Patient-derived micro-organospheres enable clinical precision oncology
Publication date
2022-06-02
Authors
Ding, Shengli
Hsu, Carolyn
Wang, Zhaohui
Natesh, Naveen R.
Millen, Rosemary
Negrete, Marcos
Giroux, Nicholas
Rivera, Grecia O.
Dohlman, Anders
Bose, Shree
Editors
Advisors
Supervisors
Document Type
Article
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taverne
Abstract
Patient-derived xenografts (PDXs) and patient-derived organoids (PDOs) have been shown to model clinical response to cancer therapy. However, it remains challenging to use these models to guide timely clinical decisions for cancer patients. Here, we used droplet emulsion microfluidics with temperature control and dead-volume minimization to rapidly generate thousands of micro-organospheres (MOSs) from low-volume patient tissues, which serve as an ideal patient-derived model for clinical precision oncology. A clinical study of recently diagnosed metastatic colorectal cancer (CRC) patients using an MOS-based precision oncology pipeline reliably assessed tumor drug response within 14 days, a timeline suitable for guiding treatment decisions in the clinic. Furthermore, MOSs capture original stromal cells and allow T cell penetration, providing a clinical assay for testing immuno-oncology (IO) therapies such as PD-1 blockade, bispecific antibodies, and T cell therapies on patient tumors.
Keywords
adoptive cell therapy, bispecific antibody, colorectal cancer, droplet microfluidics, immune-oncology, lung cancer, micro-organosphere, precision medicine, precision oncology, tumorsphere, Taverne, Molecular Medicine, Genetics, Cell Biology
Citation
Ding, S, Hsu, C, Wang, Z, Natesh, N R, Millen, R, Negrete, M, Giroux, N, Rivera, G O, Dohlman, A, Bose, S, Rotstein, T, Spiller, K, Yeung, A, Sun, Z, Jiang, C, Xi, R, Wilkin, B, Randon, P M, Williamson, I, Nelson, D A, Delubac, D, Oh, S, Rupprecht, G, Isaacs, J, Jia, J, Chen, C, Shen, J P, Kopetz, S, McCall, S, Smith, A, Gjorevski, N, Walz, A C, Antonia, S, Marrer-Berger, E, Clevers, H, Hsu, D & Shen, X 2022, 'Patient-derived micro-organospheres enable clinical precision oncology', Cell stem cell, vol. 29, no. 6, pp. 905-917.e6. https://doi.org/10.1016/j.stem.2022.04.006