A de-risking experimental framework defines the physiological interactome of TCR-based therapeutics in human tissues

Marrer-Berger, Estelle; Nicastri, Annalisa; Augustin, Angélique; Pulko, Vesna; Liao, Hanqing; Duerner, Lydia; Wienzierl, Tina; Cabon, Lauriane; Lezan, Emmanuelle; Klein, Christian; Umaña, Pablo; Woodhouse, Isaac; Bujotzek, Alexander; Ternette, Nicola

doi:10.21203/rs.3.rs-1828302/v1

2022

DOI: 10.21203/rs.3.rs-1828302/v1

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A de-risking experimental framework defines the physiological interactome of TCR-based therapeutics in human tissues

Estelle Marrer-Berger

Annalisa Nicastri

Angélique Augustin

et al.

Abstract: Selective binding of TCR-based therapies that target a single tumour-specific peptide epitope presented by human leukocyte antigens (HLA) is the absolute prerequisite for their therapeutic suitability and patient safety. To date, selectivity assessment has been limited to peptide library screening and predictive computational modeling. We developed the first experimental platform to de novo identify interactomes of TCR-like molecules directly in human tissues using mass spectrometry. As proof of concept, we co… Show more

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Immune-infiltrated kidney organoid-on-chip model for assessing T cell bispecific antibodies

Kroll,

Mata,

Homan

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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T cell bispecific antibodies (TCBs) are the focus of intense development for cancer immunotherapy. Recently, peptide-MHC (major histocompatibility complex)-targeted TCBs have emerged as a new class of biotherapeutics with improved specificity. These TCBs simultaneously bind to target peptides presented by the polymorphic, species-specific MHC encoded by the human leukocyte antigen (HLA) allele present on target cells and to the CD3 coreceptor expressed by human T lymphocytes. Unfortunately, traditional models for assessing their effects on human tissues often lack predictive capability, particularly for “on-target, off-tumor” interactions. Here, we report an immune-infiltrated, kidney organoid-on-chip model in which peripheral blood mononuclear cells (PBMCs) along with nontargeting (control) or targeting TCB-based tool compounds are circulated under flow. The target consists of the RMF peptide derived from the intracellular tumor antigen Wilms’ tumor 1 (WT1) presented on HLA-A2 via a bivalent T cell receptor-like binding domain. Using our model, we measured TCB-mediated CD8 + T cell activation and killing of RMF-HLA-A2-presenting cells in the presence of PBMCs and multiple tool compounds. DP47, a non-pMHC-targeting TCB that only binds to CD3 (negative control), does not promote T cell activation and killing. Conversely, the nonspecific ESK1-like TCB (positive control) promotes CD8 + T cell expansion accompanied by dose-dependent T cell–mediated killing of multiple cell types, while WT1-TCB* recognizing the RMF-HLA-A2 complex with high specificity, leads solely to selective killing of WT1-expressing cells within kidney organoids under flow. Our 3D kidney organoid model offers a platform for preclinical testing of cancer immunotherapies and investigating tissue-immune system interactions.

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Immune-infiltrated kidney organoid-on-chip model for assessing T cell bispecific antibodies

Kroll,

Mata,

Homan

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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A de-risking experimental framework defines the physiological interactome of TCR-based therapeutics in human tissues

Cited by 1 publication

References 34 publications

Immune-infiltrated kidney organoid-on-chip model for assessing T cell bispecific antibodies

Immune-infiltrated kidney organoid-on-chip model for assessing T cell bispecific antibodies

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