Studies on macrophage-activating factor (MAF) in antitumor immune responses. I. Tumor-specific Lyt-1+2- T cells are required for producing MAF able to generate cytolytic as well as cytostatic macrophages

In the present study we investigated some of the cellular mechanisms for the generation of macrophage-activating factor(s) (MAF) in immune responses to tumor antigens. C3H/HeN mice were immunized to syngeneic MH134 hepatoma or MCH-1-A1 fibrosarcoma by intradermal inoculation of viable tumor cells, followed by the surgical resection of the tumor. Spleen and lymph node cells from these tumor-immune mice were stimulated in vitro with the corresponding tumor cells, and supernatant from such a culture was tested for an ability to activate macrophages to exert their cytostatic and cytolytic activities as detected on tumor cells unrelated to immunizing tumors. Peritoneal adherent cells as a macrophage source, which were preincubated with supernatant from co-culture of tumor-unimmunized normal spleen and lymph node cells plus tumor cells, failed to exhibit any significant antitumor effect on unrelated X5563 tumor cells, whereas the addition of supernatant from cultures containing immune lymphocytes to adherent cells resulted in appreciably potent cytostatic and cytolytic effects on X5563 tumor cells, indicating the generation of MAF in culture supernatant. The activation of tumor-immune spleen and lymph node cells for MAF generation was tumor-specific, because anti-MH134- and anti-MCH-1-A1-immune lymphocytes produced MAF by the stimulation with the respective but not with the other alternative tumor cells. Such MAF production was abolished by treatment of tumor-immune spleen and lymph node cells with anti-Thy-1.2 or anti-Lyt-1.1 but not with anti-Lyt-2.1 antibody plus complement before culturing. These results indicate that the tumor-specific Lyt-1+2- T cell subset has a crucial role in generating MAF by which an adherent cell population as a source of macrophages acquires the potential for inducing a cytolytic as well as a cytostatic effect on tumor cells.     

T and B lymphocyte populations of tumor-bearing mice treated with 1,3-bis(chloroethyl)-1-nitrosourea (BCNU) or pyran

Summary The immunostimulator pyran copolymer and the antitumor agent 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) have been studied to determine their effect on T and B lymphocytes from BALB/c mice bearing a syngeneic tumor, Madison lung 109 carcinoma. Indirect immunofluorescent and mitogenic assays revealed that the tumor-bearing controls usually had T and B cell populations lower than those observed for the normal controls. The tumor-bearing group treated with BCNU generally had T and B cell levels lower than the tumor controls. The administration of pyran resulted in an increase of T cells and a temporary increase in the B cell population. Although this increase in the B cell population of tumor-bearing mice treated with pyran is higher than that seen for the untreated tumor controls it was never higher than in the normal control mice. The experimental results indicate that pyran appears to reconstitute the depressed T cell population and has a transitory effect on the B cell population resulting from tumor burden.     

Role of colony-stimulating factor-1 in macrophage activation in tumor-bearing mice.

We previously reported a dramatically increased number of macrophages in tumor-bearing mice. In this study, we investigated the involvement of CSF in that phenomenon. CSF-1 responding cells as macrophages precursors increased significantly in number in the spleens of tumor-bearing mice as compared with those in normal mice. Splenic cells and sera from the tumor-bearing mice respectively expressed CSF-1 in mRNA and serum protein levels, but failed to express the other CSF (granulocyte-macrophage-CSF or IL-3). Nonadherent splenic mononuclear cells (< 0.5% macrophages) from normal mice proliferated and differentiated into mature macrophages in culture within 7 days with recombinant mouse CSF-1 (rCSF-1). Both macrophages harvested from tumor-bearing mice and those activated in vitro with rCSF-1 expressed mostly Mac-1, -2 (and -3) Ag, showed yeast phagocytosis, produced IL-1 but not IL-2 or IL-3, and displayed potent cytotoxicity against NK cell resistant Meth-A tumor cells. These macrophages also expressed lipocortin I mRNA and secreted lipocortin I protein, and suppressed mitogenic responses of splenic lymphocytes. rCSF-1-activated macrophages derived from nonadherent splenic cells expressed both CSF-1 and CSF-1 receptor (c-fms) mRNA. Administration of rCSF-1 into normal mice induced hemopoietic and immunologic alternations similar to those observed in tumor-bearing mice. These results suggest that CSF-1 is involved in the dramatic increase of macrophages in tumor-bearing mice, possibly through an autocrine or paracrine loop.     

