Flow-microfluorometric monitoring of oligoclonal CD8+ T cell responses to an immunodominant Moloney leukemia virus-encoded epitope in vivo

The TCR repertoire of CD8+ T cells specific for Moloney murine leukemia virus (M-MuLV)-associated Ags has been investigated in vitro and in vivo. Analysis of a large panel of established CD8+ CTL clones specific for M-MuLV indicated an overwhelming bias for V beta4 in BALB/c mice and for V beta5.2 in C57BL/6 mice. These V beta biases were already detectable in mixed lymphocyte:tumor cell cultures established from virus-immune spleen cells. Furthermore, direct ex vivo analysis of PBL from BALB/c or C57BL/6 mice immunized with syngeneic M-MuLV-infected tumor cells revealed a dramatic increase in CD8+ cells expressing V beta4 or V beta5.2, respectively. M-MuLV-specific CD8+ cells with an activated (CD62L-) phenotype persisted in blood of immunized mice for at least 2 mo, and exhibited decreased TCR and CD8 levels compared with their naive counterparts. In C57BL/6 mice, most M-MuLV-specific CD8+ CTL clones and immune PBL coexpressed V alpha3.2 in association with V beta5.2. Moreover, these V beta5.2+ V alpha3.2+ cells were shown to recognize the recently described H-2Db-restricted epitope (CCLCLTVFL) encoded in the leader sequence of the M-MuLV gag polyprotein. Collectively, our data demonstrate a highly restricted TCR repertoire in the CD8+ T cell response to M-MuLV-associated Ags in vivo, and suggest the potential utility of flow-microfluorometric analysis of V beta and V alpha expression in the diagnosis and monitoring of viral infections.     

Long-lived and transferable tumor immunity in mice after targeted interleukin-2 therapy

A major goal of tumor immunotherapy is the induction of tumor-specific T cell responses that are effective in eradicating disseminated tumor, as well as mounting a persistent tumor-protective immunity. We demonstrate here that a genetically engineered fusion protein consisting of human/mouse chimeric anti-ganglioside GD2 antibody and human interleukin-2 is able to induce eradication of established B78-D14 melanoma metastases in immunocompetent syngeneic C57BL/6J mice. This therapeutic effect is mediated by host immune cells, particularly CD8+ T cells and is associated with the induction of a long-lived immunity preventing tumor growth in the majority of animals when challenged up to four months later with B78-D14 cells. This effect was tumor-specific, since no cross-protection against syngeneic, ganglioside GD2+ EL-4 thymoma cells was observed. Furthermore, this tumor-specific protection can be transmitted horizontally to naive, syngeneic SCID mice by passive transfer of CD8+ T lymphocytes derived from immune animals. These results suggest that antibody-targeted delivery of cytokines provides a means to elicit effective immune responses against established tumors in the immunotherapy of neoplastic disease.     

Recurrent T cell receptor rearrangements in the cytotoxic T lymphocyte response in vivo against the p815 murine tumor

P815 is a murine mastocytoma of DBA/2 origin which, although immunogenic, rapidly develops as a tumor in immunocompetent syngeneic hosts. In this report, we have studied, by a molecular approach, the in vivo alpha/beta T cell response to P815. Both situations of tumor growth after engraftment of naive animals or tumor rejection by preimmunized animals have been analyzed. The spectrum of T cell receptor beta chain rearrangements in the tumor-infiltrating lymphocytes was found to be highly variable among individual tumor-bearing mice. However, two rearrangements, one using V(beta)1 and J(beta)1.2 segments and one using the V(beta)1 and J(beta)2.5 segments, with conserved junctional regions, reproducibly emerge in most individuals. These two rearrangements thus correspond to "public" (recurrent) T cell clones, as opposed to "private" ones, which emerge in a seemingly stochastic fashion in immunized animals. Importantly, these public cells are observed in situations of either growth or rejection of the tumor. Quantification provides a clear increase in public T cells in secondary responses, but no obvious correlation provides between their level and primary tumor rejection. The V(beta)1- J(beta)1.2 rearrangement is borne by CTL directed against an antigen derived from P1A, a nonmutated mouse self protein which is expressed in P815 but not in normal mouse tissues except testis. A recurrent, public T cell response can thus be observed to an antigen derived from a self protein expressed by a tumor.     

