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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Superantigens are extremely potent activators of T lymphocytes. To develop a tumor-reactive superantigen for cancer therapy, we made a recombinant fusion protein of the superantigen staphylococcal enterotoxin A (SEA) and the Fab region of the C242 monoclonal antibody (C242Fab-SEA), which recognize human colon carcinoma cells. The therapeutic effect of C242Fab-SEA on colon-cancer growth was examined in lymphocyte-engrafted humanized SCID mice bearing intraperitoneally growing Colo205 colon carcinomas. i.v. injections of C242Fab-SEA significantly inhibited tumor growth. The anti-tumor effect required the presence of human T cells in the SCID mice. Optimal therapeutic effects were seen with C242Fab-SEA, but not with C242Fab fragment or SEA alone, demonstrating that both entities of the fusion protein were required. C242Fab-SEA-treated tumors showed a massive infiltration of T cells in the tumor parenchyme, and was accompanied by enhanced expression of ICAM-I and HLA-DR on the tumor cells. The results demonstrate that Fab-SEA fusion proteins convey superantigenicity on tumor cells which evoke T-cell-dependent suppression of tumor growth.
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PMID:Tumor-reactive superantigens suppress tumor growth in humanized SCID mice. 763 73

Photofrin (25 mg/kg) was administered to the FsaR fibrosarcoma-bearing mice (either syngeneic or severe combined immunodeficient [SCID]) and the tumors were excised 24 h later. The photosensitizer content in the cells dissociated from tumor tissue was analyzed using flow cytometry. Staining the cell suspensions with the monoclonal antibodies against specific membrane markers served to identify the malignant cells and various types of host immune cells infiltrating the tumor. Photofrin content was also examined in the cells from normal tissues of the tumor-bearing mice (spleen, heart muscle, peritoneal macrophages). The results show a marked heterogeneity in the Photofrin cellular content of FsaR tumor, particularly within the population of tumor-associated macrophages (TAM). The Photofrin levels in some TAM were lower or similar to those in the malignant cells. In contrast, a subpopulation of TAM accumulated very high levels of the photosensitizer, which exceeded by far the levels found in the other tumor cell populations. This TAM fraction was characterized by particularly high expression of interleukin-2 receptors and increased cell size and granularity when compared to the other TAM, which suggests that these macrophages are in the activated state. Their average Photofrin content was almost 13 times higher than in the malignant cells. The lowest photosensitizer levels in the tumor were found in tumor-infiltrating leukocytes other than TAM. In FsaR tumors growing in SCID mice, the pattern of Photofrin distribution in TAM and other cellular populations was similar to that found in tumors growing in syngeneic mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Photofrin accumulation in malignant and host cell populations of a murine fibrosarcoma. 763 61

Several studies have established a link between blood coagulation and cancer, and more specifically between tissue factor (TF), a transmembrane protein involved in initiating blood coagulation, and tumor metastasis. In the study reported here, a murine model of human melanoma metastasis was used for two experiments. (i) The first experiment was designed to test the effect of varying the level of TF expression in human melanoma cells on their metastatic potential. Two matched sets of cloned human melanoma lines, one expressing a high level and the other a low level of the normal human TF molecule, were generated by retroviral-mediated transfections of a nonmetastatic parental line. The metastatic potential of the two sets of transfected lines was compared by injecting the tumor cells into the tail vein of severe combined immunodeficiency (SCID) mice and later examining the lungs and other tissues for tumor development. Metastatic tumors were detected in 86% of the mice injected with the high-TF lines and in 5% of the mice injected with the low-TF lines, indicating that a high TF level promotes metastasis of human melanoma in the SCID mouse model. This TF effect on metastasis occurs with i.v.-injected melanoma cells but does not occur with primary tumors formed from s.c.-injected melanoma cells, suggesting that TF acts at a late stage of metastasis, after tumor cells have escaped from the primary site and entered the blood. (ii) The second experiment was designed to analyze the mechanism by which TF promotes melanoma metastasis. The procedure involved testing the effect on metastasis of mutations in either the extracellular or cytoplasmic domains of the transmembrane TF molecule. The extracellular mutations introduced two amino acid substitutions that inhibited initiation by TF of the blood-coagulation cascade; the cytoplasmic mutation deleted most of the cytoplasmic domain without impairing the coagulation function of TF. Several human melanoma lines expressing high levels of either of the two mutant TF molecules were generated by retroviral-mediated transfection of the corresponding TF cDNA into the nonmetastatic parental melanoma line, and the metastatic potential of each transfected line was tested in the SCID mouse model. Metastases occurred in most mice injected with the melanoma lines expressing the extracellular TF mutant but were not detected in most mice injected with the melanoma lines expressing the cytoplasmic TF mutant. Results with the extracellular TF mutant indicate that the metastatic effect of TF in the SCID mouse model does not involve products of the coagulation cascade. Results with the cytoplasmic TF mutant indicate that the cytoplasmic domain of TF is important for the metastatic effect, suggesting that the TF could transduce a melanoma cell signal that promotes metastasis.
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PMID:Tissue factor promotes melanoma metastasis by a pathway independent of blood coagulation. 766 69