Melphalan-mediated potentiation of antitumor immune responsiveness of immunosuppressed spleen cells from mice bearing a large MOPC-315 tumor

Summary Administration of a low dose of l-PAM (0.75 mg/kg) to mice bearing a large SC MOPC-315 tumor and extensive metastases led to the development of augmented antitumor immune potential in their hitherto immunosuppressed spleen cells. Such drug-induced potentiation of antitumor immune responsiveness appeared by day 2 after chemotherapy, and it could not be further enhanced but was actually reduced by depletion of glass-adherent cells, a procedure which is effective in depleting the cells known to have inhibitory activity (i.e., macrophages and metastatic tumor cells). To establish that l-PAM can lead to selective in situ abrogation of the inhibitory effectiveness of the splenic macrophages and metastatic tumor cells, we demonstrated that incubation of immunosuppressed tumor-bearer spleen cells with a low concentration of l-PAM in vitro also resulted in augmented antitumor immune potential that could not be further augmented by depletion of glass-adherent cells. l-PAM-mediated enhancement of the antitumor immune potential of immunosuppressed tumor bearer spleen cells was due at least in part to the effects of the drug on the splenic metastatic tumor cells. Isolated tumor cells treated with a low concentration of l-PAM were not only devoid of inhibitory activity for the primary in vitro antitumor immune response by normal spleen cells, but actually manifested a strong immunostimulatory capacity. Thus, l-PAM given at a low dose enhances the development of potent antitumor immunity which brings about the eradication of a large tumorigenic load that remains after the drug has been cleared from the circulation.Presented in part at the 67th annual meeting of the Federation of American Societies for Experimental Biology in Chicago, April 10–15, 1983 Abbreviations used: L-PAM, l-phenylalanine mustard (Melphalan); CY, cyclophosphamide     

Characterization of tumor-infiltrating CD4+ T cells as Th1 cells based on lymphokine secretion and functional properties

Recent studies have subdivided the Th cells into mutually exclusive Th1 subset producing IL-2 and IFN-gamma and Th2 cells producing IL-4 and IL-5. The relative role played by these two subsets in the antitumor immunity is not clear. We earlier demonstrated that treatment of C57BL/6 mice bearing a syngeneic Ia- T cell lymphoma, LSA, with 1,3-bis (2-chloroethyl)-1-nitrosourea (BCNU) resulted in 90 to 100% survival of the mice. Furthermore, host's T cell responses were critical for successful BCNU-mediated cures. In our study we observed that immediately after BCNU treatment, there was a dramatic increase in the percentage of CD4+ T cells at the site of tumor growth in the peritoneal cavity. The percentage of CD4+ T cells increased from approximately 3 to 4% found in normal or tumor-bearing mice to approximately 41% in BCNU-treated tumor-bearing mice. The percentage of CD8+ T cells also increased although to a lesser degree. Also, these alterations were primarily restricted to the site of tumor-growth inasmuch as they were not seen in the thymus and were less pronounced in the spleen. The tumor-infiltrating CD4+ T cells obtained after BCNU-treatment, when further characterized, were found to secrete only IL-2 and IFN-gamma but not IL-4, after tumor-specific stimulation. Furthermore, the supernatants from LSA-activated CD4+ T cell cultures failed to provide help to the B cells but were able to activate the macrophages to inhibit the tumor cell proliferation. The CD4+ T cells when adoptively transferred could also protect the nude mice from LSA tumor challenge and induced tumor-specific delayed-type hypersensitivity reaction. Together our data suggest that in the LSA tumor model, the tumor-infiltrating CD4+ T cells have the properties of Th1 cells and these cells can mediate tumor-rejection independent of the CD8+ T cells by activating the macrophages.     

