Claudia C. Bippes scite author profile

CD4+ and CD8+ T lymphocytes are powerful components of adaptive immunity, which essentially contribute to the elimination of tumors. Due to their cytotoxic capacity, T cells emerged as attractive candidates for specific immunotherapy of cancer. A promising approach is the genetic modification of T cells with chimeric antigen receptors (CARs). First generation CARs consist of a binding moiety specifically recognizing a tumor cell surface antigen and a lymphocyte activating signaling chain. The CAR-mediated recognition induces cytokine production and tumor-directed cytotoxicity of T cells. Second and third generation CARs include signal sequences from various costimulatory molecules resulting in enhanced T-cell persistence and sustained antitumor reaction. Clinical trials revealed that the adoptive transfer of T cells engineered with first generation CARs represents a feasible concept for the induction of clinical responses in some tumor patients. However, further improvement is required, which may be achieved by second or third generation CAR-engrafted T cells.

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Retargeting of regulatory T cells to surface-inducible autoantigen La/SS-B

Koristka¹,

Cartellieri²,

Arndt³

et al. 2013

Journal of Autoimmunity

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Simultaneous engagement of the activatory receptors NKG2D and CD3 for retargeting of effector cells to CD33-positive malignant cells

et al. 2011

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Claudia C. Bippes

Retargeting of T cells to prostate stem cell antigen expressing tumor cells: Comparison of different antibody formats

Chimeric Antigen Receptor-Engineered T Cells for Immunotherapy of Cancer

Retargeting of regulatory T cells to surface-inducible autoantigen La/SS-B

Simultaneous engagement of the activatory receptors NKG2D and CD3 for retargeting of effector cells to CD33-positive malignant cells

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