Development and antigen specificity of CD8+ cytotoxic T lymphocytes in beta 2-microglobulin-negative, MHC class I-deficient mice in response to immunization with tumor cells

beta 2-Microglobulin knockout mice (beta 2-m-/-) with MHC class I expression deficiency are able to develop functional TCR(+)-alpha beta, CD8+ CTLs in response to tumor cell injection. The i.p. injection of beta 2-m-/- mice with tumor results in the massive accumulation of highly lytic CD8+ CTLs in the peritoneum and causes the local recruitment of CD8+ T cells into lymph nodes and spleens of immune animals. The accumulation of CD8+ CTLs in peritoneum is accompanied by the rejection of tumor cells and the survival of animals. The deficiency in MHC class I expression in beta 2-m/- mice is reflected in the delayed tumor rejection and CD8+ cell accumulation during the primary anti-tumor response in comparison with normal mice. The secondary response, however, is identical in normal and MHC class I-deficient mice. The rejection of tumor cells appears to be MHC class I directed because no rejection of tumors, no accumulation of CD8+ CTLs, and no survival of animals were observed when syngeneic tumor cells were used for injection with the notable exception of anti-minor Ag response. The Ag specificity of CD8+ CTLs in beta 2-m-/- mice is demonstrated using a panel of tumor target cells and class I transfectants. Although no substantial differences were found in the number and specificity of peritoneal CD8+ CTLs in beta 2-m-/- and normal mice using tumor rejection studies, the analysis of TCR-V beta phenotype using the panel of mAbs revealed the reduction in proportion of TCR-V beta 5 and TCR-V beta 6 used by CD8+ cell population from beta 2-m-/- mice. Development of lytic and H-2-directed CD8+ cells in regional lymph nodes was also observed after footpad immunization of beta 2-m-/- mice with TNP-labeled C57BL/6 splenocytes, suggesting anti-minor Ag reaction.     

Allogeneic cell therapy for a murine mammary carcinoma

The effect of allogeneic cell therapy on tumor growth was studied in a murine model of mammary carcinoma (4T1) as an experimental model of solid tumors in humans. i.v. inoculation of 4T1 (H-2d) cells into syngeneic mice [BALB/c or (BALB/cXC57BL/6)F1] (F1) carrying the H-2d histocompatible antigens results in tumor colonies in the lungs that finally cause the death of all of the mice. Sublethally irradiated F1 mice were inoculated with 4T1 cells to simulate minimal residual disease and with immunocompetent splenocytes derived from naive donors of F1 (syngeneic), BALB/c (syngeneic to the tumor but semiallogeneic to the host), or C57BL/6 (allogeneic to the tumor and semiallogeneic to the host) mice. The survival of F1 tumor-bearing mice that were treated with allogeneic C57BL/6 splenocytes was significantly prolonged (P < 0.02) compared with hosts given F1 or BALB/c-derived splenocytes that are syngeneic to 4T1 tumor cells. Adoptive transfer of lung cells that were isolated from F1 primary mice inoculated with 4T1 cells and syngeneic BALB/c or F1 splenocytes led to local tumor growth and death in secondary recipients. In contrast, only 1 of 22 secondary recipients developed tumors when inoculated with lung cells derived from F1 mice given allogeneic C57BL/6 splenocytes. All of the 21 secondary hosts survived disease-free for a follow-up time of >200 days. These results indicate that immunocompetent cells allogeneic to the mammary carcinoma cells were able to inhibit tumor development in the primary hosts and to prevent tumor growth in the adoptive recipients, which suggests that allogeneic cell therapy may be an efficient antitumor tool to eradicate minimal residual disease in human solid tumors.     

