Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0027627 (metastases)
 103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Work in animal models has suggested that interactions of members of the B7 receptor family (e.g., B7-1, B7-2) on tumor cells with their ligands CD28 and CTLA-4 on cytotoxic T cells (CTL) are important for the induction of anti-tumor immunity against malignant melanoma (MM). To determine whether these molecules are of relevance for CTL responses against human MM, we studied the expression of B7-1, B7-2, CD28 and CTLA-4 in primary tumors of MM (PMM), MM metastases (MMM) and benign melanocytic nevi (BMN) by immunohistochemistry (IH) and by reverse transcription polymerase chain reaction (RT-PCR). By RT-PCR, B7-1 and B7-2-specific mRNAs were detected in most PMM, MMM and BMN. These PCR-signals were derived from CD45(+)-infiltrating leukocytes and not from tumor cells since (I) MMM depleted of CD45+ cells contained no B7-1 or B7-2 mRNA; and (2) by IH, B7-1 and B7-2 were found on infiltrating dendritic cells, macrophages and a variable proportion of tumor-infiltrating lymphocytes (TIL) but not on melanoma cells or nevus cells. The important exceptions were 5/5 spontaneously regressing PMM, in which B7-1 and B7-2 were expressed by melanoma cells, that were surrounded by TIL expressing CD28 but not CTLA-4. We conclude that, in PMM, MMM and BMN, the majority of TIL are CD28+ and that B7-1 and B7-2 are expressed by CD45(+)-infiltrating antigen-presenting cells (APC) and TIL, but not by the tumor cells. However, in spontaneously regressing PMM, melanoma cells express B7-1, B7-2 and MHC class-I and -II antigens, particularly in areas with clinical and histological signs of an ongoing anti-tumor response. These data suggest that the absence of B7-1 and B7-2 favors the escape of MM from immunosurveillance, while B7-1, B7-2 expression enhances T-cell-mediated anti-tumor immunity.
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PMID:In situ expression of B7 and CD28 receptor families in human malignant melanoma: relevance for T-cell-mediated anti-tumor immunity. 754 78

Constitutive expression of major histocompatibility complex (MHC) class II molecules is normally restricted to professional antigen-presenting cells (APCs) of the immune system, although it also occurs frequently in melanoma. Clinical evidence suggesting that MHC class II expression by melanoma is associated with tumor progression led us to postulate a role for MHC class II-mediated antigen presentation in this disease. First, we investigated whether melanoma cells derived from metastases can process antigen and/or present peptide vi MHC class II molecules to a peptide-specific CD4+ T-cell clone. In all cell lines tested, melanoma cells were able to process antigen and present peptide efficiently to CD4+ T cells, resulting in T-cell proliferation increased 5-26-fold over controls. Next, we found that CD28-mediated costimulation was not required, because blocking with CTLA-4Ig had no effect on the T-cell response to either melanoma or B cells as APCs. In contrast, blocking CD54 (ICAM-1) resulted in a decrease in proliferation in response to peptide presentation by melanoma but not B cells. These data demonstrate that MHC class II molecules on melanoma cells are functional and that antigen-processing pathways are intact. In addition, CD54 seems to play a significant role in peptide presentation by melanoma.
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PMID:MHC class II-mediated antigen presentation by melanoma cells. 904 57

Dendritic cells (DC) are regarded as attractive candidates for cancer immunotherapy. Our aim is to improve the therapeutic efficacy of DC-based tumor vaccine by augmenting DC preferential chemotaxis on T cells. Mouse bone marrow-derived DC were transduced with lymphotactin (Lptn) gene by adenovirus vector. The supernatants from Lptn gene-modified DC (Lptn-DC) were capable of attracting CD4+ and CD8+ T cells in a chemotaxis assay, whereas their mock control could not. Lptn expression of Lptn-DC was further confirmed by RT-PCR. Lptn-DC were pulsed with Mut1 peptide and used for vaccination. Immunization with the low dose (1 x 10(4)) of Mut1 peptide-pulsed DC induced weak CTL activity, whereas the same amounts of Mut1 peptide-pulsed Lptn-DC markedly induced specific CTL against 3LL tumor cells. A single immunization with 1 x 10(4) Mut1 peptide-pulsed Lptn-DC could render mice resistant to a 5 x 10(5) 3LL tumor cell challenge completely, but their counterpart could not. The protective immunity induced by Mut1 peptide-pulsed Lptn-DC depends on both CD4+ T cells and CD8+ T cells rather than NK cells in the induction phase and depends on CD8+ T cells rather than CD4+ T cells and NK cells in the effector phase. Moreover, the involvement of CD28/CTLA4 costimulation pathway and IFN-gamma are also necessary. When 3LL tumor-bearing mice were treated with 1 x 10(4) Mut1 peptide-pulsed Lptn-DC, their pulmonary metastases were significantly reduced, whereas the same low dose of Mut1 peptide-pulsed DC had no obvious therapeutic effects. Our data suggest that Lptn-DC are more potent adjuvants for peptide delivery to induce protective and therapeutic antitumor immunity.
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PMID:Lymphotactin gene-modified bone marrow dendritic cells act as more potent adjuvants for peptide delivery to induce specific antitumor immunity. 983 11

