1. Avidity optimization of a MAGE‐A1‐specific TCR with somatic hypermutation
- Author
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Lea Eisenbach, Lidor Bitan, Erez Greenstein, David Bassan, Yosi Gozlan, Adi Sharbi-Yunger, Esther Tzehoval, and Nir Friedman
- Subjects
Cytotoxicity, Immunologic ,0301 basic medicine ,Adoptive cell transfer ,Immunomodulation and immune therapies ,T-Lymphocytes ,medicine.medical_treatment ,Immunology ,Receptors, Antigen, T-Cell ,Somatic hypermutation ,chemical and pharmacologic phenomena ,Biology ,Lymphocyte Activation ,Cancer Vaccines ,Immunotherapy, Adoptive ,Interferon-gamma ,03 medical and health sciences ,0302 clinical medicine ,HLA-A2 Antigen ,medicine ,Humans ,Point Mutation ,Immunology and Allergy ,Avidity ,Basic ,Cells, Cultured ,Research Articles ,T-cell receptor ,Immunotherapy ,Peptide Fragments ,Tumor antigen ,Neoplasm Proteins ,030104 developmental biology ,HLA‐A2 ,somatic hypermutation (SHM) ,Central Tolerance ,Cancer research ,MAGE‐A1 ,Cancer/testis antigens ,Research Article|Basic ,affinity ,Somatic Hypermutation, Immunoglobulin ,Central tolerance ,TCR ,Protein Binding ,030215 immunology - Abstract
A T‐cell receptor (TCR) with optimal avidity to a tumor antigen can be used to redirect T cells to eradicate cancer cells via adoptive cell transfer. Cancer testis antigens (CTAs) are attractive targets because they are expressed in the testis, which is immune‐privileged, and in the tumor. However, CTAs are self‐antigens and natural TCRs to CTAs have low affinity/avidity due to central tolerance. We previously described a method of directed evolution of TCR avidity using somatic hypermutation. In this study, we made several improvements to this method and enhanced the avidity of the hT27 TCR, which is specific for the cancer testis antigen HLA‐A2‐MAGE‐A1278‐286. We identified eight point mutations with varying degrees of improved avidity. Human T cells transduced with TCRs containing these mutations displayed enhanced tetramer binding, IFN‐γ and IL2 production, and cytotoxicity. Most of the mutations have retained specificity, except for one mutant with extremely high avidity. We demonstrate that somatic hypermutation is capable of optimizing avidity of clinically relevant TCRs for immunotherapy., The human hT27 TCR recognizes the cancer testis antigen HLA‐A2‐MAGE‐A1278‐286 with low affinity and avidity. We enhanced the avidity of this TCR using somatic hypermutation (SHM) in BWZ.36‐derived cells, a T‐cell line. The resulting mutant TCRs had vastly improved anti‐tumor activity and are better suited for cancer immunotherapy.
- Published
- 2021
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