responsible for autoreactive T cell-mediated cytolysis. The finding that the two clones, established independently and by different methods, show self-class II MHC antigen-restricted cytolysis, and bystander cytolysis suggests that these properties are not restricted to a unique population of autoreactive T cells. These results favor the concept that in vivo, autoreactive T cells may express not only regulatory activity in regard to antibody responses, but also anti-tumor activity via bystander cytolysis.     

Identification and characterization of a human T cell line-derived lymphokine with MAF-like activity distinct from interferon-gamma

Culture supernatants of several human T cell leukemia cell lines were screened for macrophage-activating activity (MAF) as defined by induction of tumoricidal activity against human melanoma cells in a 72-hr assay. Two cell lines, MT-2 and C10/MJ2, were found to produce high levels of MAF activity constitutively, but the MT-2 cell line, unlike C10/MJ2, produced little IFN-gamma. This observation was confirmed by Northern blot analysis performed with specific IFN-gamma cDNA probe. The MT-2 cell line thus provides a useful system to evaluate the existence of lymphokines with MAF activity that are distinct from IFN-gamma. The MAF activity produced by MT-2 cells was distinguished from IFN-gamma by the following criteria. MAF activity was not removed by immunoaffinity chromatography with the use of immobilized specific polyclonal antibodies to IFN-gamma and was not neutralized by a monoclonal antibody to IFN-gamma. Heat or acid treatments of IFN-gamma resulted in loss of its antiviral activity, but these treatments had no effect on MAF activity. MAF activity was not abolished by polymyxin B sulfate, suggesting that this activity is not mediated by or dependent on LPS. Initial characterization studies performed by using membrane filtration, gel filtration chromatography, and isoelectric focusing indicate that the non-IFN-gamma MAF activity produced by MT-2 cells has an apparent m.w. of 55,000 and an isoelectric point of 5.5. Collectively, these data suggest that the MT-2 human T cell line constitutively produces high levels of MAF and low levels of IFN-gamma and offers a useful source for the further purification of a unique human lymphokine with macrophage-activating activity that is distinct from IFN-gamma.     

Secretion of interleukin 2, macrophage-activating factor, interferon, and colony-stimulating factor by alloreactive T lymphocyte clones

Sixty-four murine alloreactive, cytolytic and noncytolytic , T lymphocyte clones were tested for the production of interleukin 2 (IL 2), macrophage-activating factor (MAF), interferon (IFN), and colony-stimulating factor (CSF). Approximately 90% of both cytolytic and noncytolytic clones secreted MAF and IFN upon antigen or mitogen stimulation. IL 2, in contrast, was only released in detectable amounts by 50% of noncytolytic clones and 50% of a subclass of cytolytic clones in which the proliferation was independent of exogenous IL 2 ("antigen-driven" clones); IL 2-dependent cytolytic clones did not release measurable IL 2. CSF was secreted by approximately 90% of noncytolytic and IL 2-independent cytolytic clones and 40% of IL 2-dependent cytolytic clones. The analysis reported here revealed a strong quantitative correlation between the titers of MAF and IFN released by the clones, suggesting that these two assays may measure the same lymphokine. Although the other activities measured were not directly correlated, a broad association was noted between IL 2 secretion and the production of high titers of MAF, IFN, and CSF. Thus, noncytolytic and IL 2-independent cytolytic clones on average released significantly higher titers of these factors than IL 2-dependent cytolytic clones.     

T3 monoclonal antibody activation of nonspecific cytolysis: a mechanism of CTL inhibition

The T3 antigen is expressed on all cytotoxic T lymphocytes (CTL). Monoclonal antibodies (MAb) to the T3 antigen previously have been shown to inhibit CTL-mediated killing of cells expressing the relevant target antigens. The mechanism of T3 MAb inhibition, however, remains undefined. In this report, we describe a novel effect of the T3 MAb: the stimulation of allospecific CTL clones to kill target cells that do not express the relevant HLA antigens. The stimulation of nonspecific killing was seen only with MAb to the T3 antigen; MAb to other function-associated antigens (e.g., LFA-1, LFA-2, LFA-3, T4, T8, HLA-A,B,C, and DR) had no effect. T3 MAb stimulated nonspecific killing by CTL clones expressing both the T4+ and T8+ phenotype and by CTL clones specific for both class I and class II HLA alloantigens. Target cell susceptibility to T3 MAb stimulated killing was variable. CTL clones lysed some target cell lines very efficiently (e.g., K562, Daudi, and M124.1) but lysed other cell lines much less efficiently (e.g., 23.1, Mann, and L cells). In CTL-mediated cytotoxicity assays with target cells expressing the relevant HLA antigens, T3 MAb demonstrated the expected inhibition of cytolysis. Thus, the ability of T3 MAb to stimulate and inhibit CTL-mediated cytolysis suggests that both effects may be the result of a common mechanism of activation.     

