Defective tumoricidal capacity of macrophages from C3H/HeJ mice

Peritoneal macrophages from C3H/HeN mice treated i.p. with T cell mitogens or viable BCG organisms were cytotoxic to syngeneic tumor cells in vitro. Macrophages from endotoxin-unresponsive C3H/HeJ mice treated with BCG or T cell mitogens, however, were not tumoricidal. Furthermore, unlike cells from C3H/HeN mice, macrophages from C3H/HeJ mice could not be activated for tumor cytotoxicity after in vitro treatment with bacterial endotoxins or with lymphokine-rich supernatants. The subnormal induction of cytotoxic macrophages after in vitro or in vivo treatments in C3H/HeJ mice appears to be a highly selective defect. Macrophage responses (yield, phagocytosis, or peroxidase staining) in inflammatory exudates induced by BCG, T cell mitogens, or heterologous serum in C3H/HeJ or C3H/HeN mice were identical. C3H/HeJ macrophages also responded normally in vitor to chemotactic lymphokines. Thus, C3H/HeJ macrophages possess a profound and selective defect in tumoricidal capacity. This defect was not dependent upon exogenous endotoxins. Defective macrophage cytotoxic responses may reflect non-LPS related functions regulated by the LPS gene.     

Macrophage activation for tumor cytotoxicity: Control of cytotoxic activity by the time interval effector and target cells are exposed to lymphokines

Macrophages continuously exposed to lymphokines (LK) and target cells throughout a 48-hr cytotoxicity assay exhibit 3-fold more tumoricidal activity than do cells optimally treated with LK before addition of tumor cells. Increased cytotoxic activity induced by continuous LK treatment was not due to direct toxic effects of LK on tumor target cells or to alterations in target cell susceptibility to cytopathic effects of LK-activated macrophages. Moreover, sensitivities of responsive macrophages to LK activation signals and time courses for onset and loss of tumoricidal activity during continuous exposure or LK pulse were identical. Analysis of macrophage or LK dose responses and time courses for development of cytotoxicity each suggest that differences in tumoricidal activity between macrophages continuously exposed or pulsed with LK were quantitative: the number of cytotoxic events was increased 2.7 ± 0.2-fold (mean ± SEM for 11 experiments) during continuous LK treatment. Optimal levels of macrophage tumoricidal activity then occur only if effector cells, target cells and activation stimuli are simultaneously present for a defined time interval: tumor cells need not be present during the initial 2 to 3 hr of culture; LK can be removed after 8 hr with little or no loss of cytotoxic activity. However, removal of LK or target cells during the critical 4- to 8-hr interval decreased levels of cytotoxicity 3-fold. Thus, nonspecific effector function by LK-activated macrophages in controlled by both the physicochemical nature of the LK mediator and the time interval effector and target cells are exposed to LK.     

Induction of activated macrophages in C3H/HeJ mice by avirulent Salmonella

A single injection of viable Salmonella typhimurium SL3235, an avirulent organism blocked in the aromatic pathway, induced the generation of activated peritoneal macrophages in three different C3H mouse strains, including macrophage-defective C3H/HeJ mice. Macrophages obtained from immunized mice were cytotoxic for B16 melanoma cells, P815 mastocytoma cells, and TU-5 fibrosarcoma cells and microbicidal in vitro for the obligate, intracellular, protozoan parasite Leishmania major. The capacity of live SL3235 to activate C3H/HeJ macrophages contrasts with the failure of live Bacillus Calmette-Guérin to induce activated macrophages in this mouse strain. Although viable SL3235 were capable of fully activating cells of both normal and defective mice, a dose-dependent difference was observed in the number of organisms necessary for induction of tumoricidal macrophages in C3HeB/FeJ (normal) and C3H/HeJ (defective) animals. As few as 80 viable SL3235 were capable of activating C3HeB/FeJ macrophages whereas 5 X 10(4) organisms were required to activate C3H/HeJ macrophages. Maximal macrophage activation occurred 7 to 10 days after SL3235 inoculation in C3H/HeJ and C3HeB/FeJ mice. Acetone-killed cells of SL3235 had some but not all of the activity of the living Salmonella. A single in vivo injection of the nonviable preparation resulted in the induction of tumoricidal macrophages in C3HeB/FeJ but not in C3H/HeJ mice, even when tested over a wide dosage range. Injection of acetone-killed cells of SL3235 did, however, result in a population of primed macrophages in C3H/HeJ mice, as explanted cells could be induced to express activated macrophage effector activities after additional treatment in vitro with either LPS or IFN-gamma. Thus, in vivo administration of viable SL3235 is, by itself, capable of eliciting the full series of steps required for activation of C3H/HeJ macrophages, whereas killed SL3235 only provides signals sufficient to prime these defective macrophages for further activation in vitro. AI 15613     