EBV-induced molecule 1 ligand chemokine (ELC/CCL19) promotes IFN-gamma-dependent antitumor responses in a lung cancer model

The antitumor efficacy of EBV-induced molecule 1 ligand CC chemokine (ELC/CCL19) was evaluated in a murine lung cancer model. The ability of ELC/CCL19 to chemoattract both dendritic cells and T lymphocytes formed the rationale for this study. Compared with diluent-treated tumor-bearing mice, intratumoral injection of recombinant ELC/CCL19 led to significant systemic reduction in tumor volumes (p < 0.01). ELC/CCL19-treated mice exhibited an increased influx of CD4 and CD8 T cell subsets as well as dendritic cells at the tumor sites. These cell infiltrates were accompanied by increases in IFN-gamma, MIG/CXCL9, IP-10/CXCL10, GM-CSF, and IL-12 but a concomitant decrease in the immunosuppressive molecules PGE(2) and TGFbeta. Transfer of T lymphocytes from ELC/CCL19 treated tumor-bearing mice conferred the antitumor therapeutic efficacy of ELC/CCL19 to naive mice. ELC/CCL19 treated tumor-bearing mice showed enhanced frequency of tumor specific T lymphocytes secreting IFN-gamma. In vivo depletion of IFN-gamma, MIG/CXCL9, or IP-10/CXCL10 significantly reduced the antitumor efficacy of ELC/CCL19. These findings provide a strong rationale for further evaluation of ELC/CCL19 in tumor immunity and its use in cancer immunotherapy.     

Immunosuppression in a murine B cell leukemia (BCL1): role of an adherent cell in the suppression of primary in vitro antibody responses

The ability of lymph node cells from mice bearing the BCL1 tumor to respond in vitro to mitogens, allogeneic cells, and both TI and TD antigens was investigated. The lymph nodes of such mice are not invaded with tumor cells and contain normal numbers of T and B cells. Nevertheless, at the peak of tumor burden in the spleen and blood (approximately 8 to 12 wk after injection with tumor cells), the lymph node cells from the tumor-bearing mice display markedly decreased responsiveness both to allogeneic cells and to antigens. In addition, small numbers of lymph node cells from the tumor-bearing mice suppress primary antibody responses of normal lymph node cells. This nonspecific suppression of antibody responses is mediated by a G-10 Sephadex adherent, non-T, non-B cell present in the nodes of the tumor-bearing mice. Since the BCL1 tumor model is in many respects similar to the prolymphocytic type of human chronic lymphocytic leukemia, the present results may be helpful in elucidating the mechanisms underlying the in vivo immunosuppression associated with lymphocytic neoplasms in humans.     

Tolerization of tumor-specific T cells despite efficient initial priming in a primary murine model of prostate cancer

In this report, we studied T cell responses to a prostate cancer Ag by adoptively transferring tumor Ag-specific T cells into prostate tumor-bearing mice. Our findings demonstrate that CD8(+) T cells initially encountered tumor Ag in the lymph node and underwent an abortive proliferative response. Upon isolation from the tumor, the residual tumor-specific T cells were functionally tolerant of tumor Ag as measured by their inability to degranulate and secrete IFN-gamma and granzyme B. We next sought to determine whether providing an ex vivo-matured, peptide-pulsed dendritic cell (DC) vaccine could overcome the tolerizing mechanisms of tumor-bearing transgenic adenocarcinoma of the mouse prostate model mice. We demonstrate that tumor Ag-specific T cells were protected from tolerance following provision of the DC vaccine. Concurrently, there was a reduction in prostate tumor size. However, even when activated DCs initially present tumor Ag, T cells persisting within the tolerogenic tumor environment gradually lost Ag reactivity. These results suggest that even though a productive antitumor response can be initiated by a DC vaccine, the tolerizing environment created by the tumor still exerts suppressive effects on the T cells. Furthermore, our results demonstrate that when trying to elicit an effective antitumor immune response, two obstacles must be considered: to maintain tumor Ag responsiveness, T cells must be efficiently primed to overcome tumor Ag presented in a tolerizing manner and protected from the suppressive mechanisms of the tumor microenvironment.     

