Application of dual affinity retargeting molecules to achieve optimal redirected T-cell killing of B-cell lymphoma

Author:

Moore Paul A.1,Zhang Wenjun1,Rainey G. Jonah1,Burke Steve1,Li Hua1,Huang Ling1,Gorlatov Sergey1,Veri Maria Concetta1,Aggarwal Sudeepta1,Yang Yinhua1,Shah Kalpana1,Jin Linda1,Zhang Sunan1,He Leilei1,Zhang Tengfei1,Ciccarone Valentina1,Koenig Scott1,Bonvini Ezio1,Johnson Syd1

Affiliation:

1. MacroGenics Inc, Rockville, MD

Abstract

Abstract We describe the application of a novel, bispecific antibody platform termed dual affinity retargeting (DART) to eradicate B-cell lymphoma through coengagement of the B cell–specific antigen CD19 and the TCR/CD3 complex on effector T cells. Comparison with a single-chain, bispecific antibody bearing identical CD19 and CD3 antibody Fv sequences revealed DART molecules to be more potent in directing B-cell lysis. The enhanced activity with the CD19xCD3 DART molecules was observed on all CD19-expressing target B cells evaluated using resting and prestimulated human PBMCs or purified effector T-cell populations. Characterization of a CD19xTCR bispecific DART molecule revealed equivalent potency with the CD19xCD3 DART molecule, demonstrating flexibility of the DART structure to support T-cell/B-cell associations for redirected T cell–killing applications. The enhanced level of killing mediated by DART molecules was not accompanied by any increase in nonspecific T-cell activation or lysis of CD19− cells. Cell-association studies indicated that the DART architecture is well suited for maintaining cell-to-cell contact, apparently contributing to the high level of target cell killing. Finally, the ability of the CD19xTCR DART to inhibit B-cell lymphoma in NOD/SCID mice when coadministered with human PBMCs supports further evaluation of DART molecules for the treatment of B-cell malignancies.

Publisher

American Society of Hematology

Subject

Cell Biology,Hematology,Immunology,Biochemistry

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