Interstitial brachytherapy procedures for brain tumors

This report characterizes the immunological host response to a syngeneic murine mammary carcinoma along with variants genetically modified to express B7-1 or secrete GM-CSF and interleukin-12 (IL-12). MT-901 is a subline of a mammary adenocarcinoma that was chemically induced in the Balb/c host. It was found to be weakly immunogenic by immunization/ challenge experiments, and it induced tumor-specific T-cell responses in lymph nodes (LN) draining progressive subcutaneous tumors. Tumor clones expressing B7-1 or secreting GM-CSF exhibited reduced tumorigenicity without completely abrogating tumor growth, whereas IL-12 elaboration lead to complete tumor growth inhibition. In vivo subcutaneous inoculation of a transgenic cell clone secreting GM-CSF (240 ng/10(6) cells/24 hours) resulted in significantly enhanced T-cell reactivity of tumor-draining lymph node (TDLN) cells as compared to wild-type TDLN cells. This finding was obtained from observations assessed by several different methods, including: 1) in vitro cytotoxicity, 2) in vitro interferon-gamma release, and 3) adoptive transfer in mice with established tumor. Moreover, the transfer of activated LN cells derived from mice inoculated with GM-CSF-secreting tumor cells resulted in the prolonged survival of animals with macroscopic metastatic disease, which was not evident utilizing LN cells from mice inoculated with wild-type tumor. By contrast, clones that expressed B7-1 or IL-12 (4 ng/10(6) cells/24 hours) did not elicit enhanced tumor-reactive TDLN cells compared with wild-type tumor when assessed in the adoptive transfer model. The autocrine secretion of GM-CSF by transduced tumor cells was found to serve as an effective immune adjuvant in the host response to this weakly immunogenic tumor.     

Beta 2-microglobulin knockout mice are highly susceptible to polyoma virus tumorigenesis

Polyoma virus is highly oncogenic when inoculated into immunocompromised adult mice and neonatal mice of specific inbred strains. Although T lymphocytes are known to be essential in controlling polyoma virus tumorigenesis, the importance of class I MHC-restricted CD8+ T cells in mediating tumor resistance remains unclear. Here, we investigated the tumorigenicity of polyoma virus in adult mice rendered CD8+ T cell-deficient by homozygous (-/-) disruption of the beta 2-microglobulin (beta 2m) or CD8 alpha (CD8) genes. Nearly all (94%) of the virus-infected adult C57BL/6 beta 2m-/- mice developed tumors, and 20% of the virus-inoculated adult C57BL/6CD8-/- mice developed hindlimb paralysis, which is indicative of vertebral tumors. Only 2 of 20 virus-inoculated adult normal C57BL/6 mice developed tumors. Despite these different tumor susceptibilities, persistent viral DNA was detected in multiple organs of mice of all three strains. Multifocal lymphoplasmacytic interstitial infiltrates were present in the kidneys and lungs of virus-infected C57BL/6 beta 2m-/- and in the lungs of virus-inoculated C57BL/6CD8-/- mice. These infiltrates were composed primarily of B cells and colocalized with staining for the major viral capsid protein, VP1. No infiltrates or VP1 staining was detected in the kidneys of infected C57BL/6 mice. Using a highly sensitive RT-PCR bioluminescence immunoassay, we investigated and detected persistent polyoma T protein and VP1 messages in both C57BL/6 beta 2m-/- and C57BL/6 mice. C57BL/6 beta 2m-/- and C57BL/6 mice had equivalent serum virus-neutralizing antibody titers. These results provide in vivo evidence that class I MHC-restricted CD8+ T cells are involved in mediating protection against polyoma virus tumor development.     