Macrophages as effector cells of protective immunity in murine schistosomiasis. VI. T cell-dependent, lymphokine-mediated, activation of macrophages in response to Schistosoma mansoni antigens

Macrophages from Schistosoma mansoni-infected mice kill significant numbers of skin stage schistosomula and murine fibrosarcoma cells in vitro. In order to determine whether the macrophage tumoricidal and larvicidal activation observed in mice as a result of S. mansoni infection are mediated through T cell-dependent (lymphokine) or B cell-dependent (antibody or immune complex) mechanisms, the development of macrophage populations with cytotoxic activity against schistosome larvae or tumor cells was monitored in S. mansoni-infected nude or mu-suppressed mice. Whereas peritoneal cells from S. mansoni-infected congenitally athymic mice had no activity in either assay, cells from mu-suppressed S. mansoni-infected mice showed cytotoxic activity equivalent to that of cells from untreated S. mansoni-infected counterparts. Cells from mu-suppressed uninfected mice were not activated. The mu-suppressed animals had no detectable nonspecific IgM or specific antischistosome IgM, IgG, or IgE antibodies and showed a 90% reduction in numbers of splenic IgM+ cells upon fluorescence activated cell sorter analysis. These results indicate that antibody is not required for in vivo activation of macrophages during S. mansoni infection. Further experiments showed that lymphoid cells from S. mansoni infected mice respond in culture with various specific antigens (such as living or dead whole schistosomula or soluble adult worm antigens) by production of factors capable of activating macrophages from uninfected control mice to kill schistosomula or tumor cells in vitro. Macrophage-activating factors were produced by T cell-enriched, but not T cell-depleted or B cell-enriched, populations from spleens of schistosome-infected mice in response to schistosome antigen. Similar lymphokines may be responsible for the macrophage activation observed during chronic murine schistosomiasis. These observations emphasize the potential contribution of T cell-mediated immune mechanisms in resistance to S. mansoni infection.     

Bidirectional amplification of macrophage-lymphocyte interactions: enhanced lymphocyte activation factor production by activated adherent mouse peritoneal cells.

Adherent peritoneal cells (90 to 95% macrophages) from mice injected with Mycobacterium bovis, strain BCG, or certain noninfectious agents such as pyran copolymer or phytohemagglutinin showed increased chemotactic and tumoricidal capacity in vitro. These activated macrophages elaborated 2 to 5 times more lymphocyte-activating factor (LAF) in vitro than equal numbers of adherent cells from untreated mice. In contrast, adherent PC from mice treated with thioglycollate or mineral oil were not cytotoxic and did not produce more LAF than PC from untreated mice. Adherent PC from untreated nude mice, which have increased chemotactic and tumoricidal capacity in vitro, also exhibited enhanced LAF production compared to adherent PC from their normal littermates. Increased production of LAF was also evident with adherent PC and the macrophage-like tumor cell line P388D1 after incubation in vitro with bacterial endotoxins or with antigen-induced lymphokines. These data indicate that adherent PC can be activated either in vivo or in vitro to elaborate more LAF. Thus, activated macrophages are more effective than normal macrophages in amplification of the afferent limb of immune responses as well as in their effector functions.     