Effects of various inhibitors of arachidonic acid oxygenation on macrophage superoxide release and tumoricidal activity

Macrophages release a variety of arachidonic acid metabolites after treatment with various membrane triggers or particulate stimuli. We examined the role of phospholipase and lipoxygenase inhibitors in the modulation of superoxide production and tumor cytolysis by murine macrophages. Superoxide was induced by the soluble stimulus, phorbol myristate acetate (PMA), and the particulate stimulus, opsonized zymosan, and was measured by the reduction of ferricytochrome c with the use of a micro ELISA reader. Macrophage-mediated tumor cytolysis was induced by hybridoma-derived, macrophage-activating factor (MAF) and was quantitated by 51Cr release from P815 target cells. In both assays, 72-hr peptone-elicited macrophages were used. Dexamethasone, and to a lesser degree hydrocortisone, inhibited superoxide release and MAF-induced tumor cytolysis. Inhibition in the superoxide assay required pretreatment with corticosteroid. Only the gold compound, auranofin, inhibited superoxide when given simultaneously with stimulant. Other phospholipase inhibitors, including mepacrine and 4-bromophenacyl bromide, and several lipoxygenase inhibitors, including BW755c, nordihydroguaiaretic acid (NDGA), and 5,8,11,14-eicosatetraynoic acid (ETYA), failed to modulate either macrophage response at nontoxic concentrations. At the concentrations tested in the tumoricidal and superoxide assays, mepacrine and 4-bromophenacyl bromide inhibited the release of 14C-arachidonic acid from macrophages stimulated with opsonized zymosan. Our data strongly suggest that corticosteroids suppress macrophage superoxide production and tumoricidal function by a nonphospholipase-dependent mechanism.     

A novel human macrophage-activating factor: distinction from interferon-gamma (IFN-gamma) and granulocyte-macrophage colony-stimulating factor (GMCSF)

Culture supernatant from a human T-cell leukemia virus type I (HTLV-1)-infected cell line, DGA-1, contained a novel macrophage-activating factor (MAF). This MAF was antigenically and functionally distinct from interferon-gamma (IFN-gamma) and from granulocyte-monocyte colony-stimulating factor (GMCSF). Potential contaminants such as bacterial lipopolysaccharide (LPS), Mycoplasma spp, and HTLV-1 were not responsible for this MAF activity. The DGA-1 MAF was secreted constitutively and the cell line grew well in the absence of growth factors such as interleukin-2, mitogen, or antigen. This cell line should provide a good source of this MAF for further purification and characterization.     

Cytostatic and cytolytic activities of macrophages regulation by prostaglandins

Murine peritoneal macrophages (M phi), activated in vivo or in vitro, remarkably inhibited the uptake of thymidine by a lens epithelial cell line, while resident M phi, or M phi induced by thioglycollate, exhibited much lower or no cytostatic capacity. The target cells were partially protected from the cytostatic activity by the anti-inflammatory agents indomethacin, aspirin, and dexamethasone, but not by lipoxygenase inhibitors. The protective activity of indomethacin and aspirin, but not of dexamethasone, was completely counteracted by prostaglandin E2 (PGE2). Yet, PGE2 alone has no effect on the uptake of [3H]thymidine by lens epithelial cells. PGE1 resembled PGE2 in its effect on this system, whereas PGA2, PGB2, or PGF2 alpha had no detectable activity. The counteracting effect of PGE2 was mimicked by dibutyryl cAMP or by cholera toxin, an agent which increases cAMP levels. These findings suggest that PGEs are not direct cytostatic agents, but rather, are essential mediators for the development of the cytostasis. Activated M phi did not lyse cells of the original lens epithelial cell line, but caused substantial cytolysis of cells of a subline derived from it. In contrast to its aforementioned effect on the cytostasis, PGE2 inhibited the cytolytic activity of M phi. Thus, this study provides a first demonstration in a single system of the opposite effects of PGEs on M phi activity on target cells, i.e., mediating the cytostasis and inhibiting the cytolysis.     