Regulation of local host-mediated anti-tumor mechanisms by cytokines: direct and indirect effects on leukocyte recruitment and angiogenesis

The regulation of tumor growth by cytokine-induced alterations in host effector cell recruitment and activation is intimately associated with leukocyte adhesion and angiogenic modulation. In the present study, we have developed a novel tumor model to investigate this complex series of events in response to cytokine administration. Gelatin sponges containing recombinant human basic fibroblast growth factor (rhFGFb) and B16F10 melanoma cells were implanted onto the serosal surface of the left lateral hepatic lobe in syngeneic C57BL/6 mice. The tumor model was characterized by progressive tumor growth initially localized within the sponge and the subsequent development of peritoneal carcinomatosis. Microscopic examination of the sponge matrix revealed well developed tumor-associated vascular structures and areas of endothelial cell activation as evidenced by leukocyte margination. Treatment of mice 3 days after sponge implantation with a therapeutic regimen consisting of pulse recombinant human interleukin-2 (rhIL-2) combined with recombinant murine interleukin-12 (rmIL-12) resulted in a marked hepatic mononuclear infiltrate and inhibition of tumor growth. In contrast to the control group, sponges from mice treated with rhIL-2/rmIL-12 demonstrated an overall lack of cellularity and vascular structure. The regimen of rhIL-2 in combination with rmIL-12 was equally effective against gelatin sponge implants of rhFGFb/B16F10 melanoma in SCID mice treated with anti-asialo-GM1 in the absence of a mononuclear infiltration, suggesting that T, B, and/or NK cells were not the principal mediators of the anti-tumor response in this tumor model. The absence of vascularity within the sponge after treatment suggests that a potential mechanism of rhIL-2/rmIL-12 anti-tumor activity is the inhibition of neovascular growth associated with the establishment of tumor lesions. This potential mechanism could be dissociated from the known activities of these two cytokines to induce the recruitment and activation of host effector cells. Moreover, this model provides a unique opportunity to study the cellular and molecular mechanism(s) underlying both tumor angiogenesis and leukocyte recruitment to metastatic lesions.     

Eliciting T cell immunity against poorly immunogenic tumors by immunization with dendritic cell-tumor fusion vaccines

Dendritic cells (DCs) are the most effective APCs and are being studied as natural adjuvants or Ag delivery vehicles to elicit T cell-mediated antitumor immunity. This study examined whether inoculation of DCs fused with poorly immunogenic tumor cells elicited tumor-reactive T cells for adoptive immunotherapy. DCs derived from bone marrow of C57BL/6 (B6) mice were fused with syngeneic B16 melanoma or RMA-S lymphoma cells by polyethylene glycol. The B16/DC and RMA-S/DC fusion hybrids expressed MHC class I, class II Ags, costimulatory molecules, as well as DC-specific and tumor-derived surface markers. The tumor/DC hybrids were capable of processing and presenting tumor-derived Ags, and immunization of B6 mice with irradiated B16/DC or RMA-S/DC vaccine elicited tumor-specific CTL activities. Vaccination of B6 mice with irradiated B16/DC fusion preparations induced partial host protective immunity against B16 tumor challenge. Reduced tumor incidence and prolonged survival time were observed. Adoptive transfer of T cells derived from B16/DC vaccine-primed lymph nodes into B16 tumor-bearing mice greatly reduced the number of established pulmonary metastases with or without in vivo administration of IL-2. Moreover, adoptive transfer of RMA-S/DC vaccine-primed, cultured lymph node T cells eradicated disseminated FBL-3 tumor. The results demonstrate that tumor/DC fusion products are effective cellular vaccines for eliciting T cell-mediated antitumor immunity.     

Activation of human effector cells by a tumor reactive recombinant anti-ganglioside GD2 interleukin-2 fusion protein (ch14.18-IL2)