Differential in vitro modulation of suppressor and antitumor functions of mouse macrophages by lymphokines and/or endotoxin

Peritoneal macrophages of normal mice exhibited natural suppressor activity, as indicated by their ability to inhibit the proliferation of spleen cells in response to stimulation with phytohemagglutinin (PHA) or concanavalin A (Con A). Their suppressor function could be modulated in vitro with a variety of treatment regimens. High-dose lipopolysaccharide (LPS) (LPSH; 10 micrograms/ml) or lymphokines (supernatant from Con A-stimulated spleen cells) plus low-dose LPS (LPSL; 10 ng/ml) caused a reduction in the suppressor activity of adherent peritoneal macrophages. In contrast, these same treatments induced the macrophages to become tumoricidal and cytostatic for tumor cells, indicating a major dissociation between the regulation of suppressor and cytotoxic activities of macrophages. The lack of correlation between these activities was further demonstrated by macrophages that had been activated in vitro by Corynebacterium parvum: these cells expressed high tumoricidal and cytostatic activities, and also strong suppressor activity. The suppressor function could be selectively downregulated by in vitro pretreatment with LPSH.     

Induction of the tumoricidal activity of human and murine peritoneal macrophages under the action of antitumor chemical preparations

Platidiam, cyclophosphamide and adriamycin induced tumoricidal activity of peritoneal macrophages from patients with disseminated ovarian carcinoma when applied in the autologous tumor cells in vitro. This effect was not observed with 10 micrograms/ml concentration of 5-fluorouracil. The mice peritoneal macrophages after incubation in vitro with 0.01-1.0 micrograms/ml of aclarubicin showed cytostatic action on syngeneic and semisyngeneic P388 cells. The peritoneal macrophages from mice treated with 2.5 mu/kg of aclarubicin intraperitoneally 1-4 days before were cytotoxic for tumor cells too.     

The correlation between specific protein synthesis and tumoricidal function in murine peritoneal macrophages

Macrophages from the lipopolysaccharide (LPS)-responsive C3H/HeN mouse strain and the closely related LPS-nonresponsive C3H/HeJ strain were compared for tumoricidal activation and protein synthetic changes following in vivo and in vitro stimulation, utilizing two-dimensional polyacrylamide gel electrophoresis of [35S]methionine-labeled proteins. Peritoneal macrophages elicited from C3H/HeN mice with heat-killed Propionibacterium acnes exhibited tumoricidal activity in a 16-hr cytolytic assay and expressed cytoplasmic levels of a 23.5-kDa protein during 48 hr of culture. The inability to detect persistent expression of p23.5 in P. acnes-stimulated C3H/HeJ macrophages correlated with the cytolytic impotence of those cells in the 16-hr chromium release assay. C3H/HeN macrophage populations lacking tumoricidal capacity could be rendered lytic, as could P. acnes-elicited C3H/HeJ macrophages, following in vitro stimulation with bacterial lipopolysaccharide. Concomitant with the LPS-induced expression of new functional activity was the appearance of augmented levels of several macrophage-specific proteins, including p23.5. This effect was dependent upon the lipid A moiety of LPS as the effects of LPS could be blocked by inclusion of polymyxin B sulfate in the culture medium. However, neither tumoricidal function nor protein modulation could be readily induced in C3H/HeJ proteose peptone-elicited or resident macrophages. These results identify biochemical responses to stimuli which may be requisite to acquisition or execution of cytolytic activity.     

