Induction of macrophage-mediated cytolysis of neoplastic cells by mycoplasmas

Unexpected cytolysis was encountered when nonactivated murine peritoneal macrophages were cultured with [³H]TdR-prelabeled syngeneic or allogeneic tumor cells at a 10:1 ratio. The level of specific cytolysis reached 70% within 48 hr of cocultivation. Similar killing was observed whether the macrophages were derived from untreated, thioglycollate-treated, or germ-free mice. Cytolytic activity was also demonstrated when bone marrow-derived or peritoneal macrophages from 9- and 5-day in vitro cultures, respectively, were employed rather than freshly harvested peritoneal macrophages. Thus, the macrophage-mediated killing was neither the result of in vivo preactivation nor a consequence of the presence of lymphocytes in the assay. Moreover, macrophages derived from different strains caused similar effects. Our study revealed that the neoplastic target cell cultures susceptible to cytolysis by nonactivated macrophages were contaminated with mycoplasma. A mycoplasma was isolated from the supernatant of a culture of the A9HT fibrosarcoma line, identified as Mycoplasma orale, and cultivated. Addition of viable mycoplasma from that isolate to mixed cultures of thioglycollate-elicited macrophages and [³H]TdR-prelabeled mycoplasma-free target cells resulted in specific cytolysis of transformed A9 cells, but not of normal mouse fibroblasts. The level of macrophage-dependent cytolysis correlated with the number of viable mycoplasma cells added and was higher than that attained by activation with LPS at optimal concentration. Similar specific cytolysis was observed with heat-killed mycoplasmas. Our results demonstrate that mycoplasmas may cause selective macrophage-mediated cytolysis of neoplastic but not of normal target cells, perhaps via activation of the macrophages. It is suggested that undetected infection of experimental systems by mycoplasmas may account for some reports on lysis of neoplastic cells by nonactivated macrophages.     

Induction by mycoplasmas of tumor necrosis factor-alpha from macrophages

Several species of mycoplasmas including M. pneumoniae, the causative agent of human respiratory infection, were investigated for tumor necrosis factor-alpha (TNF-alpha) induction. The cytotoxic activity to Meth A cells of peritoneal macrophages purified from BALB/c mice was enhanced markedly when cultured with either viable or nonviable mycoplasmas. The supernatant of macrophage culture mixed with mycoplasmas, M. pneumoniae or A. laidlawii, showed a potent cytotoxic activity to TNF-alpha-sensitive but not to TNA-alpha-insensitive L cells. Addition of anti-TNA-alpha antiserum inhibited completely the cytotoxic activity of the supernatant, indicating that the cytotoxic activity is due mostly to TNF-alpha. These results strongly suggest that mycoplasmas possess an activity to induce TNF-alpha, which enhances the cytotoxic activity of macrophages and prevent infection with mycoplasmas in vivo.     

Excretory/secretory products from plerocercoids of Spirometra erinaceieuropaei suppress gene expressions and production of tumor necrosis factor-alpha in murine macrophages stimulated with lipopolysaccharide or lipoteichoic acid

We previously reported that the ES products from the plerocercoids of Spirometra erinaceieuropaei reduce nitric oxide synthase and chemokine gene expression in macrophages. In this study, we show that ES products suppressed tumor necrosis factor-alpha mRNA expression and tumor necrosis factor-alpha production in murine peritoneal macrophages stimulated with lipopolysaccharide or lipoteichoic acid in vitro. When macrophages from ES product-injected mice were stimulated with lipopolysaccharide in vitro, these cells produced smaller amounts of tumor necrosis factor-alpha compared with those taken from control mice. The suppressive effects of ES products were not restored by the treatment of indomethacin or anti-IL-10 antibody, and the ES products did not induce mRNA expression of secretory leukocyte protease inhibitor. Macrophages from C3H/HeJ mice, which have a single point mutation in the Toll-like receptor 4 gene, expressed tumor necrosis factor-alpha and IL-1alpha mRNA in the presence of lipopolysaccharide, but these expressions were less than those of macrophages from C3H/HeN. ES products significantly suppressed tumor necrosis factor-alpha gene expression and tumor necrosis factor-alpha production in macrophages from C3H/HeN and C3H/HeJ mice stimulated with lipopolysaccharide. However, ES products had no effect on IL-1 mRNA expression. Our data suggest that the plerocercoids secrete the tumor necrosis factor-alpha inhibitory products to evade the host's immune system, and that tumor necrosis factor-alpha mRNA expression might be inhibited downstream from Toll-like receptor 4 in the lipopolysaccharide signaling pathway.     