The adoptive transfer of tumor-specific cytotoxic T cells (CTL) offers a promising perspective in cancer immunotherapy. However, the ex vivo-generated T lymphocytes are mostly IL-2-dependent. Here we explored the possibility of circumventing the requirement for IL-2, known for severe side effects in the patient, and of simultaneously targeting the CTL towards the tumor by the use of 2 bi-specific antibody fragments. As a model system, we used SCID mice bearing an s.c.-implanted human melanoma line (BLM-gp100) and in vitro-generated CTL specific for the gp100-derived immunogenic peptide YLEPGPVTA, which were injected i.v. with delay. To maintain the cytotoxic potential of the transferred CTL, 2 bi-specific antibody (biAb) fragments were generated which bound with one arm either CD3 or CD28, a combination known to support the activation of CTL. For targeting the CTL, both biAbs contained the F(ab') part of HD-Me13, an antibody recognizing p97, a non-immunogenic melanoma-associated surface molecule. In vitro and in vivo, the addition of the 2 biAbs increased the cytotoxic potential of the gp100-specific CTL and supported their clonal expansion in the absence of IL-2. Correspondingly, significantly higher numbers of CTL were recovered from melanoma-bearing SCID-mice that received the 2 biAb than from mice treated with the CTL only. In animals treated with CTL plus both biAbs, the primary tumor did not grow, and none of the mice developed metastases. Thus, this set of bi-specific antibody fragments was proved to target effector cells in the tumor-bearing host and to efficiently support in vivo clonal expansion and cytolytic activity of in vitro-generated CTL.
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PMID:Human melanoma therapy in the SCID mouse: in vivo targeting and reactivation of melanoma-specific cytotoxic T cells by bi-specific antibody fragments. 1020 66

Treatment of metastatic malignant melanoma with interferon alpha (IFNalpha) results in objective remission in approximately 15% of patients. In a previous investigation, we found that about 50% of the patients achieved at least minor or short-lived remissions. In some tumours extensive areas of regressive tumour change occurred. However, even in these areas remnants of tumour cells were generally found. The short duration of the immune response in some patients and the incomplete eradication of the tumour can be due either to selection of non-immunogenic tumour cells or to down-regulation of the immune reactivity to the tumour. In the present paper, the expression of the zeta chain of the T cell receptor in CD3+ lymphocytes and the expression of CD28 in CD3+, CD4+ and CD8+ lymphocytes was studied in resectable melanoma metastases from 20 treated (IFNalpha or IFNalpha in combination with cisplatinum and dacarbazine) and 16 untreated patients. A double-staining technique was used, and the occurrence and distribution of lymphocytes showing down-regulation of the zeta chain or CD28 were separately registered in different areas of the metastases: close to the tumour cells in areas of unaffected tumour growth, in areas with regressive tumour changes, in areas with marked fibrosis and in stromal areas with densely packed lymphocytes. CD3+ zeta lymphocytes were found in all metastases, but their number and distribution varied considerably. Down-regulation of the zeta chain was most often found in areas of regressive changes. In contrast, T lymphocytes infiltrating close to the tumour cells had a stronger expression of the zeta chain (P = 0.016). Down-regulation was also found in stromal areas of densely packed lymphocytes and in areas of fibrosis. The pattern of down-regulation of CD28 in various subsets of lymphocytes was similar to that of zeta chain. The same pattern of down-regulation of CD28 and the zeta chain was found in both untreated and treated patients, indicating that the down-regulation is not due to treatment but to the release of immunosuppressor factors from areas with high tumour cell density or extensive destruction of tumour cells. These results concur well with the view that IFNalpha treatment can result in immune-mediated tumour cell destruction early in the treatment period and that this immune response to the tumour can be followed by immunosuppression within a few weeks.
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PMID:On down-regulation of the immune response to metastatic malignant melanoma. 1047 42