Abrogation of species specificity for activation of tumoricidal properties in macrophages by recombinant mouse or human interferon-gamma encapsulated in liposomes

Highly purified human blood monocytes, isolated by continuous Percoll density gradients under endotoxin-free conditions, and mouse peritoneal exudate macrophages (PEM) were activated in vitro by the combination of muramyl dipeptide (MDP) and recombinant interferon-gamma (r-IFN-gamma) to become tumoricidal against their respective tumorigenic target cells. The activation of human monocytes or mouse PEM by free unencapsulated r-IFN-gamma and MDP was species specific: human r-IFN-gamma activated human blood monocytes to lyse allogeneic melanoma cells, but did not activate mouse PEM. Mouse r-IFN-gamma activated mouse PEM to lyse syngeneic melanoma cells, but did not activate cytotoxic properties in human monocytes. The encapsulation of either mouse or human r-IFN-gamma with MDP within the same liposome preparation produced synergistic activation of cytotoxic properties in both PEM and monocytes without apparent species specificity. The activation of tumoricidal properties in macrophages by r-IFN-gamma and MDP occurred as a consequence of intracellular interaction. We base this conclusion on the data showing that whereas free r-IFN-gamma and MDP did not activate macrophages pretreated with pronase, liposome-encapsulated r-IFN-gamma and MDP did. Moreover, the i.v. injection of liposomes containing human or mouse r-IFN-gamma and MDP produced in vivo activation of mouse alveolar macrophages. These data suggest that in contrast to activation with free r-IFN-gamma, which requires binding to macrophage surface receptors, the intracellular interaction of r-IFN-gamma, which produces tumoricidal activity in macrophages, is not species specific.     

The influence of host health and environment on natural cytotoxicity of mouse macrophages

Summary The health and environment of the host influence the natural cytotoxicity of mouse peritoneal macrophages against tumor targets in vitro. In these studies, we have used mice derived by hysterectomy and maintained under barrier conditions. Peritoneal macrophages harvested from untreated mice and from those that received IP injections of thioglycollate broth, bactopeptone, or soluble concanavalin A were not cytotoxic to tumor targets in vitro. Resident and various inflammatory macrophages responded alike to activation by lipopolysaccharide or macrophage-activating factor.Macrophages were rendered tumoricidal following inflammation and/or infection of the host or imposition of stressful conditions on the host. Inflammation was induced by SC injection of complete Freund's adjuvant or IP injection of Mycobacterium bovis organism into the mice. Stress was induced by crowding the mice. Macrophages obtained from mice stressed for 2 weeks by crowding were spontaneously cytotoxic to tumor targets in vitro. Moreover, macrophages obtained from mice that fought among themselves and developed skin wounds were highly tumoricidal in vitro. These data demonstrate that environmental conditions influence the activation of tumoricidal properties of macrophages in apparently healthy donors.     

Macrophage stimulation by bacterial lipopolysaccharides. III. Selective unresponsiveness of C3H/HeJ macrophages to the lipid A differentiation signal.

Peritoneal macrophages from the endotoxin-unresponsive C3H/HeJ substrain of mice were entirely refractory to activation in vitro by protein-free LPS, a defect that was not overcome by co-culture of spleen cells from the responder C3H/St substrain with LPS resistant C3H/HeJ macrophages. The defect in responsiveness appears confined to the lipid A activation signal since C3H/HeJ macrophages were fully activated after in vitro treatment by lipid A protein (LAP)--LPS complex, isolated LAP, and BCG. Moreover, after exposure to allogeneic tumor cells in vivo, C3H/HeJ macrophages were cytotoxic for tumor target cells in vitro. By contrast, macrophages from the responder C3H/St strain were fully activated by protein-free LPS to become cytolytic for tumor cells in vitro. C3H/HeJ macrophages, therefore, exhibit a highly selective defect characterized by unresponsiveness to the lipid A activation signal of protein-free LPS and resistance to the toxic effects of high concentrations of LPS that were lethal to the responder C3H/St strain.     

