Enhancing The Efficacy and Specificity Of Antibody-Based T Cell Retargeting Strategies Against Hematological Malignancies

New promising candidates for cancer immunotherapy are bispecific antibodies (bsAbs) which have already shown a convincing anti-tumor effect in first clinical trials. BsAbs are composed of two single-chain fragments variable (scFvs), derived from the variable heavy and light chain of a monoclonal Ab...

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Published in:Blood 2013-11, Vol.122 (21), p.930-930
Main Authors: Arndt, Claudia, Cartellieri, Marc, Aliperta, Roberta, Koristka, Stefanie, Michalk, Irene, Bornhäuser, Martin, Ehninger, Gerhard, Bachmann, Michael, Feldmann, Anja
Format: Article
Language:English
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Summary:New promising candidates for cancer immunotherapy are bispecific antibodies (bsAbs) which have already shown a convincing anti-tumor effect in first clinical trials. BsAbs are composed of two single-chain fragments variable (scFvs), derived from the variable heavy and light chain of a monoclonal Ab (mAb), which bind to the activating CD3-complex on T cells and a tumor-associated antigen (TAA) on cancer cells. Consequently, the cross-linkage of effector and target cells by bsAbs results in an efficient T cell-mediated cancer cell killing. However, several serious adverse effects were observed in patients after application of Ab constructs. Most critical is an overall activation of T cells which bears the risk of a systemic release of pro-inflammatory cytokines. With respect to the idea that the CD3 binding of an Ab construct is critical for T cell activation, the CD3 domain has to be optimized in order to prevent or even reduce unspecific T cell responses. For this reason, we cloned several anti-CD3 scFvs derived from different anti-CD3 mAb clones and compared their functionality and safety. The anti-CD3 scFv with lowest risk of side effects was introduced in different anti-TAA bsAbs. Functional and safety studies in vitro revealed that development of each bsAb requires extensive and time-consuming optimization steps to gain high efficacy but low risk of side effects. To improve the process of Ab engineering, we recently introduced a novel modular Ab platform that can be rapidly and cost-effectively adapted for redirection of T cells to any TAA (Arndt and Feldmann et al. accepted for publication in Leukemia 2013). In this novel modular system the dual specificity of a conventional bsAb is distributed to two separate Ab modules, (i) the effector module and (ii) the target module. Only the complex of both Ab modules mediates the cross-linkage of effector and target cells resulting in T cell activation and redirected cancer cell lysis similar to conventional T cell engaging bsAbs. The universal effector module is a well optimized bsAb balancing efficacy and safety. It binds CD3 on T cells and the E5B9 tag of the target module. The individual target module comprises an anti-TAA scFv and the peptide epitope E5B9. For treatment of lymphoid or myeloid malignancies a series of different target modules were designed. In vitro and in vivo data clearly underline that the combination of the established effector module with different target modules efficiently activated
ISSN:0006-4971
1528-0020
DOI:10.1182/blood.V122.21.930.930