Platts Ke scite author profile

Platts Ke

2Publications

4Citation Statements Received

0Citation Statements Given

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Royal Hallamshire Hospital, University of Sheffield, GTx (United States)

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Identification of peptide epitopes of MAGE-1, -2, -3 that demonstrate HLA-A3-specific binding

et al. 1996

Cancer Immunology, Immunotherapy

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The MAGE gene family of tumour antigens are expressed in a wide variety of human cancers. We have identified 43 nonamer peptide sequences, from MAGE-1, -2 and -3 proteins that contain binding motifs for HLA-A3 MHC class I molecules. The T2 cell line, transfected with the cDNA for the HLA-A3 gene, was used in a MHC class I stabilisation assay performed at 37 degrees C and 26 degrees C. At 37 degrees C, 2 peptides were identified that stabilised HLA-A3 with high affinity (fluorescence ratio, FR > 1.5), 4 peptides with low affinity (FR 1.11-1.49) and 31 peptides that did not stabilise this HLA haplotype (FR < 1.1). At 26 degrees C, 12 peptides were identified that stabilised HLA-A3 with high affinity, 8 peptides with low affinity and 17 peptides that did not stabilise this HLA haplotype. Two peptides stabilised HLA-A3 at both temperatures. Small changes in one to three amino acids at positions distinct from the anchor residues altered peptide affinity. Data were compared to a similar study in which a peptide competition assay was used to investigate MAGE-1 peptide binding to several HLA haplotypes. This study demonstrates that anchor residues do not accurately predict peptide binding to specific HLA haplotypes, changes in one to three amino acids at positions distinct from anchor residues influence peptide binding and alternative methods of determining peptide binding yield different results. We are currently investigating the ability of these peptides to induce antitumour cytotoxic T lymphocyte activity as they may be of potential therapeutic value.

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CD80-mediated induction of immunostimulation in two ocular melanoma cell lines is augmented by interferon-γ

Alexander

et al. 2002

Melanoma Research

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Although the transfection of the T-cell costimulatory molecule CD80 cDNA into human tumours can augment their immunogenicity in vitro, its expression alone is ineffective in many tumour systems. We evaluated the influence of CD80 expression on the immunostimulatory activity of ocular melanoma cell lines and determined whether IFN-gamma could enhance the effect. Two ocular melanoma cell lines were transfected with CD80 cDNA. The immunostimulatory capacity of the CD80+ transfectants was determined by their ability to stimulate the proliferation of allogeneic peripheral blood mononuclear cells (PBMC). The influence of additional accessory molecules on PBMC proliferation was assessed by pre-treating the CD80 transfectants with IFN-gamma. The CD80+ transfectants induced proliferation of allogeneic PBMC. IFN-gamma treatment of the tumour cells induced upregulated expression of MHC class I, de novo expression of MHC class II and CD54, and enhanced the ability of the CD80+ transfectants to stimulate PBMC proliferation. CD4+ T cells were not required for the proliferative response against untreated CD80+ tumour cells but were necessary for the augmentation of proliferation observed following IFN-gamma treatment. CD80+ ocular melanoma cells possess immunostimulatory potential which is augmented by IFN-gamma induced upregulation of cell surface molecules. Further studies on the role of costimulatory molecules in inducing anti-tumour immunity in ocular melanoma may help to define new strategies for application of immunotherapeutic approaches to treat this aggressive disease.

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Platts Ke

Identification of peptide epitopes of MAGE-1, -2, -3 that demonstrate HLA-A3-specific binding

CD80-mediated induction of immunostimulation in two ocular melanoma cell lines is augmented by interferon-γ

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