Mesenchymal tumor organoid models recapitulate rhabdomyosarcoma subtypes
Meister, Michael T.; Groot Koerkamp, Marian J.A.; de Souza, Terezinha; Breunis, Willemijn B.; Frazer-Mendelewska, Ewa; Brok, Mariël; DeMartino, Jeff; Manders, Freek; Calandrini, Camilla; Kerstens, Hinri H.D.; Janse, Alex; Dolman, M. Emmy M.; Eising, Selma; Langenberg, Karin P.S.; van Tuil, Marc; Knops, Rutger R.G.; van Scheltinga, Sheila Terwisscha; Hiemcke-Jiwa, Laura S.; Flucke, Uta; Merks, Johannes H.M.; van Noesel, Max M.; Tops, Bastiaan B.J.; Hehir-Kwa, Jayne Y.; Kemmeren, Patrick; Molenaar, Jan J.; van de Wetering, Marc; van Boxtel, Ruben; Drost, Jarno; Holstege, Frank C.P.
(2022) EMBO Molecular Medicine, volume 14, issue 10, pp. 1 - 23
(Article)
Abstract
Rhabdomyosarcomas (RMS) are mesenchyme-derived tumors and the most common childhood soft tissue sarcomas. Treatment is intense, with a nevertheless poor prognosis for high-risk patients. Discovery of new therapies would benefit from additional preclinical models. Here, we describe the generation of a collection of 19 pediatric RMS tumor organoid (tumoroid) models
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(success rate of 41%) comprising all major subtypes. For aggressive tumors, tumoroid models can often be established within 4–8 weeks, indicating the feasibility of personalized drug screening. Molecular, genetic, and histological characterization show that the models closely resemble the original tumors, with genetic stability over extended culture periods of up to 6 months. Importantly, drug screening reflects established sensitivities and the models can be modified by CRISPR/Cas9 with TP53 knockout in an embryonal RMS model resulting in replicative stress drug sensitivity. Tumors of mesenchymal origin can therefore be used to generate organoid models, relevant for a variety of preclinical and clinical research questions.
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Keywords: CRISPR/Cas9, drug screening, mesenchymal, rhabdomyosarcoma, tumoroid, Molecular Medicine
ISSN: 1757-4676
Publisher: Wiley-Blackwell
Note: Funding Information: We thank the patients and their parents for contributing by consenting to this study; the nurses, doctors, and other health care professionals in our institute with whom we work closely; our center's high‐throughput screening facility, in particular Bianca Koopmans, Kimberley Ober, and Sander van Hooff; Philip Lijnzaad, Thanasis Margaritis, and Tito Candelli from our center's single‐cell genomics facility, as well as past and present members of the Holstege group. MTM received financial support from the Deutsche Forschungsgemeinschaft (#408083583). CC was supported by Children Cancer‐free Foundation (Stichting Kinderen Kankervrij; #292). JDr received support from the European Research Council (ERC) starting grant #850571 and the Dutch Cancer Society (KWF)/Alpe d'HuZes Bas Mulder award (#10218). We are grateful for the financial support provided by the Foundation Children Cancer‐free (Stichting Kinderen Kankervrij core funding). Publisher Copyright: © 2022 The Authors. Published under the terms of the CC BY 4.0 license.
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