B-78-H1 melanoma cells were stably transfected with cDNAs encoding human IL-6, human LIF, murine sIL-6R and murine sLIFR. The mock transfected and transfected cells demonstrated no detectable H-2Kb molecules. B-78 transfected cells were subcutaneously (s.c.) and intravenously (i.v.) injected to B57BL/6 x C3H mice. Control B-78 cells formed tumors and lung metastases in injected animals. Cells transfected with IL-6, LIF and sIL-6R showed greatly reduced tumor and metastases formation. Transfection of IL-6, sIL-6R or LIF had similar protective effects while the combination of IL-6 and sIL-6R was most effective. In contrast, cells transfected with sLIFR showed reduced metastasis formation but increased tumor growth compared to mock transfected cells. Kinetic analysis demonstrated a 3 weeks lag period between the formation of tumors by B-78 cells and the combination of B-78 cells transfected with IL-6 and sIL-6R. No such lag phase was seen when B-78-IL-6 or B-78-sIL-6R cells were injected alone. Mice primarily injected s.c. with a mixture of IL-6 and sIL-6R transfected cells and rechallenged after 2 weeks with parental B-78 cells demonstrated long-lasting antitumor immunity. IL-6 and sIL-6 transfected cells used alone for immunization had only limited effect. Injection of transfected cells into SCID mice which are characterized by greatly reduced number of T and B cells, showed a protective effect of sIL-6R on metastasis formation by B-78 cells. beta 2m knockout mice lacking CD8+ T cells, injected with B-78 cells developed tumors and died after 2 weeks. However, B-78 cells transfected with IL-6 developed tumors in only 50% of animals. Mice without tumors rechallenged with B-78 cells demonstrated required immunity against parental melanoma cells. The results obtained indicate that studied IL-6-type cytokines and their respective soluble receptors affect murine melanoma growth and metastasis formation. The major finding of these studies is that IL-6 complexed with sIL-6R demonstrated qualitatively different biological activity than IL-6 alone especially in stimulating long lasting anti-melanoma immunity. The proposed mechanism of action of such complexes beside activation of cytotoxic T lymphocytes is activation of NK cells.
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PMID:Interleukin-6-type cytokines and their receptors for gene therapy of melanoma. 766 37

Anti-CD19 monoclonal antibody anti-B4 (IgG1) conjugated to the novel toxin-blocked ricin forms a potent immunotoxin, anti-B4-blocked ricin, that kills greater than 4.5 logs of CD19-positive cells in vitro after a 24-h exposure to a conjugate concentration of 5 x 10(-9) M (1.11 micrograms/ml). The efficacy of anti-B4-blocked ricin in vivo was assessed in survival models of SCID mice bearing either a human B-cell lymphoma (Namalwa), a human non-T and non-B acute lymphoblastic leukemia (Nalm-6), or a murine B-cell lymphoma transfected with the human CD19 gene (300B4). In one model, 5 x 10(7) tumor cells were injected i.p., and 1 h later the mice were treated with i.v. bolus injections of anti-B4-blocked ricin at 100 micrograms/kg/day for 5 days. Controls included similar treatment with anti-B4 antibody (72 micrograms/kg/day or 2 mg/kg/day for 5 days) alone or with the isotype-matched nonspecific immunotoxin, N901-blocked ricin (100 micrograms/kg/day). In a second model, 4 x 10(6) tumor cells were injected i.v., and 7 days later mice were treated i.v. as above. Anti-B4-blocked ricin showed efficacy by killing in vivo up to 3 logs of tumor cells, which was manifested in significant prolongation of the life of the treated animals. Only very limited or no effects were observed in animals treated with either anti-B4 antibody alone or N901-blocked ricin control conjugate. The concentration of anti-B4-blocked ricin in the blood of animals was 150 ng/ml after the first i.v. injection and about 800 ng/ml following the fifth injection of conjugate. This increase may be due to damage to the reticuloendothelial system by anti-B4-blocked ricin, since the rate of clearance of carbon from blood also decreased 5-fold after five injections as compared to the rate after only one injection. These studies indicate that anti-B4-blocked ricin has the potential to increase survival times of hosts with malignant disease.
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PMID:Anti-B4-blocked ricin immunotoxin shows therapeutic efficacy in four different SCID mouse tumor models. 768 Feb 84

