Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q86TM3 (cage)
 29,987 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have recently provided evidence that there is a natural immunization against human cancer-associated MUC-1 mucin epitopes during pregnancy by studying MUC-1 Ag-specific T cell lines established from multiparous women. Using this experimental model system, we now report that MUC-1 peptide-specific MHC class I-restricted CTLs can be generated in vitro using T cells from multiparous women stimulated with synthetic MUC-1 peptide-loaded, autologous APCs. The complexity of cytokines produced in response to the MUC-1 peptide by anti-MUC-1 T-cells was examined. IFN-gamma was generated by MUC-1-specific T cell lines in long term cultures, whereas in short term cultures, both IFN-gamma and IL-4 were produced. The presence of MUC-1-reactive T cells in multiparous women is consistent with their potential role in immune surveillance and provides a rationale for the use of certain synthetic MUC-1 peptides for active specific immunotherapy of human carcinomas.
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PMID:In vitro induction of MUC-1 peptide-specific type 1 T lymphocyte and cytotoxic T lymphocyte responses from healthy multiparous donors. 875 31

A recombinant humanized antibody-interleukin 2 fusion protein (huKS1/4-IL-2) was used to direct IL-2 to the tumor microenvironment and elicit a T cell-mediated eradication of established pulmonary and hepatic CT26-KSA colon carcinoma metastases in syngeneic BALB/c mice. This antitumor effect was specific because a fusion protein, which was nonreactive with these tumor cells, failed to exert any such effect. The efficacy of the huKS1/4-IL-2 fusion protein in eliminating metastases was documented because mixtures of monoclonal antibody huKS1/4 with recombinant human IL-2 were ineffective and, at best, only partially reduced tumor load. Two lines of evidence indicated the eradication of metastases and the absence of minimal residual disease in animals treated with the fusion protein: first, the lack of detection of CT26-KSA cells by reverse transcription-PCR, which can detect one tumor cell in 10(6) liver cells; and second, the tripling of life span. The effector mechanism involved in this tumor eradication is dependent on T cells because the IL-2-directed therapy is ineffective in T cell-deficient SCID mice. The essential effector cells were further characterized as CD8+ T cells by in vivo depletion studies. Such T cells, isolated from tumor-bearing mice after fusion protein therapy, elicited MHC class I-restricted cytotoxicity in vitro against colon carcinoma target cells. Taken together, these data indicate that fusion protein-directed IL-2 therapy induces a T cell-dependent host immune response capable of eradicating established colon cancer metastases in an animal tumor model.
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PMID:Elimination of established murine colon carcinoma metastases by antibody-interleukin 2 fusion protein therapy. 935 62

Immune stimulating complexes (iscoms) are 30-40 nm cage-like structures, which consist of glycoside molecules of the adjuvant Quil A, cholesterol and phospholipids in which antigen can be integrated. Even in the presence of pre-existing antibodies they may function as a potent adjuvant system by inducing high systemic and local long-lasting antibody and T cell responses. An additional advantage is their capacity to induce MHC class I restricted CD8+ CTL responses. This combination will in most cases, when the relevant antigens are incorporated, lead to adequate protection against virus infection or disease. An overview is given of the present data available on the use of iscoms in viral systems, and some relevant examples are discussed to highlight general principles in the use of iscoms as an adjuvant system.
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PMID:Induction of virus-specific immunity by iscoms. 955 59

Intratumoral inoculation of replication-competent, attenuated herpes simplex virus (HSV) mutants inhibits tumor growth by direct cytotoxic viral replication and induction of a tumor-specific immune response. To boost the antitumor response, we describe a defective HSV vector encoding IL-12 as an adjuvant to in situ vaccination by the replication-competent HSV helper virus. The defective HSV vector system consists of defective particles containing tandem repeats of the cytokine genes (p40 and p35) in combination with a HSV helper virus. Heterodimeric IL-12 was expressed and secreted after IL-12 defective vector infection of tumor cells. In a syngeneic, bilateral established tumor model with CT26 murine colon carcinoma, unilateral intratumoral inoculation with an IL-12 defective/replication-competent HSV vector combination significantly reduced tumor growth of the inoculated and noninoculated contralateral tumors. This antitumor effect was significantly greater than with a lacZ-defective/replication-competent HSV vector combination, which itself was significantly greater than the mock inoculation. Efficacy is associated with enhancement of tumor-specific CTL activity, including specificity against the CT26 immunodominant MHC class I restricted Ag AH1, and IFN-gamma production. There was no significant tumor growth inhibition after intratumoral inoculation of s.c. CT26 tumors in athymic mice. We conclude that this defective HSV vector system is an effective method for cytokine gene delivery to tumors in situ and IL-12 expression in tumors synergizes the antitumor activity mediated by the replication-competent HSV helper virus.
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PMID:In situ cancer vaccination: an IL-12 defective vector/replication-competent herpes simplex virus combination induces local and systemic antitumor activity. 957 51

