EC:1.10.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.10.3.1 (tyrosinase)
9,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty-two HLA A*0201 patients with stage IV melanoma were enrolled in a phase 1 safety and feasibility trial using a composite dendritic cell (DC) vaccine generated by culturing CD34 hematopoietic progenitors and activated with IFN-alpha. The DC vaccine was loaded with peptides derived from four melanoma tissue differentiation antigens (MART-1, tyrosinase, MAGE-3, and gp100) and influenza matrix peptide (Flu-MP). Twenty patients were evaluable, 14 of whom received vaccination with peptide-pulsed DCs without keyhole limpet hemocyanin (KLH) and 6 of whom received vaccination with KLH-loaded DCs. Patients were vaccinated until disease progression or until they had received eight vaccinations. None of the analyzed patients showed the expansion of melanoma-peptide-specific circulating effector memory T cells that secrete IFN-gamma in direct ELISPOT. Melanoma-peptide-specific recall memory CD8 T cells able to secrete IFN-gamma and to proliferate could be detected in six of the seven analyzed patients. There were no objective clinical responses. The estimated median overall survival was 12 months (range 2-38), and the median event-free survival was 4 months (range 1-12). There was no statistically significant survival advantage in patients who received KLH-loaded vaccines. As of March 2005, four patients remained alive, 26+, 28+, 28+, and 36+ months. Three of them had received KLH-loaded vaccines and all of them had had additional therapy. Overall, these results suggest that IFN-alpha-activated CD34-DCs are safe but elicit only limited immune responses, underscoring the need to test different DC maturation factors.
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PMID:Immune and clinical outcomes in patients with stage IV melanoma vaccinated with peptide-pulsed dendritic cells derived from CD34+ progenitors and activated with type I interferon. 1611 7

Between March 1999 and May 2000, 18 HLA-A*0201(+) patients with metastatic melanoma were enrolled in a phase I trial using a dendritic cell (DC) vaccine generated by culturing CD34(+) hematopoietic progenitors. This vaccine includes Langerhans cells. The DC vaccine was loaded with four melanoma peptides (MART-1/MelanA, tyrosinase, MAGE-3, and gp100), Influenza matrix peptide (Flu-MP), and keyhole limpet hemocyanin (KLH). Ten patients received eight vaccinations, one patient received six vaccinations, one patient received five vaccinations, and six patients received four vaccinations. Peptide-specific immunity was measured by IFN-gamma production and tetramer staining in blood mononuclear cells. The estimated median overall survival was 20 months (range: 2-83), and the median event-free survival was 7 months (range: 2-83). As of August 2005, four patients are alive (three patients had M1a disease and one patient had M1c disease). Three of them have had no additional therapy since trial completion; two of them had solitary lymph node metastasis, and one patient had liver metastasis. Patients who survived longer were those who mounted melanoma peptide-specific immunity to at least two melanoma peptides. The present results therefore justify the design of larger follow-up studies to assess the immunological and clinical outcomes in patients with metastatic melanoma vaccinated with peptide-pulsed CD34-derived DCs.
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PMID:Long-term outcomes in patients with metastatic melanoma vaccinated with melanoma peptide-pulsed CD34(+) progenitor-derived dendritic cells. 1633 19

In this study, we investigated the mRNA and protein expression of nine tumour antigens in human glioblastoma multiforme with a view to their possible use in dendritic cell-based immunotherapy. Expression of ALK, EGFRvIII, GALT3, gp100, IL-13Ralpha2, MAGE-A3, NA17-A, TRP-2 and tyrosinase were studied by real-time RT-PCR on frozen tissues using a series of 47 tumour samples from patients with glioblastoma. Results were compared with non-neoplastic brain expression or glioblastoma samples with very low levels of expression near the limits of detection for EGFRvIII and MAGE-A3, as these latter two antigens were not detected in non-neoplastic brain. Tumour antigens showing a 5-fold increase in mRNA expression were considered as positive, and only antigens displaying an mRNA over-expression in a significant number of cases were analysed by immunohistochemistry on paraffin-embedded sections. Using real time RT-PCR, we found EGFRvIII, gp100, IL-13Ralpha2 and TRP-2 to be positive in 64, 38, 32 and 21% of cases, respectively. While we observed no over-expression for ALK, GALT3 and tyrosinase, 3 samples out of 47 were positive for MAGE-3 and 1 sample for NA17-A. More than 25% of tumour cells showed strong protein expression in 13, 34, 85 and 96% of GBM samples for gp100, TRP-2, EGFRvIII and IL-13Ralpha2, respectively. Interestingly, protein expression of at least 3 antigens was observed in 38% of cases. These results point out the importance of EGFRvIII, IL-13Ralpha2 and, to a less extent gp100 and TRP-2, for developing an immunotherapy strategy against glioblastoma.
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PMID:Expression of nine tumour antigens in a series of human glioblastoma multiforme: interest of EGFRvIII, IL-13Ralpha2, gp100 and TRP-2 for immunotherapy. 1700 3