Cytotoxic effector cells interact with target cells through various mechanisms. CTLs use the antigen-specific T cell receptor, whereas Fc receptor-positive natural killer cells use this receptor to interact with antibody-coated target cells. We evaluated the tumor-binding and lymphocyte-activating capability of a recombinant fusion protein consisting of a tumor-selective human/mouse chimeric anti-ganglioside GD2 antibody (ch14.18) and recombinant human interleukin-2 (IL2) (ch14.18-IL2). This fusion protein bound specifically to GD2-positive melanoma and neuroblastoma tumor cell lines, and its IL2 component stimulated in vitro proliferation of an IL2-dependent cell line, as well as peripheral blood mononuclear cells, in healthy control individuals and in cancer patients receiving continuous infusion of IL2. The IL2 presented by the fusion protein, when bound to tumor cells, induced proliferation of IL2-responsive cells as well as a comparable amount of soluble IL2 did. This suggests that localization of IL2 at the site of contact between tumor and effector cells is an effective way of presenting this cytokine to IL2-responsive cells. The ch14.18-IL2 fusion protein also mediated antibody-dependent cellular cytotoxicity with Fc receptor-positive effector cells to an extent similar to ch14.18. These results, together with those of previous studies documenting antitumor efficacy against human tumor xenografts in SCID mice and GD2-positive murine tumors in immunocompetent syngeneic mice, suggest that the ch14.18-IL2 fusion protein should be tested in Phase I and II trials in patients with GD2-positive tumors.     

Model of implantation of tumor cells simulating recurrence in colonic anastomosis in mice

PURPOSE: Local recurrence after colorectal cancer surgery is usually perianastomotic. An experiment was designed to investigate whether free intraluminal cells can penetrate through a colonic anastomosis and thereby cause local recurrence. METHODS: BALB/c and C57/BL mice underwent ascending colotomy followed by watertight anastomosis. Thereafter, CT-26 murine colon carcinoma cells were injected into the cecal lumen 2 cm proximal to the anastomosis of syngeneic BALB/c mice, whereas B-16 murine melanoma cells were injected in the same fashion into C57/BL mice. Control animals without anastomosis received similar injections. Animals were killed 24 hours, 72 hours, and 30 days after surgery and were checked for tumorigenesis. RESULTS: Results of peritoneal fluid cytology were negative after 24 hours, whereas after 72 hours cancer cells were identified in the peritoneal fluid of 80 percent of mice with colotomy and anastomosis compared with 20 percent of control mice. Thirty days after surgery, 11.1 percent of the control BALB/c mice developed pericecal tumor growth, similar to the overall rate of murine melanoma in C57/BL. In mice with anastomoses, perianastomotic tumor growth was observed in 47.5 percent of BALB/c mice (P < 0.001) and was correlated with the number of injected cells. Tumor growth reached approximately 75 percent tumor take with high cell densities, whereas in C57/BL mice no difference was found between the experimental and control groups. CONCLUSIONS: The findings suggest that free intraluminal cancer cells of colonic origin may penetrate through watertight anastomoses and implant on the anastomotic or peritoneal surface and initiate tumor growth. This anastomotic penetration is cell-mass dependent. The reported experimental model is simple, reproducible, and advantageous for studies of colonic anastomosis.     

Differential coupling of alpha1-, alpha2-, and beta-adrenergic receptors to mitogen-activated protein kinase pathways and differentiation in transfected PC12 cells

Three adrenergic receptor families that selectively activate three different G proteins (alpha1/Gq/11, alpha2/Gi, and beta/Gs) were used to study mitogen-activated protein kinase (MAPK) activation and differentiation in PC12 cells. PC12 cells were stably transfected with alpha1A-, alpha2A-, or beta1-adrenergic receptors (ARs) in an inducible expression vector, and subclones were characterized. Norepinephrine stimulated inositol phosphate formation in alpha1A-transfected cells, inhibited cyclic adenosine 3'5'-monophosphate (cAMP) formation in alpha2A-transfected cells, and stimulated cAMP formation in beta1-transfected cells. Nerve growth factor activated extracellular signal-regulated kinases (ERKs) in all cell lines; however, norepinephrine activated ERKs only in alpha1A- and beta1-transfected cells but not in alpha2A-transfected cells. Norepinephrine also activated c-Jun NH2-terminal kinase and p38 MAPK in alpha1A-transfected cells but not in beta1- or alpha2A-transfected cells. Norepinephrine caused differentiation of PC12 cells expressing alpha1A-ARs but not those expressing beta1- or alpha2A-ARs. However, norepinephrine acted synergistically with nerve growth factor in promoting differentiation of cells expressing beta1-ARs. Whereas ERKs are activated by Gi- but not Gs-linked receptors in many fibroblastic cell lines, we observed the opposite in PC12 cells. The results show that activation of the different G protein signaling pathways has different effects on MAPKs and differentiation in PC12 cells, with Gq signaling pathways activating all three major MAPK pathways.     