COX-1 and COX-2 contribute differentially to the LPS-induced release of PGE2 and TxA2 in liver macrophages

LPS induces an immediate release of thromboxane TxA2 and a delayed release of PGE2. Dexamethasone suppresses the LPS-induced release of TxA2 and PGE2. In the first 8 h after LPS addition, the specific COX-2 inhibitor SC236 inhibits the PGE2 and TxA2 release by about 80% and 20%, whereas the release of PGE2 and TxA2 between 8 and 24 h is inhibited by about 40% and 35%, respectively. Resident liver macrophages express substantial amounts of COX-1, TxAS, cPGES and mPGES-2, small amounts of COX-2 but almost no detectable amounts of mPGES-1. LPS induces an increase of COX-2 and mPGES-1, but does not change COX-1, cPGES, mPGES-2 and TxAS at protein level. Dexamethasone suppresses almost completely the LPS-induced effects on COX-2 and mPGES-1. It is concluded that (1) COX-1 and COX-2 are involved in the LPS-induced synthesis of TxA2 and PGE2; (2) TxA2 release is catalyzed at early time-points by the combined action of COX-1 and TxAs, whereas at later time points the newly expressed COX-2 couples to TxAS and contributes to the TxA2 release; (3) PGE2 release within the first 8 h is predominantly catalyzed by COX-2, whereas at later time-points COX-1 couples to the newly expressed mPGES-1 and contributes to the PGE2 release.     

内毒素诱导非小细胞肺癌细胞增殖及其机制 李

摘要目的：研究内毒素对体外培养非小细胞肺癌（NSCLC）细胞株A549 细胞增殖的影响及其机制。方法：不同浓度脂多糖（LPS） 进行8-48h 干预,MTT 及细胞计数法检测其对A549 细胞增殖的影响;EGFR中和抗体或COX-2 抑制剂与LPS联合干预,检测其 对A549 细胞增殖及PGE2 的影响。结果：LPS 可引发A549 细胞MTT 活性和细胞计数显著增加,且呈现时间和剂量依赖性。LPS 还可诱发PGE2 水平显著升高。药物干预结果显示,抑制COX-2 或EGFR 可明显逆转LPS 所引发的细胞增殖和PGE2 水平升高 趋势。结论：LPS 可能通过激活EGFR 和COX-2 信号途径,诱导体外培养的非小细胞肺癌细胞增殖分化。肺部感染可能会加速非 小细胞肺癌进展,并可能造成不良预后。     

内毒素诱导非小细胞肺癌细胞增殖及其机制

目的：研究内毒素对体外培养非小细胞肺癌（NSCLC）细胞株A549细胞增殖的影响及其机制。方法：不同浓度脂多糖（LPS）进行8-48h干预,MTT及细胞计数法检测其对A549细胞增殖的影响;EGFR中和抗体或COX．2抑制剂与LPS联合干预,检测其对A549细胞增殖及PGE2的影响。结果iLPS可引发A549细胞MTT活性和细胞计数显著增加,且呈现时间和剂量依赖性。LPS还可诱发PGE2水平显著升高。药物干预结果显示,抑制COX-2或EGFR可明显逆转LPS所引发的细胞增殖和PGE2水平升高趋势。结论：LPS可能通过激活EGFR和COX-2信号途径,诱导体外培养的非小细胞肺癌细胞增殖分化。肺部感染可能会加速非小细胞肺癌进展,并可能造成不良预后。     