In recent years, interest in the development of immunologic approaches to malignancies has increased, and there is good evidence that the growth of renal-cell carcinoma (RCC) can be modulated by the host's immune system. Indeed, use of the immunomodulatory cytokine interleukin-2 (IL-2) has been approved for the treatment for this disease. The efficacy of this approach remains low, and there is no other reasonable conventional therapy for patients with metastatic RCC. Therefore, there is a need for the development of novel treatment strategies. The development of autologous tumor-cell vaccines that have been genetically modified to become more immunogenic is an approach that is actively being studied. One of the genetic manipulations that is being employed by several groups is the induction of overexpression of B7-1 to provide costimulation to tumor-reactive T-cells. The rationale for this strategy is that T-cells need two signals before they can mount a cytotoxic response: the binding of the T-cell receptor (TCR) to an antigenic peptide presented on major histocompatibility complex (MHC) molecules and the binding of CD28 to B7-1. Since B7-1 is not normally expressed by RCC cells, the expression forced by transfection of an exogenous B7-1 gene could make the tumor cells more immunogenic. This has been shown to be the case in mice, in which the injection of tumor cells transfected with B7-1 can result in the T-cell-mediated rejection of unmanipulated parental tumor cells. We have applied this approach to the treatment of patients with metastatic RCC. Patients enrolled on our phase I protocol are treated with autologous tumor cells modified to express B7-1, which functions as a tumor vaccine. Primary tumors or metastases are resected from the patients. The tumor cells are adapted to in vitro culture, infected with a recombinant adenoviral vector containing human B7-1 cDNA driven by the cytomegalovirus (CMV) promoter, radiated, and stored in liquid nitrogen. Aliquots of the B7-1 gene-modified tumor cells are given to the patients as a vaccine at varying intervals according to a dose-escalation scheme. The patients also receive systemic IL-2 for the dual purpose of providing accepted therapy for this disease as well as expanding the tumor-reactive T-cells activated by the vaccine. The immunogenicity and toxicity of the vaccine as well as the clinical response are being assessed in three to five patients at each of three dose levels.
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PMID:B7-1 gene-modified autologous tumor-cell vaccines for renal-cell carcinoma. 1085 53

The incidence of melanoma in the United States is increasing at a faster rate than that of any other cancer. The prognosis for metastatic disease is poor, and more effective treatments for disseminated disease are needed. Since melanoma is one of the more immunogenic tumors, strategies have focussed on immune recognition. In vitro studies suggest that potent tumor-specific cytotoxic T cells can be induced against human melanoma. Melanoma specific T-cell activation depends on appropriate presentation to the immune system of recently defined melanoma-associated antigens presented in the context of self-HLA gene products. Full T-cell activation requires the co- stimulation by B7-CD28 interactions at the T-cell surface and the elaboration of immune cytokines to promote T-cell growth. Data from animal models of tumor-specific immunization with tumor cells engineered to express immune cytokines or the B7 co-stimulatory molecule suggest that gene therapy for human melanoma may be an effective means to treat disseminated disease.
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PMID:Immunotherapy of Human Melanoma With Gene-Modified Tumor Cell Vaccines. 1086 82

Mice transgenic for the human MUC1 carcinoma-associated antigen (MUC1.Tg) are tolerant to immunization with MUC1 antigen. Recent studies, however, have demonstrated that immunization of MUC1.Tg mice with fusions of MUC1-positive tumour and dendritic cells (FC/MUC1) reverses MUC1 unresponsiveness and results in rejection of established MUC1-positive pulmonary metastases. Here we demonstrate that lymph node cells from MUC1.Tg mice immunized with the FC/MUC1 fusion cells proliferate in response to MUC1 antigen by a mechanism dependent on the function of CD4, major histocompatibility complex (MHC) class II, B7-1, B7-2, CD28, CD40 and CD40 ligand. The findings demonstrate that stimulation of lymph node cells with MUC1 results in selection of MUC1-specific CD8+ T cells. We show that the CD8+ T cells exhibit MUC1-specific cytotoxic T lymphocyte (CTL) activity by recognition of MUC1 peptides presented in the context of MHC class I molecules Kb and Db. The MUC1-specific CD8+ T cells also exhibit antitumour activity against MUC1-positive metastases, but with no apparent reactivity against normal tissues. These results indicate that immunization of MUC1.Tg mice with FC/MUC1 reverses immunological unresponsiveness to MUC1 by presentation of MUC1 peptides in the presence of costimulatory signals and generates MHC-restricted MUC1-specific CD8+ T cells.
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PMID:Selection and characterization of MUC1-specific CD8+ T cells from MUC1 transgenic mice immunized with dendritic-carcinoma fusion cells. 1110 34

