Gene/Protein
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: UMLS:C0025202 (
melanoma
)
69,561
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Antigenics is developing a therapeutic cancer vaccine based on heat-shock proteins (HSPs). The vaccine [HSPPC-96,
Oncophage
] is in a pivotal phase III clinical trial for renal cancer at 80 clinical sites worldwide. The trial is enrolling at least 500 patients who are randomised to receive surgical removal of the primary tumour followed by out-patient treatment with
Oncophage
((R)) or surgery only. This study was initiated on the basis of results from a pilot phase I/II study and preliminary results from a phase II study in patients with renal cell cancer. In October 2001,
Oncophage
was designated as a fast-track product by the Food and Drug Administration in the US for the treatment of renal cell carcinoma.
Oncophage
is in phase I/II trials in Italy for colorectal cancer (30 patients) and
melanoma
. The trials in Italy are being conducted at the Istituto dei Tumouri, Milan (in association with Sigma-Tau). Preliminary data from the phase II trial for
melanoma
was presented at the AACR-NCI-EORTC International Conference in Florida, USA, in October 2001.
Oncophage
is also in a phase I/II (42 patients) and a phase II trial (84 patients) in the US for renal cell cancer, a phase II trial in the US for non-Hodgkin's lymphoma (35 patients), a phase II trial in the US for sarcoma (20-35 patients), a phase I/II trial in the US for
melanoma
(36 patients), and phase I/II trials in Germany for gastric (30 patients) and pancreatic cancers. A pilot phase I trial in patients with pancreatic cancer began in the US in 1997 with 5 patients enrolled. In November 2000, Antigenics announced that this trial had been expanded to a phase I/II study which would now include survival as an endpoint and would enroll 5 additional patients. The US trials are being performed at Memorial Sloan-Kettering Cancer Center and the M.D. Anderson Cancer Center. The trials in Germany are being carried out at Johannes Gutenberg-University Hospital, Mainz.
Oncophage
is an autologous vaccine consisting of purified complexes of tumour-derived HSPs linked to tumour antigen peptides. When these HSPPC are readministered to a patient following surgery or biopsy of the tumour, the antigenic tumour peptides are expressed on the surface of potent antigen-presenting cells of the immune system, such as macrophages and dendritic cells. This stimulates a much more powerful anti-tumour immune response than that generated by expression of the same antigens by the tumour cell. Thus, Antigenics autologous HSP technology is attractive because it is highly specific for individual patients and circumvents the need for identification of specific antigens for individual cancers (i.e. it does not require definition of the antigenic epitopes on cancer cells) and it overcomes the immune tolerance associated with various tumours.
Oncophage
is manufactured in a 10-hour process from surgically resected autologous tumour. A minimum of 1-3g of tumour tissue is required to produce enough
Oncophage
for a course of treatment. The major limiting factor for producing
Oncophage
from a particular cancer is the ability to purify HSP from that cancer. From clinical studies to date, Antigenics has been able to produce HSP from 100, 98, 90, 71 and 30% of colorectal carcinoma, renal cell carcinoma,
melanoma
, gastric cancer and pancreatic cancer tumours, respectively. The low success rate with pancreatic cancers is because of the high concentration of proteases in that tissue type. HSPs are a family of highly conserved proteins present in the cells of all organisms. They function as molecular chaperones, assisting the correct folding of polypeptides and aiding intracellular protein transport. In addition, HSPs associate with a broad range of peptides derived from intracellular protein degradation, including antigenic peptides produced in tumour cells. Antigenics has exclusively licensed worldwide rights to its HSP immunotherapeutic complexes from Mount Sinai School of Medicine and Fordham University in the USA. On 3 November 1998, Antigenics was issued a US patent (5,830,464) covering immunotherapy in which antigen-presenting cells are isolated and mixed with heat shock protein-antigen complexes purified from patients' tumours. The patent was issued to Fordham University, New York, US, who subsequently licensed it to Antigenics. Antigenics has an agreement with Sigma Tau, under the terms of which the latter company will fund 2 clinical trials in return for an option to market
Oncophage
in Italy, Portugal, Spain and Switzerland. Antigenics also has an agreement with Medison for marketing of
Oncophage
in Israel.
...
PMID:Cancer vaccine--Antigenics. 1190 4
The aim of this study was to determine the immunogenicity and antitumor activity of autologous, tumor-derived heat shock protein gp96-peptide complex vaccine (HSPPC-96;
Oncophage
given with GM-CSF and IFN-alpha in pre-treated metastatic (AJCC stage IV)
melanoma
patients. Patients underwent surgical resection of metastatic lesions for HSPPC-96 production. HSPPC-96 was administered subcutaneously (s.c.) in four weekly intervals (first cycle). Patients with more available vaccine and absence of progressive disease received four additional injections in 2-week intervals (second cycle) or more. GM-CSF was given s.c. at the same site at days -1, 0 and +1, while IFN-alpha (3 MU) was administered s.c. at a different site at days +4 and +6. Antigen-specific anti-
melanoma
T and NK lymphocyte response was assessed by enzyme-linked immunospot assay on peripheral blood mononuclear cells obtained before and after vaccination. Thirty-eight patients were enrolled, 20 received at least four injections (one cycle) of HSPPC-96 and were considered assessable. Toxicity was mild and most treatment-related adverse events were local erythema and induration at the injection site. Patients receiving at least four injections of HSPPC-96 were considered evaluable for clinical response: of the 18 patients with measurable disease post surgery, 11 showed stable disease (SD). The ELISPOT assay revealed an increased class I HLA-restricted T and NK cell-mediated post-vaccination response in 5 out of 17 and 12 out of the 18 patients tested, respectively. Four of the five class I HLA-restricted T cell responses fall in the group of SD patients. Vaccination with autologous HSPPC-96 together with GM-CSF and IFN-alpha is feasible and accompanied by mild local and systemic toxicity. Both tumor-specific T cell-mediated and NK cell responses were generated in a proportion of patients. Clinical activity was limited to SD. However, both immunological and clinical responses were not improved as compared with those recorded in a previous study investigating HSPPC-96 monotherapy.
