Evaluating immune response in vitro in a relevant microenvironment: a high-throughput microfluidic model for clinical screening

Author:

Doffe Flora1ORCID,Fuoco Layla2ORCID,Michels Judith3ORCID,Jernström Sandra2ORCID,Tomasi Raphael2,Savagner Pierre1ORCID

Affiliation:

1. INSERM U1186, Integrative Tumor Immunology and Immunotherapy, Gustave Roussy, Faculty of Medicine, University Paris-Saclay, 94805 Villejuif, France

2. Okomera, iPEPS, Pitié-Salpêtrière Medical center, 47 Hôpital Blvd, 75013 Paris, France

3. Oncological Medecine Department, Gustave Roussy, 94805 Villejuif, France

Abstract

Aim: Functional screening of new pharmaceutical compounds requires clinically relevant models to monitor essential cellular and immune responses during cancer progression, with or without treatment. Beyond survival, the emergence of resistant tumor cell clones should also be considered, including specific properties related to plasticity, such as invasiveness, stemness, escape from programmed cell death, and immune response. Numerous pathways are involved in these processes. Defining the relevant ones in the context of a specific tumor type will be key to designing an appropriate combination of inhibitors. However, the diversity and potential redundancy of these pathways remain a challenge for therapy. Methods: A new microfluidic device developed by Okomera was dedicated to the screening of drug treatment for breast cancer. This microchip includes 150 droplet-trapping microwells, offering multi-chip settings and multiple treatment choices. Results: After validating the system with established cell lines and a panel of drugs used clinically at Gustave Roussy, preclinical experiments were initiated including patient-derived xenograft (PDX) and primary tumor cells-derived tumoroids with the collaboration of Gustave Roussy clinicians. Tumor-isolated lymphocytes were also added to the tumoroids, using secondary droplets in proof-of-concept experiments. Conclusions: These results show the relevance of the methodology for screening large numbers of drugs, a wide range of doses, and multiple drug combinations. This methodology will be used for two purposes: 1) new drug screening from the compound library, using the high throughput potential of the chip; and 2) pre-clinical assay for a two-weeks response for personalized medicine, allowing evaluation of drug combinations to flag an optimized treatment with potential clinical application.

Funder

Ligue Contre le Cancer

Agence Nationale de la Recherche

Publisher

Open Exploration Publishing

Subject

General Earth and Planetary Sciences,General Environmental Science

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