The characterization of tumor-associated antigens recognized by cellular or humoral effectors of the immune system has opened new perspectives for cancer therapy. Several categories of cancer-associated antigens have been described as targets for cytotoxic T lymphocytes (CTLs) in vitro and in vivo: "cancer-testis" (CT) antigens expressed in different tumors and normal testis, melanocyte differentiation antigens, point mutations of normal genes, antigens that are overexpressed in malignant tissues, and viral antigens. Clinical studies using peptides derived from these antigens have been initiated to induce specific CTL responses in vivo. Immunological and clinical parameters for the assessment of peptide-specific reactions have been defined, i.e., induction of delayed-type hypersensitivity (DTH), CTL, autoimmune, and tumor regression responses. Preliminary results demonstrate that tumor-associated peptides alone elicit specific DTH and CTL responses leading to tumor regression after intradermal injection. GM-CSF was proved to be effective in enhancing peptide-specific immune reactions by amplification of dermal peptide-presenting dendritic cells. Long-lasting complete tumor regressions have been observed after induction of CTLs by peptide immunization. However, in a few cases where there was disease progression after initial tumor response, loss of either the tumor antigen targeted by CTLs or of the presenting MHC class I molecule was detected as the mechanism of immune escape under immunization in vivo. Based on these observations, cytokines to enhance antigen and MHC class I expression in vivo are being evaluated to prevent immunoselection. Recently, a strategy utilizing spontaneous antibody responses to tumor-associated antigens (SEREX) has led to the identification of a new CT antigen, NY-ESO-1. In a melanoma patient with high titer antibody against NY-ESO-1, strong HLA-A2-restricted CTL reactivity against the same antigen was also found. Clinical studies involving tumor antigens that induce both antibody and CTL responses will show whether these are better candidates for immunotherapy of cancer.
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PMID:Strategies for the development of vaccines to treat breast cancer. 992 50

We have utilized a nonviral, polymeric interactive non-condensing (PINC) gene delivery system to deliver IL-12 to two different types of murine tumors, an immunogenic renal cell carcinoma, Renca, and a non-immunogenic colon cell carcinoma, CT26. The delivery of IL-12/polyvinyl pyrrolidone (PVP) complexes into Renca led to the expression of IL-12 (146 +/- 89 pg/mg) and IFN-gamma (160 +/- 82 pg/mg) from explanted tumors in culture supernatants. Treated tumors showed increased infiltration of NK, CD4+ and CD8+ T cells and up-regulation of MHC class I molecules on leukocytes in both tumors and lymph nodes. Fifty per cent of tumor-bearing mice rejected Renca or CT26 tumors following IL-12/PVP treatments given at optimal doses of 24 and 48 micrograms, respectively. While polymorphonuclear cells (PMNs) were partially involved in the development of the antitumor immune response elicited by IL-12/PVP treatment, CD8+ T cells were found to be the primary effectors. In contrast, CD4+ T cells did not appear to play a significant role in the development of tumor specific immunity. Finally, mice that rejected the tumors following IL-12/PVP treatment were protected against a second challenge with the same tumor. These data provide evidence that a nonviral IL-12 gene delivery system is well tolerated and generates a potent immune response against established tumors.
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PMID:Intratumoral delivery of IL-12 gene by polyvinyl polymeric vector system to murine renal and colon carcinoma results in potent antitumor immunity. 1050 8

In this study, we tested whether expressing an allogeneic MHC class I gene and/or a cytokine gene in tumor cells could induce anti-tumor immunity. We compared the potential therapeutic benefit of introducing IL-12 or H-2Kb alone and in combination into CT26 tumor cells. Whereas IL-12 expression in CT26 cells delayed the formation of tumors, the expression of class I molecules alone was apparently insufficient to reduce tumorigenicity. The combined expression of IL-12 and H-2Kb, however, more efficiently reduced tumor growth than did either genes alone. Histological examination of tumors expressing IL-12 and H-2Kb showed a non-specific inflammatory reaction, such as a necrosis, and an increased tissue infiltrate of immune effectors. These results suggest that the combined expression of IL-12 and H-2Kb in tumor cells has potential therapeutic benefit.
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PMID:Combination gene therapy of IL-12 and allogeneic MHC class I gene via stimulating NK cytolytic activity. 1062 97