Imbalanced accumulation of ribosomal RNA in macrophages activated in vivo or in vitro to a cytolytic stage

Previous studies have shown that peritoneal murine macrophages activated in vivo and in vitro to a tumoricidal stage have a depressed rate of RNA synthesis. In attempting to clarify the differences in RNA metabolism between noncytotoxic and tumoricidal macrophages, we have studied the relative accumulation of various species of RNA in macrophages activated in vivo and in vitro with the use of agarose gel electrophoresis. Macrophages activated in vitro to a cytotoxic stage with supernatants containing lymphokines (LK) and traces of lipopolysaccharide (LPS) have an imbalanced accumulation of mature ribosomal RNA (rRNA), with a decreased accumulation of 28S rRNA compared to 18S rRNA. In contrast, macrophages primed in vitro with LK free of detectable endotoxins that exhibit suppressive rather than tumoricidal activity do not manifest a decreased 28S:18S rRNA ratio. The conclusion that the decreased 28S:18S rRNA ratio was associated with the activation of macrophages to a cytolytic stage was supported by the finding that cytotoxic macrophages activated in vivo by i.p. injection of Propionibacterium acnes (formerly designated C. parvum) also demonstrated a decreased accumulation of 28S comparable with that observed in in vitro-activated macrophages. Moreover, activated macrophages that lost their cytolytic activity upon prolonged in vitro culture had an augmented accumulation of 28S rRNA. These results provide the first direct evidence that the expression of cytolytic activity is associated with modulation of a specific class of RNA. The unbalanced accumulation of rRNA appears to be a late molecular event in the activation process occurring during the transition from primed to cytotoxic macrophages, because inflammatory and primed macrophages had normal rRNA accumulation. A model of macrophage activation accounting for these results is proposed.     

Enhanced growth of Legionella pneumophila in tetrahydrocannabinol-treated macrophages.

Legionella pneumophila is an opportunistic intracellular pathogen that infects macrophages, both in vivo and in vitro. Tetrahydrocannabinol is a major psychoactive component of marijuana and can affect the functional activity of macrophages. In the present study, it was found that the treatment of macrophage cultures from permissive A/J mice with THC enhanced the growth of Legionella in these cells. Legionella grew much better in macrophages treated with low doses of THC, which caused no alteration in the number or viability of macrophages, as compared with growth in untreated cells. Furthermore, lipopolysaccharide-treated A/J mouse macrophages restricted the growth of Legionella, but this growth restriction was overcome by the addition of THC to LPS-treated macrophage cultures after infection. Thus, it is apparent that THC has the ability to enhance the growth of the intracellular opportunistic pathogen Legionella that grows in A/J mouse macrophages.     

Differential susceptibility of activated macrophage cytotoxic effector reactions to the suppressive effects of transforming growth factor-beta 1

We examined the effects of TGF-beta 1 on induction of several activated macrophage antimicrobial activities against the protozoan parasite Leishmania, and on induction of tumoricidal activity against the fibrosarcoma tumor target 1023. TGF-beta by itself did not affect the viability of either the intracellular or extracellular target in concentrations up to 200 ng/ml. As little as 1 ng/ml TGF-beta, however, suppressed more than 70% of the intracellular killing activity of macrophages treated with lymphokines. In contrast, more than 100 ng/ml TGF-beta was required to suppress intracellular killing by cells activated with an equivalent amount of recombinant IFN-gamma. Addition of TGF-beta for up to 30 min after exposure to activation factors significantly reduced macrophage killing of intracellular parasites. Pretreatment of macrophages with TGF-beta was even more effective: treatment of cells with TGF-beta for 4 h before addition of activation factors abolished all macrophage intracellular killing activity. Regardless of treatment sequence, however, TGF-beta had absolutely no effect, at any concentration tested, on activated macrophage resistance to infection induced by lymphokines or by the cooperative interaction of IFN-gamma and IL-4. Effects of TGF-beta on tumoricidal activity of activated macrophages was intermediate to that of its effects on intracellular killing or resistance to infection. Lymphokine-induced tumor cytotoxicity was marginally (25%) affected by TGF-beta; 200 ng/ml was able to suppress IFN-gamma-induced tumoricidal activity by 40%. Thus, TGF-beta dramatically suppressed certain activated macrophage cytotoxic effector reactions, but was only partially or not at all effective against others, even when the same activation agent (IFN-gamma) was used. The biochemical target for TGF-beta suppressive activity in these reactions may be the pathway for nitric oxide production from L-arginine, because TGF-beta also inhibited the generation of nitric oxide by cytokine-activated macrophages.     

