Abstract
PurposeMAGE-A3 is a potential target for immunotherapy due to its tumor-specific nature and expression in several tumor types. Clinical data on MAGE-A3 immunotherapy have raised many questions that can only be addressed by using animal models. In the present study, different aspects of the murine anti-tumor immune responses induced by a recombinant MAGE-A3 protein (recMAGE-A3) in combination with different immunostimulants (AS01, AS02, CpG7909 or AS15) were investigated.Experimental Design and ResultsBased on cytokine profile analyses and protection against challenge with MAGE-A3-expressing tumor, the combination recMAGE-A3+AS15 was selected for further experimental work, in particular to study the mechanisms of anti-tumor responses. By using MHC class I-, MHC class II-, perforin-, B-cell- and IFN-γ- knock-out mice and CD4+ T cell-, CD8+ T cell- and NK cell- depleted mice, we demonstrated that CD4+ T cells and NK cells are the main anti-tumor effectors, and that IFN-γ is a major effector molecule. This mouse tumor model also established the need to repeat recMAGE-A3+AS15 injections to sustain efficient anti-tumor responses. Furthermore, our results indicated that the efficacy of tumor rejection by the elicited anti-MAGE-A3 responses depends on the proportion of tumor cells expressing MAGE-A3.ConclusionsThe recMAGE-A3+AS15 cancer immunotherapy efficiently induced an antigen-specific, functional and long-lasting immune response able to recognize and eliminate MAGE-A3-expressing tumor cells up to several months after the last immunization in mice. The data highlighted the importance of the immunostimulant to induce a Th1-type immune response, as well as the key role played by IFN-γ, CD4+ T cells and NK cells in the anti-tumoral effect.
Highlights
Ever since William Coley’s observations in the 19th century that cancer may be treated by mobilizing the patient’s own immune system, the ultimate goal for cancer immunologists has been to reproducibly achieve this in patients
The data highlighted the importance of the immunostimulant to induce a Th1-type immune response, as well as the key role played by IFN-c, CD4+ T cells and NK cells in the anti-tumoral effect
MAGE-A3, a member of this MAGE-A family, is an attractive tumor antigen, as i) it is almost exclusively expressed in tumors, eliminating the risk of mounting an active immune response against normal tissues, ii) it is expressed in many different cancer types, and iii) it is naturally immunogenic, as CD8+ T lymphocytes specific for MAGE-A3 were found to infiltrate tumor sites in melanoma patients [7]
Summary
Ever since William Coley’s observations in the 19th century that cancer may be treated by mobilizing the patient’s own immune system, the ultimate goal for cancer immunologists has been to reproducibly achieve this in patients. Aberrant gene promoter demethylation is an important mechanism by which the expression of normally silent genes is re-activated in tumor cells This is the case for the MAGEA family of genes that are normally expressed during embryonic life [4] and in the placenta [5,6], but are silent in normal adult tissues, except in the germline cells of the testis [5]. The precise mechanisms and key immune effectors leading to tumor rejection are not known, and no clear immune correlate for clinical efficacy has yet been determined. Nor is it known to which extent the focal pattern of MAGE-A3 expression within a tumor can limit clinical efficacy. Pre-clinical studies remain essential to guide the clinical development of MAGE-A3-specific immunotherapy
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