Litcius/Paper detail

CD33 BiTE® molecule-mediated immune synapse formation and subsequent T-cell activation is determined by the expression profile of activating and inhibitory checkpoint molecules on AML cells

Anetta Marcinek, Bettina Brauchle, Lisa Rohrbacher, Gerulf Hänel, Nora Philipp, Florian Märkl, Thaddäus Strzalkowski, Sonja M. Lacher, Dragica Udiljak, Karsten Spiekermann, Sebastian Theurich, Sebastian Kobold, Roman Kischel, John R. James, Veit Bücklein, Marion Subklewe

2023Cancer Immunology Immunotherapy10 citationsDOIOpen Access PDF

Abstract

) molecules recruit T cells to cancer cells through CD3ε binding, independently of T-cell receptor (TCR) specificity. Whereas physiological T-cell activation is dependent on signal 1 (TCR engagement) and signal 2 (co-stimulation), BiTE molecule-mediated T-cell activation occurs without additional co-stimulation. As co-stimulatory and inhibitory molecules modulate the strength and nature of T-cell responses, we studied the impact of the expression profile of those molecules on target cells for BiTE molecule-mediated T-cell activation in the context of acute myeloid leukemia (AML). Accordingly, we created a novel in vitro model system using murine Ba/F3 cells transduced with human CD33 ± CD86 ± PD-L1. T-cell fitness was assessed by T-cell function assays in co-cultures and immune synapse formation by applying a CD33 BiTE molecule (AMG 330). Using our cell-based model platform, we found that the expression of positive co-stimulatory molecules on target cells markedly enhanced BiTE molecule-mediated T-cell activation. The initiation and stability of the immune synapse between T cells and target cells were significantly increased through the expression of CD86 on target cells. By contrast, the co-inhibitory molecule PD-L1 impaired the stability of BiTE molecule-induced immune synapses and subsequent T-cell responses. We validated our findings in primary T-cell-AML co-cultures, demonstrating a PD-L1-mediated reduction in redirected T-cell activation. The addition of the immunomodulatory drug (IMiD) lenalidomide to co-cultures led to stabilization of immune synapses and improved subsequent T-cell responses. We conclude that target cells modulate CD33 BiTE molecule-dependent T-cell activation and hence, combinatorial strategies might contribute to enhanced efficacy.

Topics & Concepts

T cellImmunological synapseCell biologyCD86Immune systemT-cell receptorJurkat cellsCytotoxic T cellChemistryAntigen-presenting cellBiologyImmunologyIn vitroBiochemistryCAR-T cell therapy researchImmunotherapy and Immune ResponsesImmune Cell Function and Interaction