Picolinic acid, a catabolite of tryptophan, as the second signal in the activation of IFN-gamma-primed macrophages.

We have studied the effects of picolinic acid, a product of tryptophan degradation, on the activation of mouse peritoneal macrophages (M phi). Picolinic acid acts synergistically with IFN-gamma in activating M phi from C57BL/6 mice. Moreover, M phi from C3H/HeJ mice and C3H/HeN that do not become cytotoxic in response to IFN-gamma alone could be fully activated by exposure to picolinate plus IFN-gamma. These results indicate that picolinic acid is a potent costimulator of M phi activation that functions as a second signal. Inasmuch as we have previously demonstrated that the activation of cytotoxic M phi correlates with specific changes in ribosomal RNA (rRNA), we investigated whether picolinic acid could modify M phi RNA metabolism. Picolinic acid inhibited the synthesis of total M phi RNA, the accumulation of newly synthesized 28S rRNA, and augmented the steady state levels of rRNA precursors (pre-rRNA). These changes in RNA metabolism were similar to those previously described in murine M phi activated in vitro or in vivo to express tumoricidal activity. These results demonstrate that picolinic acid is a potent, biologic M phi second signal, suggest that the changes in rRNA are causally connected with the expression of tumoricidal activity, and suggest the existance of an autocrine effect mediated by picolinic acid.     

Natural cytolytic activity in mice with natural or induced cellular defects. I. Differential ability of in vitro interleukin-2 addition to augment natural cytolytic function

The ability of in vitro addition of recombinant interleukin 2 (rIL-2) to differentially enhance natural cytotoxicity was assessed using cells from mice with natural and induced cellular defects. In vivo treatment with most immunosuppressive or cytoreductive agents, anti-asialo-GM1 antibody, or gamma irradiation dramatically reduced in vitro cytotoxicity against natural killer (NK) sensitive targets by direct reduction in either percentage specific lysis or lytic units per spleen. In most cases, in vitro addition of rIL-2 (at concentrations causing augmented NK function in cells from naive Balb/C mice) enhanced cytotoxic activity of cells from treatment groups to a normal value but not within the rIL-2-enhanced range of nontreated animals. Additionally, cytotoxic activity of cells from animals treated with certain drugs or gamma irradiation could be augmented by rIL-2 when measured by percentage lysis but not lytic units per spleen. In vivo treatment with cyclosporin A did not affect natural cytotoxic activity and addition of rIL-2 augmented the NK activity in a similar fashion to the profile of naive cells. In experiments using cells from beige (C57Bl/6-bg) mice which have a natural defect in NK activity against YAC-1 targets, addition of rIL-2 (at concentrations causing augmented natural cytotoxic function in cells from C57Bl/6 mice) could not effectively enhance in vitro natural cytotoxic function.     

The in situ activation of cytotoxic properties in murine Kupffer cells by the systemic administration of whole Mycobacterium bovis organisms or muramyl tripeptide

Summary We determined whether the systemic administration of viable Mycobacterium bovis organisms (BCG) or a lipophilic derivative of muramyl tripeptide (MTP-PE) would lead to the activation of antitumor properties in murine Kupffer cells (KC). KC-mediated tumor cytolysis was determined by the release of radiolabeled nuclear breakdown products of target cells. KC harvested from either C57BL/6 or C3H/HEN mice treated with saline exhibited no cytotoxicity against syngeneic B16 melanoma or UV-2237 fibrosarcoma cells. In contrast, KC harvested from BCG or MTP-PE-injected mice were highly cytotoxic against the tumor targets, as measured by an in vitro radiorelease assay. The demonstration that the administration of macrophage activators can generate in situ tumoricidal activity in KC suggests that these cells can be important in the control of hepatic micrometastases.     