Inducer T-cell-mediated killing of antigen-presenting cells

L3T4+ inducer/helper T-cell clones, once activated by antigen-presenting cells (APC) expressing the appropriate Ia allele and antigen, autonomously kill their target APC. All 13 L3T4+ inducer T-cell clones tested demonstrated this cytolytic activity. In addition, 11 different target cells representing the three major APC types, namely, macrophages, B cells, and dendritic cells, were all sensitive to this cytolytic activity. Moreover, normal macrophages which were treated with interferon-gamma to increase Ia expression were also killed. These observations convincingly demonstrate that the cytolytic activity of L3T4+ inducer T-cell clones is a general phenomenon. In contrast to other reports, lysis of target APC could not be detected following 4-6 hr of incubation. Marginal lysis was observed after 9 hr and a 20-hr incubation period was required to achieve maximal killing. The kinetics of killing paralleled other parameters of T-cell activation such as IL-2 release and cell proliferation. Activation of T cells for cytolysis of APC requires the interaction of T-cell receptors with Ia and antigen. Monoclonal antibody to Ia, L3T4 and the T-cell receptor inhibited the cytolysis of APC. The ability to mediate nonspecific bystander killing was variable depending on both the T-cell clone and the target. The implications of these findings to immune regulation and autoimmunity are discussed.     

Intracellular measurement of prostaglandin E2: effect of anti-inflammatory drugs on cyclooxygenase activity and prostanoid expression.

Cyclooxygenase (COX) converts arachidonic acid to prostaglandin (PG) H2, which is further metabolized to various prostaglandins, prostacyclin and thromboxane A2. COX exists in at least two different isoforms. COX-1 is constitutively expressed, whereas COX-2 is induced by proinflammatory stimuli. Prostaglandin E2 is a major metabolite of COX activation. In order to compare the activity of target ligands and COX inhibitors on PGE2 synthesis and release, the responsiveness of several cell lines to the calcium ionophore A23187, bacterial lipopolysaccharide (LPS), nonsteroidal anti-inflammatory drugs (NSAIDs), and the glucocorticoid, dexamethasone, were investigated. For intracellular measurements, the culture supernatant was aspirated, and the cells were thoroughly washed and lysed with dodecyltrimethylammonium bromide. Intracellular and secreted PGE2 were measured with an enzyme immunoassay. A23187 and LPS increased intracellular PGE2 in a dose-dependent manner. Kinetic experiments with A23187-stimulated mouse 3T3 fibroblast cells revealed a distinct biphasic response in COX activity. In the presence of NSAIDs or dexamethasone, there was a dose-dependent inhibition in intracellular PGE2 with A23187-stimulated 3T3 cells. Inhibitory studies demonstrated an apparent increased sensitivity of COX activity to the action of inhibitors when measuring intracellular PGE2 compared with using cell culture supernatants. Indeed, intracellular PGE2 levels were comprehensively reduced in the presence of low concentrations of inhibitor. The utilization of cell culture lysates and, in particular, measurement of intracellular PGE2 should prove useful for identifying new COX inhibitors.     

Anti-tumor cytostatic mechanism and delayed-type hypersensitivity against a syngeneic murine tumor. Comparison between neonatally thymectomized mice and congenitally athymic nude mice

We studied the anti-tumor mechanism against a syngeneic tumor using a BALB/c-MA tumor system by cytolysis and cytostasis assays in vitro comparing mice neonatally thymectomized at 1 day or 7 days after birth (NTx-1, NTx-7), sham-operated (sham) mice, and congenitally athymic nude BALB/c mice. NTx-1 mice showed more rapid tumor growth and a slightly lower degree of strong cytostatic activity in peritoneal exudate cells (PEC) than NTx-7 or sham mice. Nude mice showed more rapid MA growth than NTx-1 mice and no cytostatic activity in PEC. After immunization with mitomycin C-treated MA (MMC-MA), NTx-1 mice acquired an immunoprophylactic capacity against MA and showed cytostatic activity and delayed footpad reaction (DFR) to MA, however, nude mice showed no acquisition of such an immunity, or cytostatic activity, or DFR to MA. These differences between NTx-1 and nude mice could be well-explained by less capacity of nude mice to produce a macrophage-activating factor, which activates macrophages to exert cytostasis and DFR. However, NTx-1 mice could not reject MA by immunization with MMC-MA in CFA (MMC-MA/CFA), although such immunized sham mice could eliminate MA completely. Both PEC and spleen cells from Sham mice immunized with MMC-MA/CFA showed cytostatic activity, whereas NTx-1 mice showed cytostatic activity of the same level in PEC and less in spleen cells compared to Sham mice. Cytolytic activity was never detected throughout this study in a BALB/c-MA system. These data suggest that cytostasis plays an important role in antitumor immunity against a syngeneic MA tumor and that two types of cytostasis is included from the standpoint of thymus-dependency of ontogenic development, relatively low and high.