The identification of tumor-associated antigens recognized by cellular or humoral effectors of the immune system has opened new perspectives for cancer therapy. Different groups of cancer-associated antigens have been described as targets for cytotoxic T lymphocytes (CTLs) in vitro and in vivo: 1) cancer-testis (CT) antigens, which are expressed in different tumors and normal testis; 2) melanocyte differentiation antigens; 3) point mutations of normal genes; 4) antigens that are overexpressed in malignant tissues; and 5) viral antigens. Clinical studies with peptides derived from these antigens have been initiated to induce specific CTL responses in vivo. Immunological and clinical parameters for the assessment of peptide-specific reactions have been defined, i.e., delayed-type hypersensitivity (DTH), CTL, autoimmmune, and tumor regression responses. Preliminary results demonstrate that tumor-associated peptides alone elicit specific DTH and CTL responses leading to tumor regression after intradermal injection. Granulocyte-macrophage colony-stimulating factor (GM-CSF) was proven effective in enhancing peptide-specific immune reactions by amplification of dermal peptide-presenting dendritic cells. Long-lasting complete tumor regressions have been observed after induction of peptide-specific CTLs. However, in single cases with disease progression after an initial tumor response, either a loss of the respective tumor antigen targeted by CTLs or of the presenting major histocompatibility complex (MHC) class I allele was detected as a mechanism of immune escape under immunization. Based on these observations, cytokines to enhance antigen and MHC class I expression in vivo are being evaluated to prevent immunoselection. Recently, a strategy utilizing spontaneous antibody responses to tumor-associated antigens (SEREX) has led to the identification of a new CT antigen, NY-ESO-1, which is regarded as one of the most immunogenic antigens known today inducing spontaneous immune responses in 50% of patients with NY-ESO-1-expressing cancers. Clinical studies involving antigenic constructs that induce both antibody and CTL responses will show whether these are more effective for immunotherapy of cancer.
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PMID:Cancer immunotherapy in clinical oncology. 1095 Jan 48

The huKS1/4-IL2 fusion protein, directed against the human epithelial cell adhesion molecule (huEpCAM) has been shown to induce a strong CD8+ T-cell-dependent, natural killer (NK) cell-independent, antitumor response in mice bearing the huEp-CAM-transfected CT26 colon cancer CT26-EpCAM. Here we investigate the effectiveness of huKS1/4-IL2 against CT26-Ep21.6, a subclone of CT26-EpCAM, expressing low levels of MHC class I. In vitro antibody-dependent cellular cytotoxicity (ADCC) assays in the presence of huKS1/4-IL2 demonstrate that murine NK cells from spleen and blood can kill CT26-Ep21.6 significantly better than they kill CT26-EpCAM. NK-mediated ADCC of CT26-EpCAM can be enhanced by blocking the murine NK cell-inhibitory receptor, Ly-49C. A potent in vivo antitumor effect was observed when BALB/c mice bearing experimental metastases of CT26-Ep21.6 were treated with huKS1/4-IL2. The depletion of NK cells during huKS1/4-IL2 treatment significantly reduced the antitumor effect against CT26-Ep21.6. Together our in vitro and in vivo data in the huEp-CAM-transfected CT26 models indicate that the amount of MHC class I expressed on the tumor target cell plays a critical role in the in vivo antitumor mechanism of huKS1/4-IL2 immunotherapy. A low MHC class I level favors NK cells as effectors, whereas a high level of MHC class I favors T cells as effectors. Given the heterogeneity of MHC class I expression seen in human tumors and the prevailing T-cell suppression in many cancer patients, the observation that huKS1/4-IL2 has the potential to effectively activate an NK cell-based antitumor response may be of potential clinical relevance.
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PMID:The level of MHC class I expression on murine adenocarcinoma can change the antitumor effector mechanism of immunocytokine therapy. 1124 57

Tumor-associated antigens recognized by cellular or humoral effectors of the immune system represent attractive targets for antigen-specific cancer therapy. Different groups of cancer-associated antigens have been identified inducing cytotoxic T-lymphocyte (CTL) responses in vitro and in vivo: 1) 'Cancer-Testis' (CT) antigens, which are expressed in different tumors and normal testis, 2) melanocyte differentiation antigens, 3) point mutations of normal genes, 4) antigens that are overexpressed in malignant tissues, and 5) viral antigens. Clinical studies with peptides derived from these antigens have been initiated to study the induction of specific CTL responses in vivo. Immunological and clinical parameters for the assessment of peptide-specific reactions have been defined, i. e., delayed-type hypersensitivity (DTH), CTL, autoimmune, and tumor regression responses. Early results show that tumor-associated peptides alone induce specific DTH and CTL responses and tumor regression after intradermal administration. GM-CSF was used as an adjuvant to enhance peptide-specific immune reactions by amplification of dermal peptide-presenting dendritic cells. Complete tumor regressions have been observed in the context of measurable peptide-specific CTL. However, in single cases with disease progression after an initial tumor response, either a loss of the respective tumor antigen targeted by CTL or of the presenting MHC class I allele was detected, suggesting immunization-induced immune escape. Based on these observations, cytokines to modify antigen and MHC class I expression in vivo are being tested to prevent immunoselection. Recently, a new CT antigen, NY-ESO-1, has been identified with a strategy utilizing spontaneous antibody responses to tumor-associated antigens (SEREX). NY-ESO-1 is regarded as one of the most immunogenic antigens known today, inducing spontaneous immune responses in 50% of patients with NY-ESO-1-expressing cancers. Clinical studies with antigenic constructs to induce both humoral and cellular immune responses will show whether these are more effective for immunotherapy of cancer. Copyright 2000 S. Karger GmbH, Freiburg
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PMID:Peptide Vaccination in Clinical Oncology. 1144 Dec 34


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