Scott McComb, Bianca Dupont, Alex Shepherd, Bigitha Bennychen, Anne Marcil, Laura Tamblyn, Shalini Raphael, Joey Sheff, Greg Hussack, Anna N Moraitis, Cunle Wu, Annie Aubry, Christine Gadoury, Julie Lippens, Martine Pagé, Annie Fortin, Simon Joubert, Linda Lamoureux, Marie Parat, Pierre Plante, Félix Malenfant, Mauro Acchione, Petra Pohankova, Joe Schrag, Andrea Acel, Mathieu Coutu, Emma Smith, Majida El Bakkouri, Jennifer J Hill, Tammy-Lynn Tremblay, Aziza P Manceur, Sharlene Faulkes, John Webb, Ahmed Zafer, Qin Zhu, Tina Nguyen, Robert A Pon, Risini D Weeratna, Mehdi Arbabi-Ghahroudi
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引用次数: 0
Abstract
Background: Production of chimeric antigen receptor T cell (CAR-T) therapies depends on antibody reagents to label, isolate, and expand T cell products. We sought to create antibody tools specific for the variable domain of heavy-chain only antibodies (VHHs), also known as nanobodies, used in some CARs.
Methods: We immunized a mouse with VHH and selected two murine monoclonal antibodies (mAbs) that bind to distinct epitopes in conserved framework regions of llama-derived VHHs, and not to human VH domains. Anti-VHH mAbs were characterized by enzyme-linked immunosorbent assay, surface plasmon resonance, and hydrogen-deuterium exchange mass spectrometry; were then tested for cell/tissue labeling and for modulating cellular activity in VHH-CAR-T cells.
Results: We produced a high-quality dual-clonal anti-VHH antibody product and confirmed reactivity to over 98% of VHH proteins regardless of their antigenic specificity, with no reactivity to human or mouse IgG and reduced reactivity to conventional llama or alpaca IgG. Anti-VHH binding did not disrupt VHH/antigen interaction, and thus was appropriate for secondary labeling to assess cellular or tissue reactivity of VHH molecules. Despite not interfering with antigen binding, anti-VHH antibodies (Abs) potently blocked VHH-CAR-T activation and cytolytic killing of target cells. When immobilized, anti-VHH Abs induced strong activation and expansion of VHH CAR-T cells; with 730-fold mean expansion, >94% CAR purity, and retained CD8/CD4 heterogeneity. Functionally, anti-VHH antibody-expanded CAR-T cells maintained strong antigen-specific activity without functional exhaustion.
Conclusions: Overall, these data identify useful anti-VHH mAbs that can be applied to better understand and manipulate VHH-based CAR-T cells or other VHH-based immunotherapies.
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