Tumor cells transduced with cytokine genes provide a model to study host-effector mechanisms involved in tumor rejection. Local IL-2 production within a tumor site mimics a specific helper-T-cell response, bypassing an immunization phase. Growth of mouse B16F10 melanomas transduced with interleukin-2 (IL-2) in syngeneic hosts were significantly delayed. IL-2-producing B16F10 cells were super-transduced with interferon-gamma to up-regulate expression of major-histocompatibility-complex (MHC) antigens. Expression of class-I- or class-II-MHC molecules did not augment tumor rejection of IL-2-secreting tumor cells. Rejection of IL-2-transduced B16F10 cells in syngeneic mice was unaffected by depletion of CD8+ T-cell and NK1.1+ natural-killer (NK) cell populations. Tumor rejection occurred in SCID mice even after depletion of NK1.1+ cells, confirming that T cells and NK cells were not required for tumor rejection. Histologic examination of sites of tumor rejection showed inflammation, characterized by infiltrates of macrophages, occasional neutrophils, and areas of necrosis. When mice were treated systemically with macrophage-colony-stimulating factor to expand monocyte pools, tumor rejection was significantly augmented further. This study shows that in situ IL-2 production can result in tumor rejection mediated by inflammatory events, possibly involving macrophages, and mimicking a delayed-type hypersensitivity (DTH) response even in the absence of T cells and NK cells. Furthermore, tumor rejection can be enhanced by systemic administration of a cytokine to expand potential inflammatory cell populations.
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PMID:Rejection of mouse melanoma elicited by local secretion of interleukin-2: implicating macrophages without T cells or natural killer cells in tumor rejection. 770 56

To develop a novel adjunctive therapy for CD30 (Ki-1)+ anaplastic large-cell lymphoma (ALCL), we investigated in preclinical studies the antitumor activity of an immunotoxin (IT) constructed by coupling the plant ribosome-inactivating protein saporin (SO6) to the monoclonal antibody (MoAb) Ber-H2 that is directed against the CD30 molecule, a new member of the tumor necrosis factor receptor (TNFR) super-family. The activity of Ber-H2/SO6 IT was tested both in vitro against the CD30+ ALCL-derived cell line JB6 and in vivo using our severe combined immunodeficiency disease (SCID) mouse model of human xenografted CD30+ ALCL. In vitro, the Ber-H2/SO6 IT was selectively and highly toxic to the JB6 cell line [50% inhibiting concentration (IC50), 3.23 x 10(-12) mol/L as SO6]. In vivo, a 3-day treatment with nontoxic doses of Ber-H2/SO6 (50% of LD50) induced lasting complete remissions (CR) in 80% of mice when started 24 hours after tumor transplantation. In contrast, injection of the IT at later stages of tumor growth (mice bearing subcutaneous tumors of 40- to 60-mm3 volume), induced CR in only 6 of 21 (approximately 30%) mice and significantly delayed tumor growth rate (P < .01). This finding suggests that maximum effect of the anti-CD30 IT is observed when tumor cell burden is small. Persistent tumors from IT-treated mice consisted of CD30+ cells, thus excluding the possibility that selection of CD30-negative mutant clones during IT therapy was responsible for resistance to treatment. We conclude that Ber-H2/SO6 IT is an effective agent against CD30+ ALCL growing in SCID mice, suggesting its possible role as adjuvant therapy in patients with CD30+ ALCL refractory to standard treatments.
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PMID:Antitumor activity of anti-CD30 immunotoxin (Ber-H2/saporin) in vitro and in severe combined immunodeficiency disease mice xenografted with human CD30+ anaplastic large-cell lymphoma. 771 85