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.     

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     

T cell augments the antitumor activity of tumor-targeting <Emphasis Type="Italic">Salmonella</Emphasis>

Systemic administration of Salmonella to tumor-bearing mice leads to preferential accumulation within tumor sites and retardation of tumor growth. However, the detailed mechanism of Salmonella-induced antitumor immune response via host T cell remains uncertain. Herein, we used wild-type, CD4⁺ T-cell-deficient, and CD8⁺ T-cell-deficient mice to study the role of T cell in the antitumor immune responses induced by Salmonella enterica serovar Choleraesuis (Salmonella Choleraesuis). When systemically administered into mice bearing tumors, Salmonella Choleraesuis significantly inhibited tumor growth by 50%. In contrast, in T-cell-deficient mice, there was only 34–42% inhibition of tumor growth. We found that treatment with Salmonella Choleraesuis significantly upregulates interferon-γ in wild-type and CD8⁺ T-cell-deficient mice, but not in CD4⁺ T-cell-deficient mice. Furthermore, immunohistochemical staining of the tumors revealed more infiltration of macrophages and neutrophils in wild-type mice after Salmonella Choleraesuis treatment compared with those in T-cell-deficient mice. The antitumor therapeutic effect mediated by Salmonella Choleraesuis is associated with an inflammatory immune response at the tumor site and a tumor T helper 1-type immune response. In conclusion, these results suggest that tumor-targeted therapy using Salmonella Choleraesuis, which exerts tumoricidal effects and stimulates T cell activities, represents a potential strategy for the treatment of tumor.     

The immunological mouse mutants nude (nu) and rhino (hr rh ) generate cytotoxic effector cells following adoptive immunotherapy but fail to reject a transplanted tumor

Summary Adoptive immunotherapy, consisting of cyclophosphamide injection and the i. v. transfer of tumor-sensitized T cells, resulted in rejection of the immunogenic fibrosarcoma, MCA/76-9, by syngeneic C57BL/6J (B6) mice. The same treatment of tumor-bearing congenic immunodeficient mice, homozygous for the deleterious mutations nude (nu) and rhino (hr ^rh ), did not result in tumor rejection. Paradoxically, the intratumor and intrasplenic changes taking place in each of the three strains after therapy were indistinguishable. There was an increase in Thy-1⁺, Lyt-2⁺, or L3T4⁺ cells at the tumor site 8 days after adoptive immunotherapy and a similar increase in Thy-1⁺ cells in the spleen. Moreover, the T cells isolated from the tumors or spleens from each genotype were shown to be specifically cytotoxic in vitro as well as in an in vivo Winn assay. Further evidence that immune amplification had occurred in the immunological mutant mice was provided by experiments showing (a) the ability of spleen cells from tumor-bearers and those tested after therapy to produce IL-2 in response to Con A stimulation and (b) an increase in class II-MHC antigen expression by tumor-associated macrophages. The data suggest that, although amplification of antitumor immune responses occurred in the immunological mutants, the absence of a critical host factor limited the potency of the antitumor response. Abbreviations used: CY, cyclophosphamide; TAM, tumor-associated macrophages; TAL, tumor-associated lymphocytes; TAC, tumor-associated cells; B6, C57BL/6J; class II MHC antigens: Ia; con A, concanavalin A; IL-1, IL-2, interleukin 1 and 2     

Myelopoietic Efficacy of Orlistat in Murine Hosts Bearing T Cell Lymphoma: Implication in Macrophage Differentiation and Activation