Effect of in vivo administration of prostaglandins and interferon on natural killer activity and on B-16 melanoma growth in mice

We investigated the effect on in vivo administration of 16,16-dimethyl-prostaglandin E2 (di-M-PGE2) alone and in combined treatment with alpha-beta interferon (IFN) on NK activity in normal, cyclophosphamide (CY)-treated, tumor bearing or irradiated and bone marrow reconstituted mice and on B-16 melanoma growth. Normal mice inoculated with IFN (30,000 U/mouse, 24 hr before testing) showed a significant increase in NK activity, while those treated with di-M-PGE2 (10 micrograms/mouse daily X 4 days) showed a suppressed NK response. No difference was observed between mice treated with di-M-PGE2 alone and those treated with di-M-PGE2 associated with IFN. In immunosuppressed animals single treatments were slightly (di-M-PGE2) or not (IFN) effective, while the combined administration of di-M-PGE2 and IFN caused a marked increase in NK activity. Moreover, di-M-PGE2 was able to accelerate the recovery rate of NK activity in bone marrow-reconstituted murine chimeras, suggesting that the synergistic effect of prostaglandins and IFN could derive from the action of di-M-PGE2 on progenitor pre-NK cells and of IFN on effector cells. Finally, we observed a good correlation between the enhancement of the NK activity and the tumor growth inhibition.     

Enhancement of cytotoxicity of active macrophages by mycoplasma: role of mycoplasma-associated induction of tumor necrosis factor-alpha (TNF-alpha) in macrophages

Tumor necrosis factor-alpha (TNF-alpha)-inducing activity of several mycoplasmas including Mycoplasma pneumoniae, a causative agent in human respiratory infectious diseases, was investigated. Purified peritoneal macrophages from BALB/c mice markedly enhanced their cytotoxic activity to Meth A cells, when cultured with either viable or non-viable mycoplasmas. The supernatants of the macrophage culture with mycoplasmas, M. pneumoniae and Acholeplasma laidlawii, showed the potent cytotoxic activity to TNF-alpha-sensitive L cells but not to TNF-alpha-insensitive L cells. Addition of anti-TNF-alpha antiserum inhibited completely the cytotoxic activity of these supernatants, indicating that a major part of the cytotoxic activity might be due to TNF-alpha. Various other mycoplasmas, either glucose- or arginine-utilizing species, as far as tested showed also the potent activity to produce TNF-alpha. These results strongly suggest the possibility that mycoplasmas possess the activity of TNF-alpha induction which might be responsible for a part of enhancement of cytotoxic activity of macrophages and resistance to infection with mycoplasmas in vivo.     

Suppression of an already established tumor growing through activated mucosal CTLs induced by oral administration of tumor antigen with cholera toxin

Priming of CTLs at mucosal sites, where various tumors are originated, seems critical for controlling tumors. In the present study, the effect of the oral administration of OVA plus adjuvant cholera toxin (CT) on the induction of Ag-specific mucosal CTLs as well as their effect on tumor regression was investigated. Although OVA-specific TCRs expressing lymphocytes requiring in vitro restimulation to gain specific cytotoxicity could be detected by OVA peptide-bearing tetramers in both freshly isolated intraepithelial lymphocytes and spleen cells when OVA was orally administered CT, those showing direct cytotoxic activity without requiring in vitro restimulation were dominantly observed in intraepithelial lymphocytes. The magnitude of such direct cytotoxicity at mucosal sites was drastically enhanced after the second oral administration of OVA with intact whole CT but not with its subcomponent, an A subunit (CTA) or a B subunit (CTB). When OVA plus CT were orally administrated to C57BL/6 mice bearing OVA-expressing syngeneic tumor cells, E.G7-OVA, in either gastric tissue or the dermis, tumor growth was significantly suppressed after the second oral treatment; however, s.c. or i.p. injection of OVA plus CT did not show any remarkable suppression. Those mucosal OVA-specific CTLs having direct cytotoxicity expressed CD8alphabeta but not CD8alphaalpha, suggesting that they originated from thymus-educated cells. Moreover, the infiltration of such OVA-specific CD8(+) CTLs was observed in suppressed tumor tissues. These results indicate that the growth of ongoing tumor cells can be suppressed by activated CD8alphabeta CTLs with tumor-specific cytotoxicity via an orally administered tumor Ag with a suitable mucosal adjuvant.     