Activation of macrophages by ether analogues of lysophospholipids

Summary Inflammation processes cause activation of phospholipase A in plasma membranes resulting in the production of various lysophospholipids. Treatment of mice with L--lysophosphatidyl-DL-glycerol (lyso-Pg) resulted in an enhanced ingestion activity of peritoneal macrophages as did other lysophospholipids. However, lyso-Pg is rather toxic as indicated by a rapid decrease in macrophage activity 3 days after treatment while macrophage activity of lysophosphatidylcholine-treated mice continued to increase at least up to the 6th day after treatment. Alkyl-lysophospholipid derivatives, racemic 1-0-octadecyl-2-methylglycero-3-phosphocholine and -phosphoethanolamine stimulated mouse macrophages for Fc-mediated ingestion. Decomposed products of alkyl-lysophospholipids, alkylglycerols, were also found to be excellent activators of macrophages not only for ingestion of IgG-coated target cells but also antibody-mediated tumoricidal activity. Macrophages from mice treated with alkylglycerols developed superoxide generating capacity. Furthermore, alkylglycerols were found to be tumoricidal by direct contact with retinoblastoma cells. Therefore, the advantage of the potential application of alkylglycerols as chemotherapeutic agents is that they have dual beneficial effects: potentiation of macrophage activity and cytotoxicity to malignant cells.     

Role of tumor-derived cytokines on the immune system of mice bearing a mammary adenocarcinoma. II. Down-regulation of macrophage-mediated cytotoxicity by tumor-derived granulocyte-macrophage colony-stimulating factor

Peritoneal elicited macrophages (PEM) from mammary tumor-bearing mice have a decreased capacity to become cytotoxic against syngeneic, allogeneic, and xenogeneic target cells upon in vitro stimulation with LPS, as compared with PEM of normal mice. A regulatory mechanism other than PG release is suggested because the addition of both indomethacin and LPS to macrophage cultures from tumor-bearing mice caused no changes in their cytotoxic capability. Because tumor products have been implicated in the down-regulation of immune responses, we investigated whether pretreatment with supernatants from the tumor cell line DA-3, derived from the in vivo mammary adenocarcinoma D1-DMBA-3, affects the cytolytic capacity of macrophages. This treatment inhibits, in a dose-dependent fashion, the ability of stimulated normal PEM to kill target cells. Partial purification of DA-3 cell line supernatant showed that most of the inhibitory activity was exerted by factors with a molecular mass greater than 10 kDa and less than 30 kDa. However, slight inhibition could also be observed with fractions containing molecules less than 10 kDa. The data suggest that more than one factor released by the mammary tumor cells may be involved in the down-regulation of macrophage-mediated cytotoxicity. Because the DA-3 cells constitutively produce granulocyte-macrophage CSF (GM-CSF), which has a molecular mass of 27 kDa, we pretreated PEM from normal mice in vitro with rGM-CSF for 24 h. This resulted in a dose-dependent decrease in their capacity to kill tumor target cells upon LPS stimulation. Furthermore, PEM from normal mice injected with rGM-CSF for 25 days displayed a profound decrease in their cytolytic ability against DA-3 targets upon in vitro stimulation with increasing amounts of LPS. The pretreatment of PEM from normal mice with a combination of DA-3 cell supernatants and specific anti-GM-CSF partially neutralized the inhibitory effect of the DA-3 supernatant on macrophage tumoricidal capability. These results indicate that tumor-derived GM-CSF is an important factor involved in the decreased macrophage cytotoxicity during mammary adenocarcinoma progression.     

Tumoricidal responses in vitro of peritoneal macrophages from conventionally housed and germ-free nude mice

Peritoneal macrophages from untreated nude mice were nonspecifically cytotoxic to tumor cells in vitro and were more responsive to chemotactic stimuli than macrophages from normal mice or from phenotypically normal littermates of nude mice. Tumoricidal and chemotactic responses of activated macrophages from nude mice were quantitatively comparable to responses of macrophages from BCG-infected normal mice. Peritoneal macrophages from germ-free nude mice, however, were not tumoricidal in vitro. These observations suggest that environmental stimuli, rather than thymic deficiency per se, induced activated macrophages in nude mice.