<p>Chimeric antigen receptor (CAR) T cells can achieve sustained clinical benefit in B cell malignancies and autoimmune diseases. Despite the many potential advantages over autologous products, allogeneic CAR T cells carry a higher risk of rejection, which may limit persistence and therapeutic efficacy. We report the design and evaluation of an optimized CD70 CAR that prevents rejection of allogeneic CAR T cells by targeting activated alloreactive lymphocytes. Co-expression of this CD70 CAR with a CD19 CAR resulted in sustained CAR T cell persistence in the presence of alloreactive lymphocytes and prolonged antitumor activity in a CD19 antigen escape model. In vivo, CD19/CD70 dual CAR T cells eliminated B cells and CD70<sup>+</sup> T cells derived from patients with systemic lupus erythematosus in humanized mouse models, resulting in reduced immunoglobulin production. An allogeneic CD19/CD70 dual CAR T cell therapy may therefore broaden clinical applicability while enabling the use of less intensive lymphodepleting conditioning regimens prior to CAR T cell infusion.</p>

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Allogeneic CD19 CAR T cells armed with an anti-rejection CD70 CAR overcome antigen escape and evade alloimmune responses

  • Kristen Zhang,
  • Zhe Li,
  • Mark K. O’Dair,
  • David Qu,
  • Adam K. Mealy,
  • Duy Nguyen,
  • Hsin-Yuan Cheng,
  • David Huang,
  • Suhasni Gopalakrishnan,
  • Zachary J. Roberts,
  • Cesar Sommer,
  • Elvin J. Lauron

摘要

Chimeric antigen receptor (CAR) T cells can achieve sustained clinical benefit in B cell malignancies and autoimmune diseases. Despite the many potential advantages over autologous products, allogeneic CAR T cells carry a higher risk of rejection, which may limit persistence and therapeutic efficacy. We report the design and evaluation of an optimized CD70 CAR that prevents rejection of allogeneic CAR T cells by targeting activated alloreactive lymphocytes. Co-expression of this CD70 CAR with a CD19 CAR resulted in sustained CAR T cell persistence in the presence of alloreactive lymphocytes and prolonged antitumor activity in a CD19 antigen escape model. In vivo, CD19/CD70 dual CAR T cells eliminated B cells and CD70+ T cells derived from patients with systemic lupus erythematosus in humanized mouse models, resulting in reduced immunoglobulin production. An allogeneic CD19/CD70 dual CAR T cell therapy may therefore broaden clinical applicability while enabling the use of less intensive lymphodepleting conditioning regimens prior to CAR T cell infusion.