Fusion-negative Rhabdomyosarcoma 3D-organoids as an innovative model to predict resistance to cell death inducers

Author:

Savary Clara,Huchedé Paul,Luciana Léa,Tourbez Arthur,Deligne Clémence,Picard Cécile,Diot Thomas,Coquet Claire,Meynard Nina,Grand Marion Le,Tonon Laurie,Gadot Nicolas,Degletagne Cyril,Léon Sophie,Attignon Valéry,Bomane Alexandra,Rochet Isabelle,Müller Kevin,Mournetas Virginie,Bergeron Christophe,Rinaudo Paul,Dutour Aurélie,Cordier-Bussat Martine,Dijoud Frédérique,Corradini Nadège,Maucort-Boulch DelphineORCID,Pasquier Eddy,Blay Jean-YvesORCID,Castets Marie,Broutier Laura

Abstract

AbstractRhabdomyosarcoma (RMS) is the main form of soft-tissue sarcoma in children and adolescents. For 20 years, and despite international clinical trials, its cure rate has not really improved, and remains stuck at 20% in case of relapse. The definition of new effective therapeutic combinations is hampered by the lack of reliable models, which complicate the transposition of promising results obtained in pre-clinical studies into efficient solutions for young patients. Inter-patient heterogeneity, particularly in the so-called fusion-negative group (FNRMS), adds an additional level of difficulty in optimizing the clinical management of children and adolescents with RMS.Here, we describe an original 3D-organoid model derived from relapsed FNRMS and show that it finely mimics the characteristics of the original tumor, including inter- and intra-tumoral heterogeneity. Moreover, we have established the proof-of-concept of their preclinical potential by re-evaluating the therapeutic opportunities of targeting apoptosis in FNRMS from a streamlined approach based on the exploitation of bulk and single-cell omics data.

Publisher

Cold Spring Harbor Laboratory

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