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Re-examination of MAGE-A3 as a T-cell Therapeutic Target

Aaron D. Martin, Xueyin Wang, Mark L. Sandberg, Kathleen R. Negri, Ming L. Wu, Dora Toledo Warshaviak, Grant B. Gabrelow, Michele E. McElvain, Bella Lee, Mark E. Daris, Han Xu, Alexander Kamb

2020Journal of Immunotherapy29 citationsDOIOpen Access PDF

Abstract

In 2013, an innovative MAGE-A3-directed cancer therapeutic of great potential value was terminated in the clinic because of neurotoxicity. The safety problems were hypothesized to originate from off-target T-cell receptor activity against a closely related MAGE-A12 peptide. A combination of published and new data led us to test this hypothesis with current technology. Our results call into question MAGE-A12 as the source of the neurotoxicity. Rather, the data imply that an alternative related peptide from EPS8L2 may be responsible. Given the qualities of MAGE-A3 as an onco-testis antigen widely expressed in tumors and largely absent from normal adult tissues, these findings suggest that MAGE-A3 may deserve further consideration as a cancer target. As a step in this direction, the authors isolated 2 MAGE-A3 peptide-major histocompatibility complex-directed chimeric antigen receptors, 1 targeting the same peptide as the clinical T-cell receptor. Both chimeric antigen receptors have improved selectivity over the EPS8L2 peptide that represents a significant risk for MAGE-A3-targeted therapeutics, showing that there may be other options for MAGE-A3 cell therapy.

Topics & Concepts

Chimeric antigen receptorAntigenPeptideReceptorMajor histocompatibility complexMedicineCancerImmunologyCancer researchImmunotherapyHistocompatibilityCancer cellCancer therapyT-cell receptorCellComputational biologyOncologyCytotoxic T cellCancer immunotherapyBiologyValue (mathematics)Clinical trialAntigen presentationAntigen-presenting cellBioinformaticsT cellTumor associated antigenFusion proteinTherapeutic approachImmunotherapy and Immune ResponsesPhagocytosis and Immune RegulationCAR-T cell therapy research
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