Suppression of antitumor immunity by macrophages in spleens of mice bearing a large MOPC-315 tumor

We had shown previously that progression of MOPC-315 plasmacytoma growth is associated with an increase in the percentage of macrophages in the spleen as well as a decrease in the ability of tumor-bearer spleen cells to mount an antitumor cytotoxic response upon in vitro immunization. Here we provide evidence that macrophages in the MOPC-315 tumor-bearer spleen are responsible at least in part for the suppression of the generation of antitumor cytotoxicity. Accordingly, removal of most macrophages by depletion of phagocytic cells or Sephadex G-10-adherent cells from spleens of mice bearing a large tumor resulted in augmented antitumor immune potential. Also, Sephadex G-10-adherent spleen cells from tumor-bearing (but not normal) mice drastically suppressed the in vitro generation of antitumor cytotoxicity by normal spleen cells. The suppressive activity of these adherent cells did not reside in contaminating suppressor T cells, since it was not reduced by treatment with monoclonal anti-Thy 1.2 antibody plus complement. The Sephadex G-10-adherent cell population from the tumor-bearer spleen suppressed the in vitro generation of antitumor cytotoxicity against autochthonous tumor cells but not against allogeneic EL4 tumor cells, and hence the suppression was apparently specific. The suppressive activity of the Sephadex G-10-adherent cell population from tumor-bearer spleens was overcome by treatment of the tumor-bearing mice with a low curative dose of cyclophosphamide. This immunomodulatory effect of a low dose of the drug in overcoming the suppression mediated by the Sephadex G-10-adherent cell population enables the effector arm of the immune system of tumor-bearing mice to cooperate effectively with the drug's tumoricidal activity in tumor eradication.     

Type I interferons inhibit the generation of tumor-associated macrophages

Tumor-associated macrophages (TAM) are very abundant in tumors and are thought to play a major role in promoting tumor growth. The generation of TAM is positively regulated by several cytokines, including colony stimulating factor-1 (CSF-1) and monocyte chemoattractant protein-1 (CCL2). However, endogenous factors that suppress the generation of TAM within tumors have not been previously identified. An earlier study showed that endogenously produced type I interferons (IFN) suppressed tumor growth via their effects on hematopoietic cells rather than through direct effects on tumor cells. Therefore, we used mouse tumor models to investigate the effects of endogenously produced type I IFNs on the generation of TAM. We found using immunohistochemistry and flow cytometry that TAM density was significantly increased in tumors of mice lacking the type I IFN receptor (IFN-α/βR^−/− mice) compared to wild type mice. Moreover, the increase in TAM density was associated with a significant increase in tumor growth rate and angiogenesis. The phenotype of TAM was similar in IFN-α/βR^−/− mice and wild type mice and tumors in both mice produced similar amounts of CSF-1 and CCL2. However, in vitro assays indicated that low concentrations of type I IFNs significantly inhibited the generation of bone marrow macrophages in response to CSF-1. These findings indicate that endogenously produced type I IFNs suppress the generation of TAM, which may in turn account for inhibition of tumor growth and angiogenesis.     