Perforin and IFN-gamma are involved in the antitumor effects of antibody-targeted superantigens

The bacterial superantigen staphylococcal enterotoxin A (SEA) is a potent inducer of cytokine production and cytotoxic T cell responses. To target a T cell attack against tumor cells we have genetically engineered a fusion protein of SEA and the Fab part of the tumor-reactive mAb C215. Injection of this Fab-SEA fusion protein to mice carrying lung metastases of the poorly immunogenic B16 melanoma transfected with the C215 Ag resulted in infiltration of cytokine-producing T cells, perforin-containing CTL, and a marked tumor elimination. Fab-SEA therapy induced substantial levels of IFN-gamma and TNF-alpha in serum. In the present study we have characterized the molecular mechanisms of the antitumor effect induced by Fab-SEA treatment in vivo. Neutralization of cytokines by specific Abs demonstrated a major role for IFN-gamma in the suppression of tumor growth. In addition, a minor contribution of TNF-alpha was recorded. Injections of Fab-SEA into normal mice induced strong CTL activity but failed to promote cytotoxic function in perforin knockout mice. Also, a markedly reduced therapy was noted in perforin knockout mice, implicating a role for CTL in Fab-SEA-mediated tumor eradication. The data suggest that Fab-SEA-targeted T cells may suppress tumor growth by both perforin-dependent cytotoxicity and local release of cytokines such as IFN-gamma. The latter mechanism may have an important role in cytostatic effects against Ag-negative bystander tumor cells.     

The glutamate dehydrogenase, E74 and putative actin gene loci in the Drosophila montium subgroup. Chromosomal homologies among the montium species and D. melanogaster

Myasthenia gravis (MG) is a T-cell-regulated autoimmune disease in which a pathological autoantibody response is mounted against the nicotinic acetylcholine receptor of the neuromuscular junction. Our laboratory previously identified a T cell epitope, p195-212, derived from the human acetylcholine receptor alpha subunit, which triggered PBL to proliferate from about 70% of MG patients tested. p195-212 was also found to be an immunodominant T cell epitope in SJL mice and a cryptic epitope in C3H.SW mice. Inoculation of naive SJL mice with cells from a p195-212-specific syngeneic T cell line caused MG-related autoimmune manifestations in those mice. In these studies we analyzed TCR alpha and beta chain sequences used by T cell lines and clones from both high- and low-responder mouse strains in response to p195-212. T cell lines generated from either strain expressed single TCR V beta gene segments (V beta 17 in SJL mice and V beta 8 in C3H.SW mice). By deleting V beta 17-expressing T cells in p195-212-immunized SJL mice we established a T cell line that expressed the V beta 6 gene product, suggesting that SJL mice are not limited to using a single V beta gene segment in response to p195-212. In addition, we found that N- and/or C-terminal-truncated peptides of p195-212, presented under the same culture conditions to different clones bearing the same TCR alpha beta chain, could elicit very different proliferative responses from the clones. Thus, even within a constrained system, factors other than TCR sequence contribute to the differential stimulation of T cell responses.     