Standard screening of melanoma patients is a useful tool for predicting outcome of patients, however, an instant methodology for exact detection of subclinical disease or monitoring treatment response is under investigation. Detection of circulating melanoma cells is, therefore, a possible novel promising staging method. However, inconsistent data on method sensitivity and on the predicted patient outcome has been shown repeatedly. Recently, a multimarker real-time RT-PCR methodology for quantification of five melanoma markers Melan-A, gp 100, MAGE-3, MIA and tyrosinase was described by our group. In the current prospective trial, blood specimens of 65 patients with AJCC stage IIB-III cutaneous melanoma after surgery were periodically examined. In the above group, 27 % of subjects relapsed during the study. Prior to the disease progression we could observe a statistically significant tumor marker elevation in previous 0 to 9 months in all patients with clinical relapse. MAGE-3 became the most sensitive progression marker. During progression, three concordant positive markers were seen in 39 % of patients, followed by two concordant positive markers in 28 % and 1 marker in 33 %. This study supports the use of a multimarker real-time RT-PCR as a disease progression predictor. The dynamic assessment of serially obtained blood specimens represents a useful method for early metastasis detection and treatment response of melanoma patients.
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PMID:Early detection of melanoma progression by quantitative real-time RT-PCR analysis for multiple melanoma markers. 1838 26

Evidence for the in vitro lymphocyte response against autologous melanoma has been accumulating over the past 10 years, leading to the identification of numerous melanoma-associated antigens recognised by T cells. These antigens are targets for specific immunotherapy protocols. However, their expression is heterogeneous during tumour progression and may contribute to therapeutic escape mechanisms and disease progression. This study was designed to chart the importance of these escape mechanisms, and to assess the relationship between gene expression and the clinical profile (especially survival data) of patients with melanoma. We studied the expression of certain melanoma genes in tissue biopsies from 202 patients using reverse transcriptase-polymerase chain reaction (RT-PCR). The evaluated genes were Melan-A, tyrosinase, Na-17A, MAGE-1, MAGE-3 and Ny-ESO-1. We then correlated the results to the patients' survival data. 202 samples (cutaneous, nodal and visceral biopsies) were analysed by RT-PCR. No relationship was found between clinical data and gene expression. No relationship was found between survival data and gene expression, when samples of all stages were combined in the analysis. However, interactions between gene expression and disease stage were significant. When stage III samples alone were considered, MAGE-3 expression alone or in association with the expression of the other tumour-specific genes was found to be significantly associated with a higher disease-free survival (respectively, P = 0.0349; 0.007). Our results provided no evidence for a relationship between gene expression and clinical data, or between gene expression and survival data. However, with regard to certain sub-groups, such as stage III samples, tumour gene expression was significantly associated with survival.
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PMID:Melanoma gene expression and clinical course. 1932 32