The significance of alpha/beta interferons and gamma interferon produced in mice infected with Listeria monocytogenes

Interferon (IFN)-alpha/beta was induced in the circulation of mice infected intravenously with Listeria monocytogenes 24 to 72 hr after infection, but was not induced by the administration of heat-killed Listeria, listerial cell wall fraction (LCWF), or listerial soluble fraction. Appearance of IFN-alpha/beta showed a pattern similar to that of the growth of bacteria in the spleen and the liver of mice. IFN-alpha/beta production was abrogated by pretreatment of mice with anti-asialo GM1 antibody, antithymocyte serum, or hydrocortisone, but not with cyclophosphamide or carrageenan. Such treatments which suppressed IFN-alpha/beta production did not influence bacterial growth in the organs of mice in the early stage of Listeria infection. Administration of IFN-alpha/beta exogenously also did not. After 5 days of infection when the specific resistance against reinfection with Listeria was established, IFN-gamma but not IFN-alpha/beta was induced in the circulation 3 to 6 hr after stimulation with LCWF or reinfection with Listeria. IFN-gamma production was abrogated completely by cyclophosphamide and antithymocyte serum, and partially by hydrocortisone and carrageenan, but not by anti-asialo GM1 antibody in Listeria-infected mice treated with these agents before induction of IFN-gamma by LCWF. Presumably, IFN-alpha/beta might be produced by asialo GM1-bearing cells but IFN-gamma might not. However, IFN-gamma production was suppressed in Listeria-infected mice, when IFN-alpha/beta production had been inhibited by treatment with anti-asialo GM1 antibody or when the IFN produced had been neutralized with anti-mouse IFN-alpha/beta antibody. Therefore, it is conceivable that IFN-alpha/beta might be essential for the generation or the expression of antigen-specific T cells involving IFN-gamma production and acquired resistance during Listeria infection. In fact, the bacterial growth in the organs of mice in the early stage of infection was normal in IFN-alpha/beta-depleted mice but it resulted in the delay of T-cell-dependent elimination of bacteria from the organs of mice in the late stage.     

Suppression of antitumor immunity by macrophages in spleens of mice bearing a large MOPC-315 tumor

Summary We had shown previously that progression of MOPC-315 plasmacytoma growth is associated with an increase in the percentage of macrophages in the spleen as well as a decrease in the ability of tumor-bearer spleen cells to mount an antitumor cytotoxic response upon in vitro immunization. Here we provide evidence that macrophages in the MOPC-315 tumor-bearer spleen are responsible at least in part for the suppression of the generation of antitumor cytotoxicity. Accordingly, removal of most macrophages by depletion of phagocytic cells or Sephadex G-10-adherent cells from spleens of mice bearing a large tumor resulted in augmented antitumor immune potential. Also, Sephadex G-10-adherent spleen cells from tumor-bearing (but not normal) mice drastically suppressed the in vitro generation of antitumor cytotoxicity by normal spleen cells. The suppressive activity of these adherent cells did not reside in contaminating suppressor T cells, since it was not reduced by treatment with monoclonal anti-Thy 1.2 antibody plus complement. The Sephadex G-10-adherent cell population from the tumor-bearer spleen suppressed the in vitro generation of antitumor cytotoxicity against autochthonous tumor cells but not against allogeneic EL4 tumor cells, and hence the suppression was apparently specific. The suppressive activity of the Sephadex G-10-adherent cell population from tumor-bearer spleens was overcome by treatment of the tumor-bearing mice with a low curative dose of cyclophosphamide. This immunomodulatory effect of a low dose of the drug in overcoming the suppression mediated by the Sephadex G-10-adherent cell population enables the effector arm of the immune system of tumor-bearing mice to cooperate effectively with the drug's tumoricidal activity in tumor eradication.This paper was presented in part at the annual meeting of the American Association of Immunologists, Chicago, Illinois, 10–15 April 1983     

Cytokine responses to recombinant cholera toxin B subunit produced by Bacillus brevis as a mucosal adjuvant

We attempted to clarify the mechanism of the mucosal adjuvanticity of recombinant cholera toxin B subunit (rCTB), which is inherently uncontaminated with the holotoxin produced by Bacillus brevis and has a powerful mucosal adjuvant activity, on cytokine responses compared with that of cholera toxin (CT). rCTB had no ability to stimulate cyclic AMP formation in mouse peritoneal macrophages (Mphi). Cytokine production by non-immunized Mphi cultured with rCTB or CT and by the spleen cells of mice co-immunized intranasally with ovalbumin (OVA) and rCTB or CT was examined. rCTB alone did not induce interleukin (IL)-1alpha/beta or IL-6 production by Mphi, but combination of rCTB with lipopolysaccharide (LPS) enhanced both IL-1alpha/beta production. Conversely, CT plus LPS suppressed IL-1alpha/beta production more than LPS alone. Both rCTB and CT suppressed IL-12 secretion induced by interferon gamma (IFN gamma) plus LPS. IL-2, IL-4, IL-5, and IL-10 were secreted by mouse spleen cells restimulated with OVA after intranasal co-administration of OVA together with rCTB, and in response to CT, the same cytokines were secreted. The different effect of rCTB on Mphi from that of CT may mean a difference between the mechanisms of rCTB and CT during the early stage of an immune response.     