...
PMID:A phase II trial of vaccination with autologous, tumor-derived heat-shock protein peptide complexes Gp96, in combination with GM-CSF and interferon-alpha in metastatic melanoma patients. 1621 18
Heat-shock proteins (HSPs) are a group of proteins whose expression is increased when the cells are exposed to elevated temperatures or other stressful conditions. This increase in expression is transcriptionally regulated. The function of HSPs is similar in virtually all living organisms, from bacteria to humans. Their expression also occur under non-stressful conditions, simply 'monitoring' the cell's proteins, i.e., they carry old proteins to the cell's 'recycling bin' and they help newly synthesized proteins fold properly. These activities are part of a cell's own repair system. HSPs are molecular chaperones for protein molecules. They are usually cytoplasmic proteins and they perform functions in various intracellular processes. Tumour-derived HSP-peptide complexes (HSPPCs) can be used for vaccination against malignancies. In particular, HSPPC-96 complex, called
Vitespen
(formerly
Oncophage
) is a HSPs-based vaccine made from individual patients' tumours with a promising role in cancer management. This vaccine has been extensively studied in Phase I and II clinical trials, showing activity on different malignancies, including gastric cancer, colorectal cancer, pancreatic cancer, non-Hodgkin's lymphoma and chronic myelogenous leukaemia. The vaccine has also been studied in Phase III clinical trials in
melanoma
and kidney cancer, showing an excellent safety profile with essentially no toxicity. Thus, HSP-based vaccines are a novel therapeutic approach with a promising role in cancer management.
...
PMID:Oncophage: step to the future for vaccine therapy in melanoma. 1899 84
Vitespen
is a heat shock protein (gp96)-peptide complex purified from resected autologous tumors, developed as a means of capturing the antigenic 'fingerprint' of a specific cancer for use as a patient-specific vaccine.
Vitespen
has been extensively assessed in animal models, and clinically in a range of cancers, including Phase I and II trials in colorectal cancer, glioblastoma, lung cancer,
melanoma
and renal cell carcinoma, and two Phase III studies in
melanoma
and renal cell carcinoma.
Vitespen
has shown itself capable of inducing major histocompatibility class I-restricted immune responses in a range of tumor types, and clinical responses in patients with earlier-stage disease, in line with previously published data on cancer vaccines.
Vitespen
is almost devoid of side effects aside from minor injection-site reactions.
...
PMID:Vitespen: a preclinical and clinical review. 1966 26
Heat-shock proteins are highly conserved, stress-induced proteins with chaperone function for trafficking and delivering peptides within the different compartments of the cell. Tumor-derived heat-shock protein-peptide complexes (HSPPCs) can be used for vaccination against malignancies. In particular, the HSPPC-96-based vaccine vitespen (formerly
Oncophage
) is the first autologous cancer vaccine made from individual patients' tumors that has shown encouraging results in clinical trials. In Phase I and II clinical trials, this vaccine has shown activity on different malignancies, such as gastric cancer, colorectal cancer, pancreatic cancer, non-Hodgkin's lymphoma and chronic myelogenous leukemia. In Phase III clinical trials in
melanoma
and kidney cancer, it demonstrated an excellent safety profile with almost no toxicity. Heat-shock protein-based vaccines can be considered as a novel therapeutic approach with a promising role in cancer management.
...
PMID:HSPPC-96 vaccine in metastatic melanoma patients: from the state of the art to a possible future. 1986 42
The passive administration of specific antibodies that selectively target tumors is a well-known strategy in cancer treatment. Active immunotherapy using peptide vaccines, in contrast, is expected to induce specific, cytolytic T cells in the patient, which react against tumor antigens and destroy malignant cells. Although several concepts exist, the identification and low immunogenicity of tumor-specific peptides remain a serious problem. Heat shock proteins (HSPs), notably glycoprotein (Gp) 96, are of special interest, because they are able to take molecular peptide-fingerprints of the protein array characteristic for a particular cell. Association of Gp96 with peptides has been shown to be essential for crosspresentation and activation of T cells. Consequently, Gp96-peptide complexes extracted from cancer cells harbor the tumor-specific peptides and are immunogenic, thus offering a tool for active immunization against the tumor. Already, several immunotherapy studies of human cancers have been carried out, showing no severe adverse effects but unfortunately only limited improvement in the clinical outcome.
Vitespen
, a commercial HSP-peptide complex vaccine based on tumor-derived Gp96, seems to induce an improved overall survival for subsets of early stage
melanoma
and kidney cancer patients. The limited access to vaccine material derived from the autologous tumor requires the development of alternative protocols. Moreover, counteracting immunosuppressive mechanisms induced by the malignancy might further improve the efficacy of vaccinations. This review critically analyzes the current state of clinical immunotherapy with Gp96, with special attention to
Vitespen
.
...
PMID:Active-specific immunotherapy of human cancers with the heat shock protein Gp96-revisited. 2205 68
