Please use this identifier to cite or link to this item:http://hdl.handle.net/20.500.12105/19303
Title
A personalized medicine approach identifies enasidenib as an efficient treatment for IDH2 mutant chondrosarcoma
Author(s)
Rey, Verónica | Tornín, Juan | Alba-Linares, Juan Jose | Robledo, Cristina ISCIII | Murillo, Dzohara | Rodríguez, Aida | Gallego, Borja | Huergo, Carmen | Viera, Cristina | Braña, Alejandro | Astudillo, Aurora | Heymann, Dominique | Szuhai, Karoly | Bovée, Judith V M G | Fernández, Agustín F | Fraga, Mario F | Alonso, Javier ISCIII | Rodríguez, René
Date issued
2024-04
Citation
EBioMedicine. 2024 Apr:102:105090.
Language
Inglés
Document type
research article
Abstract
Background: Sarcomas represent an extensive group of malignant diseases affecting mesodermal tissues. Among sarcomas, the clinical management of chondrosarcomas remains a complex challenge, as high-grade tumours do not respond to current therapies. Mutations in the isocitrate dehydrogenase (IDH) 1 and 2 genes are among the most common mutations detected in chondrosarcomas and may represent a therapeutic opportunity. The presence of mutated IDH (mIDH) enzymes results in the accumulation of the oncometabolite 2-HG leading to molecular alterations that contribute to drive tumour growth. Methods: We developed a personalized medicine strategy based on the targeted NGS/Sanger sequencing of sarcoma samples (n = 6) and the use of matched patient-derived cell lines as a drug-testing platform. The anti-tumour potential of IDH mutations found in two chondrosarcoma cases was analysed in vitro, in vivo and molecularly (transcriptomic and DNA methylation analyses). Findings: We treated several chondrosarcoma models with specific mIDH1/2 inhibitors. Among these treatments, only the mIDH2 inhibitor enasidenib was able to decrease 2-HG levels and efficiently reduce the viability of mIDH2 chondrosarcoma cells. Importantly, oral administration of enasidenib in xenografted mice resulted in a complete abrogation of tumour growth. Enasidenib induced a profound remodelling of the transcriptomic landscape not associated to changes in the 5 mC methylation levels and its anti-tumour effects were associated with the repression of proliferative pathways such as those controlled by E2F factors. Interpretation: Overall, this work provides preclinical evidence for the use of enasidenib to treat mIDH2 chondrosarcomas.
Subject
MESH
Chondrosarcoma | Sarcoma | Bone Neoplasms | Aminopyridines | Triazines | Humans | Animals | Mice | Precision Medicine | Isocitrate Dehydrogenase | Mutation
Online version
DOI
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