Molecular Therapy: Methods & Clinical Development (Sep 2021)

Characterization and modulation of anti-αβTCR antibodies and their respective binding sites at the βTCR chain to enrich engineered T cells

  • Guido J.J. Kierkels,
  • Eline van Diest,
  • Patricia Hernández-López,
  • Wouter Scheper,
  • Anja C.M. de Bruin,
  • Elselien Frijlink,
  • Tineke Aarts-Riemens,
  • Sanne F.J. van Dooremalen,
  • Dennis X. Beringer,
  • Rimke Oostvogels,
  • Lovro Kramer,
  • Trudy Straetemans,
  • Wolfgang Uckert,
  • Zsolt Sebestyén,
  • Jürgen Kuball

Journal volume & issue
Vol. 22
pp. 388 – 400

Abstract

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T cell engineering strategies offer cures to patients and have entered clinical practice with chimeric antibody-based receptors; αβT cell receptor (αβTCR)-based strategies are, however, lagging behind. To allow a more rapid and successful translation to successful concepts also using αβTCRs for engineering, incorporating a method for the purification of genetically modified T cells, as well as engineered T cell deletion after transfer into patients, could be beneficial. This would allow increased efficacy, reduced potential side effects, and improved safety of newly to-be-tested lead structures. By characterizing the antigen-binding interface of a good manufacturing process (GMP)-grade anti-αβTCR antibody, usually used for depletion of αβT cells from stem cell transplantation products, we developed a strategy that allows for the purification of untouched αβTCR-engineered immune cells by changing 2 amino acids only in the TCRβ chain constant domain of introduced TCR chains. Alternatively, we engineered an antibody that targets an extended mutated interface of 9 amino acids in the TCRβ chain constant domain and provides the opportunity to further develop depletion strategies of engineered immune cells.

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