Orlistat, an inhibitor of fatty acid synthase (FASN), acts as an antitumor agent by blocking de novo fatty acid synthesis of tumor cells. Although, myelopoiesis also depends on de novo fatty acid synthesis, the effect of orlistat on differentiation of macrophages, which play a central role in host’s antitumor defence, remains unexplored in a tumor-bearing host. Therefore, the present investigation was undertaken to examine the effect of orlistat administration on macrophage differentiation in a T cell lymphoma bearing host. Administration of orlistat (240 mg/kg/day/mice) to tumor-bearing mice resulted in a decline of tumor load accompanied by an augmentation of bone marrow cellularity and survival of bone marrow cells (BMC). The expression of apoptosis regulatory caspase-3, Bax and Bcl2 was modulated in the BMC of orlistat-administered tumor-bearing mice. Orlistat administration also resulted in an increase in serum level of IFN-γ along with decreased TGF-β and IL-10. BMC of orlistat-administered tumor-bearing mice showed augmented differentiation into macrophages accompanied by enhanced expression of macrophage colony stimulating factor (M-CSF) and its receptor (M-CSFR). The macrophages differentiated from BMC of orlistat-administered mice showed characteristic features of M₁ macrophage phenotype confirmed by expression of CD11c, TLR-2, generation of reactive oxygen species, phagocytosis, tumor cell cytotoxicity, production of IL-1,TNF-α and nitric oxide. These novel findings indicate that orlistat could be useful to support myelopoesis in a tumor-bearing host.     

The augmentative effect of a protein-bound polysaccharide (PSK) on tumoricidal activity of the soluble factor produced by a streptococcal preparation (OK-432)-activated macrophages

The enhancement of antitumor activities of the tumoricidal soluble factor (SF) from a streptococcal preparation (OK-432)-activated macrophages by the pretreatment with a protein-bound polysaccharide (PSK) was investigated in tumor-bearing mice.Two-step stimulations with OK-432 atin vivo priming andin vitro eliciting were required for the production of the tumoricidal SF by macrophages, and the tumoricidal activity of the SF apparently correlated with the uptake of OK-432 by macrophages at priming phase.Tumoricidal activity of the SF from OK-432-activated macrophages in proteose-peptone (P-P)-pretreated mice significantly decreased with the development of the tumor, whereas in PSK-pretreated mice did not. Pretreatment of tumor-bearing mice with PSK saved a decrease in the macrophages carrying Ia^k or asialo GM1 antigens and an increase in wheat germ agglutinin (WGA) receptors. Furthermore, the uptake of OK-432 by macrophages at priming phase was enhanced. The tumoricidal activity of the SF from OK-432-activated macrophages was augmented.Thus, PSK may restore the depressed functions of macrophages, and the combination therapy with PSK and OK-432 may be effective to enhance the production of tumoricidal SF in tumor-bearing mice.     

Increased responsiveness to macrophage-activating factor (MAF) after alteration of macrophage membranes.

Guinea pig macrophages pretreated with the esterase inhibitor, antithrombin III (AT III) show increased responsiveness to macrophage-activating factor (MAF) as demonstrated by their enhanced cytotoxicity for tumor cells. Other proteins that are not esterase inhibitors did not enhance the effect of MAF on the macrophage. Enhancement of MAF activity was also obtained when macrophages were preincubated with the cell surface reactant, diazotized sulfanilic acid (DSA). These studies indicate that the effect of MAF can be enhanced by chemical modifications of the macrophage membrane. They also provide further evidence to support the hypothesis that an esterase on the macrophage membrane modulates this cell's responsiveness to lymphocyte mediators.     

