AMPK is downregulated by melanoma antigens A3/6 (MAGEA3/6), which are cancer-specific proteins that enhance the activity of specific E3 ubiquitin ligases to ubiquitinate and degrade AMP-activated protein kinase α1 (AMPKα1).
The values of four melanoma markers on circulating cells Melan-A, gp100, MAGE-3 and melanoma inhibitory antigen prior to the treatment and within the therapy were compared to the data collected at baseline - after the melanoma surgery.
In addition, vaccination with bivalent vaccines containing CyaA-HPV16 E7 and CyaA fused to a tumor-associated antigen (melanoma-specific antigen A3, MAGEA3) or to a non-viral, non-tumor antigen (ovalbumin) eradicated HPV16 E7-expressing tumors and protected against a later challenge with MAGEA3- and ovalbumin-expressing tumor cells, respectively.
Analysis of cancer/testis antigen expression and CD8 T-cell abundance suggests that MAGEA3 is a potential immune target in melanoma, but not in non-small cell lung cancer, and implicates SPAG5 as an alternative cancer vaccine target in multiple cancers.
Testing for the expression of a melanoma-associated gene panel (MLANA, MAGEA3, and MITF) with qRT-PCR and for the presence of BRAFmt (a BRAF gene variant encoding the V600E mutant protein) verified the beads-isolated CTCs to be melanoma cells.
A panel of cytolytic T lymphocyte (CTL) clones was isolated from metastases and blood samples of a melanoma patient vaccinated with MAGE-3.A1-pulsed autologous dendritic cells.
Clinical grade DC from melanoma patients were generated from blood monocytes and infected with a recombinant ALVAC virus encoding either a marker gene (EGFP) or the MAGE-1-MAGE-3 minigenes.
MAA expression detected by PCR was found at a high percentage in evaluated melanoma cell lines: 25 of 28 (89%) were positive for Melan-A, 22 of 28 (79%) were positive for tyrosinase, 26 of 28 (93%) were positive for gp-100, and 18 of 28 (64%) were positive for MAGE-3 expression.
We report here the identification of a new MAGE-3 peptide, which is recognized by three different CD4(+) T cell clones isolated from a melanoma patient vaccinated with a MAGE-3 protein.
A monoclonal CTL response against a MAGE-3 antigen was observed in a melanoma patient, who showed partial rejection of a large metastasis after treatment with a vaccine containing only the tumor-specific antigenic peptide.
The peptide-binding and presentation characteristics of seven naturally occurring HLA-A2 subtypes were studied using M3(271), a peptide derived from the tumor-specific Ag encoded by gene MAGE-3, which has been shown to be processed and presented by A*0201+ melanoma lines.
Monoclonal antibody 57B can be used to allow profiling of melanomas using routine archival tissue, when considering immunotherapeutic approaches involving MAGE-3-derived epitopes.
The MAGE-1 and MAGE-3 genes are expressed in tumors of different histotypes but not in normal adult tissues (with the exception of testis), while the MART-1 gene appears to be selectively expressed in melanoma.
PCR-based analysis of the freshly harvested tumor from patient PM2-B2 revealed the presence of message for the melanoma-associated gene products MAGE-1 and MAGE-3, but not for tyrosinase or MART-1/MELAN-A.
Gene MAGE-3 is expressed in many tumors of several types, such as melanoma, head and neck squamous cell carcinoma, lung carcinoma and breast carcinoma, but not in normal tissues except for testes.