Abstract

Abstract Recent advances in cancer immunotherapy have positively impacted the life expectancy of patients for an extensive range of clinical indications. With new treatment strategies and druggable targets being identified at an increasing pace, the number of patients eligible for cancer immunotherapy is expected to expand steadily. However, promising therapeutic developments face hurdles in translating preclinical findings into therapy since conventional 2D cancer models hold low clinical predictive value. HUB developed an innovative alternative, building on the discovery that adult stem cells proliferate and organise into three-dimensional organotypic structures when embedded into the extracellular matrix. Patient-derived organoids are generated from healthy and malignant tissues, and they recapitulate complex characteristics of the original parental tissue, including molecular heterogeneity and morphological and functional traits. Cell therapies have achieved positive results in treating haematological cancers. Recently, the unique tumour-targeting properties of γδ T cell receptors have been leveraged to develop safer and more effective strategies. HUB and Gadeta joined efforts to explore the therapeutic potential of GDT002 - i.e. αβ T cells engineered with a Gadeta proprietary new γδTCR - to target solid cancers. A preclinical basket trial was performed using patient-derived organoids from several tumour types (colorectal, breast, head and neck, ovarian cancers) cocultured with GDT002. The results showed broad reactivity of GDT002 against solid tumor PDOs. Interestingly, GDT002 was particularly efficient at killing ovarian cancer-derived PDOs, allowing Gadeta to move GDT002 to clinical trials for this indication confidently. This study reveals that our tumor organoid co-culture with engineered T cells platform holds significant value for the preclinical development of cellular therapies. Citation Format: Andrea Bisso, Rene Overmeer, Sjoerd Baardman, Chris Coomans, Cesar Oyarce, Sylvia F. Boj. A patient-derived organoid platform to assess the effectiveness of γδTCR cell therapy in solid tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3611.

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