Induction of interferon and activation of NK cells and macrophages in mice by oral administration of Ge-132, an organic germanium compound

After oral administration of an organic germanium compound, Ge-132 (300 mg/kg), a significant level of interferon (IFN) activity was detected in the sera of mice at 20 hr and it reached a maximum of 320 U/ml at 24 hr. This IFN activity was lost after heat- or acid-treatment, suggesting that the induced IFN is of gamma-nature. The molecular weight of this IFN was estimated to be 50,000 daltons by gel filtration. The NK activity of spleen cells was increased 24 hr after the oral administration of Ge-132, and cytotoxic macrophages were induced in the peritoneal cavity by 48 hr. In the mice receiving an intraperitoneal (ip) injection of trypan blue or carrageenan 2 days before oral administration of Ge-132, neither induction of IFN nor augmentation of NK activity occurred, and X-ray irradiation of mice also rendered the mice incapable of producing IFN, all indicating that both macrophages and lymphocytes are required for this IFN induction. Both NK and cytotoxic macrophages appeared 18 hr after ip administration of the induced IFN with a titer as low as 20 U/ml. These facts suggest that both the augmentation of NK activity and activation of macrophages in mice after oral administration of Ge-132 are mediated by the induced IFN.     

In vitro and in vivo activity of antimicrobial peptides synthesized based on the insect defensin

Synthetic antimicrobial 9-mer peptides were designed from the amino acid sequence of an active site of insect defensin to increase the number of positively charged amino acid residues. These peptides, RLRLRIGRR-NH2, RLLLRIGRR-NH2 and RLYLRIGRR-NH2, showed strong antimicrobial activity against bacteria and fungus. These peptides showed no growth inhibition activity against murine fibroblasts or macrophages and no hemolytic activity against rabbit erythrocytes in vitro. Furthermore, the administration of these peptides protected mice from a lethal methicillin-resistant Staphylococcus aureus (MRSA) challenge. In addition, these peptides suppressed tumor necrosis factor alpha (TNF-alpha) gene expression and production induced by lipopolysaccharide (LPS) or lipoteichoic acid (LTA) in murine macrophages.     

In vivo and in vitro macrophage activation induced by IFN gamma spontaneously released by spleen cells from tumor bearing mice.

Peritoneal macrophages obtained from Lewis Lung carcinoma (3LL) tumor bearing mice release high amounts of soluble factors such as C3,H2O2 and lysosomal enzymes but fail to exert cytotoxic activity on tumor cells. In the present work we show that they acquire this property and become fully activated after in vitro incubation with supernatants derived from cultures of splenocytes from tumor bearing syngeneic mice. The presence of IFN gamma in the above supernatants was detected by immunoblotting analysis and by bioassay. The role played by IFN gamma in macrophage activation was investigated.     

Correlation between the lipopolysaccharide response of mice and the capacity of mouse peritoneal cells to transfer an antiviral state. Role of endogenous interferon