Divergent roles for CD4+ T cells in the priming and effector/memory phases of adoptive immunotherapy

The requirement for CD4(+) Th cells in the cross-priming of antitumor CTL is well accepted in tumor immunology. Here we report that the requirement for T cell help can be replaced by local production of GM-CSF at the vaccine site. Experiments using mice in which CD4(+) T cells were eliminated, either by Ab depletion or by gene knockout of the MHC class II beta-chain (MHC II KO), revealed that priming of therapeutic CD8(+) effector T cells following vaccination with a GM-CSF-transduced B16BL6-D5 tumor cell line occurred independently of CD4(+) T cell help. The adoptive transfer of CD8(+) effector T cells, but not CD4(+) effector T cells, led to complete regression of pulmonary metastases. Regression of pulmonary metastases did not require either host T cells or NK cells. Transfer of CD8(+) effector T cells alone could cure wild-type animals of systemic tumor; the majority of tumor-bearing mice survived long term after treatment (>100 days). In contrast, adoptive transfer of CD8(+) T cells to tumor-bearing MHC II KO mice improved survival, but eventually all MHC II KO mice succumbed to metastatic disease. WT mice cured by adoptive transfer of CD8(+) T cells were resistant to tumor challenge. Resistance was mediated by CD8(+) T cells in mice at 50 days, while both CD4(+) and CD8(+) T cells were important for protection in mice challenged 150 days following adoptive transfer. Thus, in this tumor model CD4(+) Th cells are not required for the priming phase of CD8(+) effector T cells; however, they are critical for both the complete elimination of tumor and the maintenance of a long term protective antitumor memory response in vivo.     

A novel compound T7 (N-{4′-[(1E)-N-hydroxyethanimidoyl]-3′,5,6-trimethoxybiphenyl-3-yl}-N′-[4-(3-morpholin-4-ylpropoxy)phenyl]urea) screened by tissue angiogenesis model and its activity evaluation on anti-angiogenesis

A tissue model for angiogenesis that imitated new blood vessels formation in vivo had been established in the previous study. Here, it was used to screen and evaluate a series of synthesized compounds and the results indicated that compound T7 (N-{4′-[(1E)-N-hydroxyethanimidoyl]-3′,5,6-trimethoxybiphenyl-3-yl}-N′-[4-(3-morpholin-4-ylpropoxy)phenyl]urea) could effectively inhibit the blood vessels formation. Then the anti-angiogenic potential of T7 and its related molecular mechanisms against lung carcinoma in vitro and in vivo were investigated. Treatment with T7 significantly inhibited human umbilical vein endothelial cells and A549 cells proliferation and migration. T7 reduced human umbilical vein endothelial cells tube formation as well. Western blotting analysis of cell signaling molecules indicated that T7 reduced phosphorylation of KDR and its downstream signaling players AKT and ERK1/2 activation in endothelial cells and A549 cells. Moreover, T7 inhibited tumor growth in A549 xenografted model of athymic mice and reduced CD34 expression levels in tumor-bearing mice by immunohistochemistry. In sum, our findings showed that T7 was a candidate of tumor angiogenesis inhibitors, and it functioned by interrupting the autophosphorylation of KDR, AKT and ERK1/2.     

The TLR-7 agonist, imiquimod, enhances dendritic cell survival and promotes tumor antigen-specific T cell priming: relation to central nervous system antitumor immunity

Immunotherapy represents an appealing option to specifically target CNS tumors using the immune system. In this report, we tested whether adjunctive treatment with the TLR-7 agonist imiquimod could augment antitumor immune responsiveness in CNS tumor-bearing mice treated with human gp100 + tyrosine-related protein-2 melanoma-associated Ag peptide-pulsed dendritic cell (DC) vaccination. Treatment of mice with 5% imiquimod resulted in synergistic reduction in CNS tumor growth compared with melanoma-associated Ag-pulsed DC vaccination alone. Continuous imiquimod administration in CNS tumor-bearing mice, however, was associated with the appearance of robust innate immune cell infiltration and hemorrhage into the brain and the tumor. To understand the immunological mechanisms by which imiquimod augmented antitumor immunity, we tested whether imiquimod treatment enhanced DC function or the priming of tumor-specific CD8+ T cells in vivo. With bioluminescent, in vivo imaging, we determined that imiquimod dramatically enhanced both the persistence and trafficking of DCs into the draining lymph nodes after vaccination. We additionally demonstrated that imiquimod administration significantly increased the accumulation of tumor-specific CD8+ T cells in the spleen and draining lymph nodes after DC vaccination. The results suggest that imiquimod positively influences DC trafficking and the priming of tumor-specific CD8+ T cells. However, inflammatory responses induced in the brain by TLR signaling must also take into account the local microenvironment in the context of antitumor immunity to induce clinical benefit. Nevertheless, immunotherapeutic targeting of malignant CNS tumors may be enhanced by the administration of the innate immune response modifier imiquimod.     