The promise of cancer immunotherapy is that it will not only eradicate primary tumors but will generate systemic antitumor immunity capable of destroying distant metastases. A major problem that must first be surmounted relates to the immune resistance of large tumors. Here we reveal that immune resistance can be overcome by combining immunotherapy with a concerted attack on the tumor vasculature. The functionally related antitumor drugs 5,6-dimethylxanthenone-4-acetic acid (DMXAA) and flavone acetic acid (FAA), which cause tumor vasculature collapse and tumor necrosis, were used to attack the tumor vasculature, whereas the T-cell costimulator B7.1 (CD80), which costimulates T-cell proliferation via the CD28 pathway, was used to stimulate antitumor immunity. The injection of cDNA (60-180 microg) encoding B7.1 into large EL-4 tumors (0.8 cm in diameter) established in C57BL/6 mice, followed 24 h later by i.p. administration of either DMXAA (25 mg/kg) or FAA (300 mg/kg), resulted in complete tumor eradication within 2-6 weeks. In contrast, monotherapies were ineffective. Both vascular attack and B7.1 immunotherapy led to up-regulation of heat shock protein 70 on stressed and dying tumor cells, potentially augmenting immunotherapy. Remarkably, large tumors took on the appearance of a wound that rapidly ameliorated, leaving perfectly healed skin. Combined therapy was mediated by CD8+ T cells and natural killer cells, accompanied by heightened and prolonged antitumor cytolytic activity (P < 0.001), and by a marked increase in tumor cell apoptosis. Cured animals completely rejected a challenge of 1 x 10(7) parental EL-4 tumor cells but not a challenge of 1 x 10(4) Lewis lung carcinoma cells, demonstrating that antitumor immunity was tumor specific. Adoptive transfer of 2 x 10(8) splenocytes from treated mice into recipients bearing established (0.8 cm in diameter) tumors resulted in rapid and complete tumor rejection within 3 weeks. Although DMXAA and B7.1 monotherapies are complicated by a narrow range of effective doses, combined therapy was less dosage dependent. Thus, a broad range of amounts of B7.1 cDNA were effective in combination with 25 mg/kg DMXAA. In contrast, DMXAA, which has a very narrow range of high active doses, was effective at a low dose (18 mg/kg) when administered with a large amount (180 microg) of B7.1 cDNA. Importantly, combinational therapy generated heightened antitumor immunity, such that gene transfer of B7.1 into one tumor, followed by systemic DMXAA treatment, led to the complete rejection of multiple untreated tumor nodules established in the opposing flank. These findings have important implications for the future direction and utility of cancer immunotherapies aimed at harnessing patients' immune responses to their own tumors.
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PMID:Vascular attack by 5,6-dimethylxanthenone-4-acetic acid combined with B7.1 (CD80)-mediated immunotherapy overcomes immune resistance and leads to the eradication of large tumors and multiple tumor foci. 1128 Jul 51

A DNA vaccine encoding human carcinoembryonic antigen (CEA) broke peripheral T-cell tolerance toward this tumor self-antigen expressed by Lewis lung carcinoma stably transduced with CEA in C57BL/6J mice transgenic for CEA. This vaccine, delivered by oral gavage with an attenuated strain of Salmonella typhimurium (SL7207), and boosted with an antibody-IL2 fusion protein, induced tumor-protective immunity mediated by MHC class I antigen-restricted CD8(+) T cells, resulting in eradication of subcutaneous tumors in 100% of mice and prevention of experimental pulmonary metastases in 75% of experimental animals. Both CTL and antigen-presenting dendritic cells were activated as indicated by a decisive increase in their respective activation markers CD2, CD25, CD28 as well as CD48 and CD80. The antitumor effects of this CEA-based DNA vaccine obtained in prophylactic settings, suggest that this approach could lead to the rational design of effective treatment modalities for human lung cancer.
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PMID:An oral DNA vaccine against human carcinoembryonic antigen (CEA) prevents growth and dissemination of Lewis lung carcinoma in CEA transgenic mice. 1167 5


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