Specific cytotoxicity in vitro of lymphocytes sensitized in culture against tumor cells

The production of tumor-specific cell-mediated cytotoxicity following in vitro sensitization of C57BL spleen cells against a syngeneic 3LL Lewis lung carcinoma was studied. Lymphocytes were sensitized on monolayers of the tumor cells for 4-5 days. The cytotoxicity was assayed by measuring the reduction in 3H-leucine and 3H-thymidine incorporation by target cells after interaction with the sensitized lymphocytes. Spleen lymphocytes sensitized on monolayers of 3LL tumor cells caused a high extent of lysis; such cells tested on C57BL or C3H fibroblast targets evoked only a low level of cytotoxicity. C57BL spleen cells sensitized on C57BL fibroblasts caused a low level of cytotoxicity when tested on a 3LL target. Thus cytotoxicity appeared to be tumor specific. The reduced incorporation into protein and DNA of target tumor cells caused by the sensitized lymphocytes was a measure of cell injury, which was more sensitive than direct cell count or uptake of 51CR. Lymphocytes from syngeneic tumor-bearing mice, tested 13-25 days after tumor inoculation, did not manifest in vitro cytotoxicity. On the contrary, such lymphocytes sometimes appeared to have a promoting effect on the tumor cells.     

In vitro suppression of macrophage spreading caused by supernatants of tumour, thymus, and lymph node cells

Peritoneal macrophages washed out from C3Hf/Bu mice were cultivated in medium 199 supplemented with 35% foetal calf serum. If the pH of the medium was adjusted to 7.2, there were 70% spread macrophages after six hours of incubation at 37 degrees C. We investigated the effect of tumour cells on macrophage spreading. Supernatants from cell cultures of a fibro-sarcoma of C57BL mice and lymphoma of C3Hf/Bu mice were used to determine the number of spread macrophages after 6 hours of culture in these supernatants. Supernatants from cell cultures of the kidney, thymus and lymph nodes of normal C57BL or C3Hf/Bu mice and peritoneal cells of normal C3Hf/Bu mice in medium 199 alone served as control. We observed that supernatants from both allogeneic and syngeneic tumour cell cultures reduced significantly the percentage of spread macrophages in comparison with the percentage of spread macrophages found in the kidney culture supernatants. However, a similar spreading inhibition was caused also by supernatants from the thymus and lymph node cell cultures. In these experiments we confirmed the earlier observations that tumour cells can suppress the activation of macrophages, and we also pointed to the possibility that this effect is not specific only for malignant tissues.     

Gene therapy with a single chain interleukin 12 fusion protein induces T cell-dependent protective immunity in a syngeneic model of murine neuroblastoma

A major goal of tumor immunotherapy is the effective eradication of established metastases associated with the induction of a T cell-mediated protective immunity. We achieved this in a poorly immunogenic murine neuroblastoma model by gene therapy with a single chain interleukin 12 (scIL-12) fusion protein that assures equal expression of its p35 and p40 subunits. Thus, NXS2 hybrid neuroblastoma cells (C1300 x dorsal root ganglion cells), which form experimental bone marrow and liver metastases in syngeneic A/J mice, were transduced with a gene encoding murine interleukin 12, monomerized by introduction of a protein linker between the p35 and p40 protein chains of this heterodimeric cytokine. We demonstrate for the first time that subcutaneous vaccination with these transduced cells induces a protective immunity, as indicated by the complete absence of liver and bone marrow metastasis after challenge with NXS2 wild-type tumor cells. Furthermore, vaccination of animals with established liver and bone marrow metastases completely eradicated liver metastases and suppressed bone marrow metastases. The local and systemic immune response against scIL-12-transduced NXS2 cells is largely dependent on CD8(+) T cells. This was demonstrated in vivo by depletion of immunocompetent A/J mice with monoclonal anti-CD4 and anti-CD8 antibodies and in vitro by specific major histocompatibility complex, class I-restricted CD8(+) T cell-mediated killing of NXS2 and their parental C1300 neuroblastoma cells. In conclusion, we demonstrate successful anti-tumor immunotherapy with an scIL-12 fusion protein that could facilitate clinical application of interleukin 12 gene therapy.     