Freshly harvested mouse peritoneal cells, from normal lipopolysaccharide (LPS)-responsive (Lpsn) mice, were capable of transferring an antiviral state (to vesicular stomatitis virus) to "in vitro aged" mouse macrophages permissive for viral replication. The transfer of the antiviral state was completely abrogated by addition of antibody to interferon (IFN)-alpha/beta in the co-culture medium. In contrast, even large numbers of donor peritoneal cells from LPS-hyporesponsive (Lpsd) C3H/HeJ and C57BL/10ScCR mice did not transfer an antiviral state to target cells. Although peritoneal macrophages from Lpsd mice did not transfer an antiviral state to target cells, they were nevertheless found to be in an antiviral state when first placed in culture. Injection of mice with antibody to mouse IFN-alpha/beta rendered peritoneal macrophages from both Lpsn and Lpsd mice permissive for vesicular stomatitis virus. The decay of this initial antiviral state in peritoneal macrophages during in vitro culture was far more rapid for Lpsd mice than for normal mice. Addition of antibody to mouse IFN-alpha/beta markedly enhanced the in vitro decay of the antiviral state of peritoneal macrophages. Treatment of total peritoneal cells from Lpsn mice with LPS resulted in IFN production, whereas IFN was not detected in the cellfree medium of LPS-treated peritoneal cells from Lpsd C3H/HeJ and C57BL/10ScCR mice. Genetic studies with F1 hybrids between Lpsn and Lpsd mice and with Lpsn and Lpsd recombinant inbred strains revealed a striking correlation between the capacity of peritoneal cells to transfer an antiviral state and their capacity to produce IFN after stimulation with LPS, suggesting that closely linked, if not identical, genes are in some way involved in the transfer of antiviral state as well as in the LPS response by peritoneal cells of normal mice.     

Chronic bacterial osteomyelitis suppression of tumor growth requires innate immune responses

Clinical studies over the past several years have reported that metastasis-free survival times in humans and dogs with osteosarcoma are significantly increased in patients that develop chronic bacterial osteomyelitis at their surgical site. However, the immunological mechanism by which osteomyelitis may suppress tumor growth has not been investigated. Therefore, we used a mouse model of osteomyelitis to assess the effects of bone infection on innate immunity and tumor growth. A chronic Staphylococcal osteomyelitis model was established in C3H mice and the effects of infection on tumor growth of syngeneic DLM8 osteosarcoma were assessed. The effects of infection on tumor angiogenesis and innate immunity, including NK cell and monocyte responses, were assessed. We found that osteomyelitis significantly inhibited the growth of tumors in mice, and that the effect was independent of the infecting bacterial type, tumor type, or mouse strain. Depletion of NK cells or monocytes reversed the antitumor activity elicited by infection. Moreover, infected mice had a significant increase in circulating monocytes and numbers of tumor associated macrophages. Infection suppressed tumor angiogenesis but did not affect the numbers of circulating endothelial cells. Therefore, we concluded that chronic localized bacterial infection could elicit significant systemic antitumor activity dependent on NK cells and macrophages.     

Alteration of in vitro murine peritoneal macrophage function by dietary enrichment with eicosapentaenoic and docosahexaenoic acids in menhaden fish oil

The effects of diets containing menhaden fish oil (MFO), compared with those of diets containing safflower oil (SAF) or an essential fatty acid deficient hydrogenated coconut oil (HCO), on in vitro activation of tumoricidal capacity by murine macrophages were assessed. Mice fed the experimental diets for 4 weeks were injected intraperitoneally with sterile thioglycollate broth 3 days before use. There was no difference between any of the groups with respect to total peritoneal exudate cells or the percentage of macrophages, although the fatty acid profile of purified adherent macrophages closely paralleled that of the diets. Macrophages from mice fed MFO killed fewer P815 mastocytoma cells upon activation with recombinant interferon gamma (IFN gamma) and lipopolysaccharide. Macrophages from all diets were equally competent for tumoricidal capacity when activated pharmacologically with calcium ionophore, phorbol 12-myristate 13-acetate, and lipopolysaccharide (LPS), suggesting that MFO diet macrophages were hyporesponsive to IFN gamma. Priming with higher concentrations of IFN gamma restored the partial defect in activation of MFO macrophages. When activated for 24 hr with high levels of LPS, macrophages from mice fed SAF displayed little cytolytic capacity; addition of indomethacin. (1 microM) resulted in enhanced levels of P815 kill. In contrast, MFO and HCO diet macrophages were highly cytolytic with similar LPS treatment with or without indomethacin. Macrophages from mice fed SAF produced threefold more prostaglandin E in response to LPS than did MFO and HCO diet macrophages. These results suggest that dietary manipulation of fatty acids can alter activation of tumoricidal capacity of macrophages, possibly both dependent and independent of changes in eicosanoid synthesis.     