STAT1 signaling regulates tumor-associated macrophage-mediated T cell deletion

It is well established that tumor progression is associated with the accumulation of myeloid suppressive cells, which in mice include Gr-1+ immature myeloid cells and F4/80+ macrophages. The paradox is that with the exception of terminal stages of the disease or chemotherapy treatment, tumor-bearing mice or cancer patients do not display a profound systemic immune suppression. We therefore raised the question as to whether myeloid cell-mediated T cell suppression is controlled at a local level at the site of the tumor. We have demonstrated that after adoptive transfer to tumor-bearing recipients, Gr-1+ (immature myeloid cells) freshly isolated from spleens of tumor-bearing mice become F4/80+ tumor-associated macrophages (TAM). These TAM, but not F4/80+ macrophages or Gr-1+ cells freshly isolated from spleens of tumor-bearing or naive mice were able to inhibit T cell-mediated immune response in vitro via induction of T cell apoptosis. Arginase and NO were both responsible for the apoptotic mechanism, and were seen only in TAM, but not in freshly isolated Gr1+ cells. Using the analysis of STAT activity in combination with STAT knockout mice, we have determined that STAT1, but not STAT3 or STAT6, was responsible for TAM-suppressive activity.     

The role of tumor-derived cytokines on the immune system of mice bearing a mammary adenocarcinoma. I. Induction of regulatory macrophages in normal mice by the in vivo administration of rGM-CSF

Using a dimethylbenzanthracene-induced immunogenic nonmetastatic murine mammary adenocarcinoma in BALB/c mice, our previous work has shown that splenocytes from tumor bearers have reduced responses to both mitogens and Ag including tumor-associated Ag. NK and cytotoxic T cell activities are also reduced in splenocytes of tumor bearers. Mac-1+2+ macrophages induced in mammary tumor bearers are capable of down-regulating lymphocyte responses to mitogens and tumor-associated Ag by cell to cell contact interaction and increased PGE2 production. We have found that the tumor constitutively releases a granulocyte-macrophage (GM)-CSF-like factor in vivo and in vitro, which may be responsible for the systemic increase in cells of the macrophage lineage in tumor-bearing mice. A tumor cell line established from the in vivo tumor expresses and releases GM-CSF as shown by Northern and Western blot analyses. Daily i.p. injections for 3 wk of 10,000 U of rGM-CSF into normal mice induces hemopoietic and immunologic alterations similar to those observed in tumor bearers. Mac-1+ and/or Mac-2+ macrophages can also be detected in the spleens and bone marrow of the mice treated with rGM-CSF. Additionally, splenocytes from rGM-CSF-treated mice have reduced responses to mitogens and their peritoneal exudate cells can cause in vitro down-regulation of proliferative responses of lymphocytes from normal mice. The suppression can be partially reversed by the addition of indomethacin to the cultures suggesting that PGE2 may contribute to the effect. rGM-CSF enhances the in vitro release of PGE2 by the spleen, bone marrow, and peritoneal cells of normal mice. These data indicate that the high levels of GM-CSF constitutively produced by the tumor may be responsible for the hemopoietic changes and immunologic alterations observed in tumor-bearing mice.