An approved in vitro approach to preclinical safety and efficacy evaluation of engineered T cell receptor anti-CD3 bispecific (ImmTAC) molecules.

Jane Harper,Dan Blat,Joseph Dukes,Karolina A Rygiel,Namir J Hassan,Alex S Powlesland,Martina Canestraro,Katherine J Adams,Ruth Martinez-Hague,Joseph P Sanderson,Gabrielle S Le Provost,Annelise Vuidepot,Hazel Buchanan,Nicole Bedke,Laure Humbert,Bent K Jakobsen,Kate L Lowe,Ricardo J Carreira,Zoe Donnellan,Giovanna Bossi,Brian Cameron ,Andrea Stacey ,Sophie Botta Gordon‐Smith ,Luise Weigand ,Debbie Wright ,Samantha Paston

doi:10.1371/journal.pone.0205491

Jane Harper, Dan Blat + Show 24 more

Open Access

https://doi.org/10.1371/journal.pone.0205491

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Abstract

Robust preclinical testing is essential to predict clinical safety and efficacy and provide data to determine safe dose for first-in-man studies. There are a growing number of examples where the preclinical development of drugs failed to adequately predict clinical adverse events in part due to their assessment with inappropriate preclinical models. Preclinical investigations of T cell receptor (TCR)-based immunotherapies prove particularly challenging as these biologics are human-specific and thus the conventional testing in animal models is inadequate. As these molecules harness the full force of the immune system, and demonstrate tremendous potency, we set out to design a preclinical package that would ensure adequate evaluation of these therapeutics. Immune Mobilising Monoclonal TCR Against Cancer (ImmTAC) molecules are bi-specific biologics formed of an affinity-enhanced TCR fused to an anti-CD3 effector function. ImmTAC molecules are designed to activate human T lymphocytes and target peptides within the context of a human leukocyte antigen (HLA), thus require an intact human immune system and peptidome for suitable preclinical screening. Here we draw upon the preclinical testing of four ImmTAC molecules, including IMCgp100, the first ImmTAC molecule to reach the clinic, to present our comprehensive, informative and robust approach to in vitro preclinical efficacy and safety screening. This package comprises a broad range of cellular and molecular assays using human tissues and cultured cells to test efficacy, safety and specificity, and hence predict human responses in clinical trials. We propose that this entirely in vitro package offers a potential model to be applied to screening other TCR-based biologics.

Highlights

The immune system, when harnessed, is the most powerful weapon we have against cancer
Indication-relevant tumour cells expressing peptide: HLA (pHLA) antigen (Ag+) target are screened using a range of sensitive T cell activation and T cell-mediated killing assays (Fig 1A)
Immune Mobilising Monoclonal TCR Against Cancer (ImmTAC) molecules are entirely human-specific, targeting human pHLA complexes with an anti-CD3 effector function that activates human T cells, conventional preclinical animal models are inappropriate to support clinical studies

Summary

Introduction

The immune system, when harnessed, is the most powerful weapon we have against cancer. Aberrant tumour cells are capable of immune evasion. Therapies that activate the immune system, such as IL-2, TNFα or monoclonal antibodies against immune checkpoint molecules CTLA-4 and PD-1, have demonstrated long-lasting clinical benefit [3]. Immune checkpoint modulators have shown particular promise, functioning to release the brakes on the immune system and restore T cell cytotoxic anti-tumour activity [4]. Antigen-targeted approaches in the form of monoclonal antibodies, bispecific molecules, chimeric antigen receptor (CAR) T cells or T cell receptor (TCR)-based therapies have shown varied success against specific cancers [2, 5]

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