As technological advances allow for the identification of tumor-associated antigens (TAAs) against which adaptive immune responses can be raised, efforts to develop vaccines for the treatment of cancer continue to gain momentum. Some of these vaccines target differentiation antigens that are expressed by tumors derived from one particular tissue (e. g., Melan-A/ MART-1, tyrosinase, gp 100). Some target antigens are specifically expressed in tumors of different types but not in normal tissues (e. g., MAGE-3), while other possible targets are antigens that are expressed at low level in normal tissues and are over-expressed in tumors of different types (e. g., HER2, Muc 1). Oncogenes (HER2/neu, Ras, E7 HPV 16), tumor suppressor genes (pS3) or tumor-specific post-translational modified proteins (under glycosylated Muc 1) can also be used as cancer vaccine candidates. In either case, these antigens tend to be poorly inmmunogenic by themselves and vaccines containing them generally require the inclusion of potent immunological adjuvants in order to generate robust anti-tumor immune responses in humans. Many adjuvants currently under evaluation for use in cancer vaccines activate relevant antigen presenting cells, such as dendritic cells and macrophages, via toll-like receptors (TLRs) and promote effective uptake, processing and presentation of antigen to T-cells in draining lymph nodes.Lipid A, the biologically active portion of the gram-negative bacterial cell wall constituent lipopolysaccharide (LPS), is known to possess strong immunostimulatory properties and has been evaluated for more than two decades as an adjuvant for promoting immune responses to minimally immunogenic antigens, including TAAs. The relatively recent discovery of TLRs and the identification of TLR4 as the signaling receptor for lipid A have allowed for a better understanding of how this immunostimulant functions with regard to induction of innate and adaptive immune responses.Although several lipid A species, including LPS and synthetic analogs, have been developed and tested as monotherapeutics for the treatment of cancer,1-8 only 3-O-desacyl-4'-monophosphoryl lipid A (MPL) has been evaluated as a cancer vaccine adjuvant in published human clinical trials. MPL comprises the lipid A portion of Salmonella minnesota LPS from which the (R)-3-hydroxytetrade canoyl group and the l-phosphare have been removed by successive acid and base hydrolysis.9 LPS and MPL induce similar cytokine profiles, but MPLis at least 1OO-fold less toxic.9,10 lOMPL has been administered to more than 300, 000 human subjects in studies of next-generation vaccines.11 In this chapter, published clinical trials conducted to evaluate the safety and/or efficacy of various cancer vaccines containing MPL, either alone or combined with other immunostimulants, Such as cell wall skeleton (CWS) of Mycobacterium phlei in the adjuvant Detox; Biomira, Inc.), the saponin QS-21 (in the adjuvants AS01B and AS02B; GSK Biologicals) or with QS-21 and CpG oligonucleotides (in the adjuvant AS15; GSK Biologicals) will be summarized. Combining MPL with other immunostimulants has been demonstrated to be advantageous in many cases and may be required to elicit the full complement of activities necessary to achieve an effective immune response and overcome the ability of tumors to evade attack by the immune system. In this chapter, information relating to vaccines targeting specific cancers will be presented in the first section, while information relating to vaccines targeting multiple tumor types by the induction of immune responses to shared TAAs is presented in the second section.
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PMID:Monophosphoryl lipid A (MPL) as an adjuvant for anti-cancer vaccines: clinical results. 2066 4

Identification of well-defined glioma-specific antigens is a crucial and necessary step in developing immunotherapy for glioblastoma multiforme (GBM). In this study, we analyzed the composite expression of cancer-testis antigens (CTA) and melanocyte-differentiation antigens (MDA) in malignant glioma tissue and primary glioma cell lines and compared them with normal brain specimens and meningioma. CTA and MDA expression was assessed by the reverse transcription-polymerase chain reaction. The following primers were analyzed for CTA: LAGE-1, NY-ESO-1, MAGE-1, MAGE-3, MAGE-4, MAGE-10, CT-7, CT-10, HOM-MEL 40, BAGE, and SCP-1; and for MDA: tyrosinase, gp100, MELAN-A/MART-1, and TRP-2. The expression level was determined by ethidium bromide-stained agarose gel. Among malignant glioma tissue, the highest CTA and MDA expression rates were found for MAGE-3 (22%), MAGE-1 (16%), CT-7 (11%), gp100 (40%), and TRP-2 (29%). Among primary glioma cell lines, the highest levels of expression were: CT-10 (38%), gp100 (100%), and TRP-2 (31%). NY-ESO-1 was the only CTA demonstrated and seen in 12% of meningioma tissue specimens. TRP-2 and gp100 were expressed in 65% and 38% of meningioma tissue, respectively; gp100 and TRP-2 were expressed in 100% and 50% of meningioma cell lines. Of the nine normal brain specimens, all samples tested positive for TRP-2. All other CTA and MDA tested negative in normal brain. We conclude that CTA and MDA demonstrate low-to-variable levels of expression within GBM. However, two CTA (MAGE-1 and MAGE-3) and one MDA (gp100) may be considered candidate antigens based on their restricted expression in GBM. These results will greatly accelerate the development of novel, specific immunotherapeutic strategies.
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PMID:Cancer-testis and melanocyte-differentiation antigen expression in malignant glioma and meningioma. 2253 18

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