Reconstitution of beta2-adrenoceptor-GTP-binding-protein interaction in Sf9 cells--high coupling efficiency in a beta2-adrenoceptor-G(s alpha) fusion protein

In most studies, coupling of the beta2-adrenoceptor (beta2AR) to the stimulatory, heterotrimeric GTP-binding protein of adenylyl cyclase the (Gs) is studied indirectly by measuring adenylyl cyclase activation. The aim of this study was to establish a model system in which beta2AR-Gs interactions can be studied directly at the level of the G-protein. We expressed the beta2AR alone, in combination with the alpha-subunit of Gs (G(s alpha)), and as fusion protein with G(s alpha) (beta2AR-G(s alpha)) in Sf9 insect cells. The beta2AR expressed alone couples poorly to the endogenous G(s alpha)-like G-protein of Sf9 cells since no high-affinity agonist binding could be detected, and the effects of agonist and inverse agonist on adenylyl cyclase, high-affinity GTPase and guanosine 5'-O-(3-thiotriphosphate) (GTP[S]) binding were small. Beta2AR-G(s alpha) reconstituted high-affinity agonist binding and regulated adenylyl cyclase more effectively than the beta2AR co-expressed with a large excess of G(s alpha). In membranes expressing beta2AR-G(s alpha), highly effective agonist- and inverse agonist regulation of high-affinity GTP hydrolysis and GTP[S] binding was observed. In contrast, agonist and inverse agonist regulation of GTP hydrolysis and GTP[S] binding in membranes expressing beta2AR and G(s alpha) as separate proteins was difficult to detect. Our data show that the beta2AR interacts with G(s alpha) more efficiently when expressed as a fusion protein than when expressed with an excess of non-fused G(s alpha). The beta2AR-G(s alpha) fusion protein provides a very sensitive model system to study the regulation of Gs function by beta2AR agonists and inverse agonists directly at the level of the G-protein.     

Effect of intracerebral administration of Corynebacterium parvum on the growth of brain tumors in mice

The effect of intracerebral administration of Corynebacterium parvum (C. parvum) on the growth of syngeneic brain tumors in C57BL/6 mice and the mechanism of its action were investigated. Mice were inoculated with 10(4) malignant glioma cells intracerebrally, and treated with various doses of C parvum on day 6 after tumor inoculation. The growth of tumors was significantly inhibited in proportion ot the dose of C. parvum. The cytotoxic activity of effector cells was enhanced when C. parvum was administered at the site of tumor inoculation. Significant cytotoxic activity was observed in the adherent cell fraction of brain mononuclear cells, while less cytotoxic activity was observed in the nonadherent cell fraction. These results indicate that activated intracranial macrophages may participate in the tumoricidal effect of intracerebral C. parvum administration.     

Angiostatin-mediated suppression of cancer metastases by primary neoplasms engineered to produce granulocyte/macrophage colony-stimulating factor

We determined whether tumor cells consistently generating granulocyte/macrophage colony- stimulating factor (GM-CSF) can recruit and activate macrophages to generate angiostatin and, hence, inhibit the growth of distant metastasis. Two murine melanoma lines, B16-F10 (syngeneic to C57BL/6 mice) and K-1735 (syngeneic to C3H/HeN mice), were engineered to produce GM-CSF. High GM-CSF (>1 ng/10(6) cells)- and low GM-CSF (<10 pg/10(6) cells)-producing clones were identified. Parental, low, and high GM-CSF-producing cells were injected subcutaneously into syngeneic and into nude mice. Parental and low-producing cells produced rapidly growing tumors, whereas the high-producing cells produced slow-growing tumors. Macrophage density inversely correlated with tumorigenicity and directly correlated with steady state levels of macrophage metalloelastase (MME) mRNA. B16 and K-1735 subcutaneous (s.c.) tumors producing high levels of GM-CSF significantly suppressed lung metastasis of 3LL, UV-2237 fibrosarcoma, K-1735 M2, and B16-F10 cells, but parental or low-producing tumors did not. The level of angiostatin in the serum directly correlated with the production of GM-CSF by the s.c. tumors. Macrophages incubated with medium conditioned by GM-CSF- producing B16 or K-1735 cells had higher MME activity and generated fourfold more angiostatin than control counterparts. These data provide direct evidence that GM-CSF released from a primary tumor can upregulate angiostatin production and suppress growth of metastases.