This study addresses the role of MHC class I molecules in the rejection of tumor grafts by SCID mice. Tumor cell lines, their corresponding MHC class I transfectants, and MHC class I-deficient mutants were inoculated to SCID mice. This allowed a study of tumor rejection responses in an environment with normal numbers of natural killer cells but largely devoid of functional T and B cells. C.B-17 (H-2d) SCID mice were found to reject low (10(2)) but not high (10(4)) doses of allogeneic (H-2b) tumor cells. The introduction of H-2Dd into such allogeneic tumor cells abrogated the rejection response with progressive tumor growth as a consequence. Introduction of H-2Kd or Ld had no or only marginal effects. The protective ability of H-2Dd was mapped to the alpha 1/alpha 2 domains of the molecule. H-2Dd protected allogeneic tumors from rejection also in C3H SCID mice of the H-2k haplotype, demonstrating that this ability was not dependent on H-2Dd expression in the host. Expression of endogenous H-2Kb and/or Db molecules partially protected wild-type allogeneic tumor cells from rejection since mutant allogeneic cells, devoid of class I expression, were rejected even after high-dose inoculation. Introduction of either allogeneic or xenogeneic class I molecules did not lead to rejection of otherwise MHC class I syngeneic (H-2d) tumor cells. The observed tumor cell rejection in SCID mice was dependent on natural killer cells. After depletion of asialo-GM1+ cells, all inoculated tumor cell lines grew progressively, independently of MHC class I expression. These results are compatible with a model where expression of certain, but not all, class I molecules protect from natural killer cell-mediated rejection. There was no evidence for rejection occurring as a consequence of the expression of allogeneic or xenogeneic class I molecules on the grafted cells. MHC class I expression may thus influence tumor cell recognition in mice lacking T-cell receptor expression.
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PMID:Rejection of tumors in mice with severe combined immunodeficiency syndrome determined by the major histocompatibility complex. Class I expression on the graft. 772 58

Impaired transport of methotrexate (MTX) is a common resistance mechanism of tumor cells to this drug. Trimetrexate (TMTX), a second-generation folate antagonist, is still active against MTX-transport-resistant cells because it enters cells by passive diffusion and does not use the reduced folate transport system for cell entry. Therefore, although leucovorin (LV) protects MTX-sensitive cells from TMTX toxicity, MTX-transport defective cells are poorly rescued by LV. Severe combined immunodeficiency mice bearing MTX-transport-resistant CCRF-CEM acute lymphoblastic leukemia tumors were treated with TMTX alone or with the combination of TMTX and LV, with tumor regressions in both groups (P < .001) and without significant toxicity. These results indicate that TMTX with LV protection may be a useful therapeutic regimen for patients with MTX-transport-defective acute lymphoblastic leukemia. Furthermore, resistance to TMTX plus LV may result in reversion to MTX sensitivity.
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PMID:Selective treatment of SCID mice bearing methotrexate-transport-resistant human acute lymphoblastic leukemia tumors with trimetrexate and leucovorin protection. 774 25

Because of the severe toxicity of systemically applied tumor necrosis factor (TNF) in cancer patients, considerable efforts have been made to construct mutant TNF molecules, which retain antitumor activity, but display less toxicity. We compared tumor suppression in relation to the toxic effects of human TNF and human lymphotoxin (LT) in mice. The genes for these two cytokines were expressed in Chinese hamster ovary (CHO) cells. Intraperitoneal injection of parental and gene modified CHO cell lines producing similar amounts of biologically active TNF or LT, respectively, into nude mice showed that CHO-TNF cells killed the mice more rapidly than parental cells, but that CHO-LT tumor bearing mice lived significantly longer than mice injected with parental cells. Injection of the cells subcutaneously into severe combined immunodeficiency (SCID) mice allowed direct comparison of tumor suppression and toxic effects of the two cytokines. Both TNF and LT produced by the tumor effectively suppressed tumor growth by an indirect mechanism, LT being at least as effective as TNF. However, mice bearing CHO-TNF cells either died rapidly or developed cachexia, as shown by weight loss. In contrast, mice injected with CHO-LT cells never rapidly died and became cachectic much later than CHO-TNF cell injected animals, though serum levels of LT were higher than those of TNF. Analysis of soluble forms of TNF receptors (TNF-R1 and TNF-R2) in sera of tumor bearing mice showed that soluble TNF-R1 was downregulated in both CHO-TNF and CHO-LT, in comparison with CHO-neo cell injected mice and to normal SCID mice. The soluble form of TNF-R2 was induced by CHO cell lines. In CHO-TNF cell injected SCID mice, serum levels were significantly increased, whereas in mice injected with CHO-LT cells, serum levels of soluble TNF-R2 were decreased. Together, our results show a higher therapeutic index of LT compared with TNF.
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PMID:Human lymphotoxin has at least equal antitumor activity in comparison to human tumor necrosis factor but is less toxic in mice. 774 38


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