The role of lipocortin I in macrophage-mediated immunosuppression in tumor-bearing mice

The soluble mediators and/or mechanisms involved in immunosuppression in tumor-bearing hosts are not well characterized, although macrophages have long been recognized as major participants. We have investigated the role of lipocortin I, a phospholipid-binding protein, in macrophage-mediated immunosuppression in tumor-bearing mice. Proliferation of splenic lymphocytes in response to the mitogens (PHA, Con A, LPS, and PWM) was severely suppressed in tumor (Sqc-NH-1 carcinoma)-bearing mice. This immunosuppression was associated with a decrease in T and B lymphocytes and an increase in macrophages in these spleens. Mac-2+ macrophages were found only in spleens from tumor-bearing mice. Splenic macrophages from tumor-bearing, but not normal, mice were responsible for this immunosuppression, as revealed by negative and positive selection experiments. The levels of lipocortin I mRNA expression were markedly increased in peripheral blood cells from tumor-bearing mice as compared with those from normal mice. Lipocortin I mRNA was strongly induced in splenic mononuclear cells from tumor-bearing mice. Furthermore, these cells displayed increased expression of lipocortin I protein, as judged by Western blot analysis with polyclonal anti-lipocortin I serum. Some nonimmune organs such as the heart, submaxillary gland, muscle, and bladder also displayed increased levels of lipocortin I mRNA expression in tumor-bearing mice. Mac-2+ macrophages among the splenic mononuclear cells in tumor-bearing mice expressed lipocortin I mRNA, as judged by negative and positive selection experiments. Most of these Mac-2+ macrophages also had Mac-1 and Mac-3 Ag. Lipocortin I protein was increased in the serum of tumor-bearing mice as compared with normal mice. The culture supernatants of splenic cells from tumor-bearing mice suppressed the mitogenic responses of splenic cells from normal mice, and addition of anti-lipocortin I antiserum inhibited this suppression. Furthermore, recombinant mouse lipocortin I suppressed mitogenic responses of splenic cells from normal mice. In summary, Mac-2+ macrophage-derived lipocortin I was largely involved in immunosuppression in tumor-bearing mice.     

Absent in melanoma 2-mediating M1 macrophages facilitate tumor rejection in renal carcinoma

Absent in melanoma 2 (AIM2) as an immune regulator for the regulation of tumor-associated macrophages (TAMs) function is unclear in tumor development. Here, the AIM2 function was investigated in TAMs-mediated malignant behaviors of renal carcinoma. The correlation analysis result showed that the AIM2 expression in TAMs was negatively correlated with the percentages of M2-like polarization phenotype in human or murine renal cancer specimens. By the cocultured assay with bone marrow-derived macrophages (BMDMs) and Renca cells, overexpression of AIM2 in macrophages enhanced the inflammasome activation and reversed the phenotype from M2 to M1. Compared with BMDMs-Ctrl cocultured group, BMDMs-AIM2 cocultured group showed reduced tumor cell proliferation and migration. The blockade of inflammasome activation by the inhibitor Ac-YVAD-CMK abrogated AIM2-mediated M1 polarization and the inhibition of tumor cell growth. To evaluate the therapeutic efficacy of AIM2-mediated M1 macrophages in vivo, BMDMs-AIM2 were intravenously injected into subcutaneous Renca-tumor mice. The results showed that the infiltration of M1 TAMs was increased and tumor growth was suppressed in BMDMs-AIM2-treated mice when compared with BMDMs-Ctrl-treat mice. Accordingly, the blockade of inflammasome activation reduced the anti-tumor activities of BMDMs-AIM2. Moreover, the lung metastases of renal carcinoma were suppressed by the administration of BMDMs-AIM2 accompanied with the reduced tumor foci. These results demonstrated that AIM2 enhanced TAMs polarization switch from anti-inflammatory M2 phenotypy to pro-inflammatory M1 through inflammasome signaling activation, thus exerting therapeutic intervention in renal carcinoma models. Our results provide a possible molecular mechanism for the modulation of TAMs polarization in tumor microenvironment and open a new potential therapeutic approach for renal cancer.