17 DHC 2025
22 - 24 January 2025
Immunology Abstracts (3)
Abstract
Finding and validating new targets for immunotherapy against malignant progenitor T cells
22 January
16:45 17:00
Paper

Finding and validating new targets for immunotherapy against malignant progenitor T cells

Jorik van Rijn (1,2), Britt Meuwissen (1), Caitlyn Forbes (1), Annelisa Cornel (1), Maarten Altelaar (2), Friso Calkoen (1), Kelly Stecker (2), Stefan Niekens (1,3)
(1) Princess Máxima Center for pediatric oncology, Research, Utrecht, (2) Utrecht University, Biomolecular Mass Spectrometry and Proteomics, Utrecht, (3) UMC Utrecht, Center for Translational Immunology, Utrecht
No potential conflicts of interest
Introduction

T lymphoblastic leukemia/lymphoma (T-LBLL) is a malignancy arising from progenitor T-cells, exhibiting a heterogeneous phenotype. Although advancements in chemotherapy regimens have significantly improved overall survival rates, approximately 20% of pediatric and 50% of adult T-LBLL patients still experience relapse or fail to respond to therapy. Given that further intensification of chemotherapy is limited by the risk of high therapy-related mortality, recent research has shifted focus toward developing immunotherapies to effectively treat T-LBLL.

Methods

Current immunotherapy strategies for T-LBLL have largely centered on CAR T-cell therapies, following the success of CD19-targeting CAR T-cells in B-cell malignancies. Clinical trials for T-LBLL primarily target pan-T cell markers such as CD5 and CD7. While these approaches are promising, they also eliminate healthy T-cells, increasing the risk of life-threatening infections and necessitating subsequent allogeneic stem cell transplantation. Another promising target is CD1a, a marker specific to progenitor T-cells, but it is present in only around 40% of T-LBLL cases, leaving a significant portion of patients without targeted therapy options. To address this gap, we employed a glycan labeling-based shotgun proteomics approach to comprehensively characterize surface antigens of malignant and healthy progenitor T-cells. This analysis enabled the identification of novel targets enriched on T-LBLL cells from 10 cell lines, 3 PDX cell lines, and 5 patients. We applied a standardized protocol for developing CAR T-cells and evaluated the in vitro cytotoxic potential of these targets against T-LBLL.

Results

Our proteomic analysis of this small cohort revealed 37 new potential surface antigens for immunotherapy against T-LBLL, with low or absent expression in healthy T-cells and non-thymus tissues. These markers were validated for expression on a larger patient population using diagnostic transcriptomic datasets from our center. Preliminary experiments demonstrate that targeting these new markers with CAR T-cells can elicit a potent cytotoxic response. In vitro, this new CAR T-cell showed similar killing efficacy to that observed in CD1a-targeting CAR therapies.

Conclusion

This study validates glycan labeling-based surface proteomics as a promising method to identify new immunotherapeutic targets. Using this method, we identified 37 new markers as promising immunotherapy targets for T-LBLL, offering a potential treatment option for a broader range of patients compared to CD1a-targeting therapies. Further clinical evaluation is warranted to validate these findings and assess the safety and efficacy of CAR T-cells targeting these new markers.

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