Litcius/Paper detail

Addressing Doxorubicin Resistance in Bone Sarcomas Using Novel Drug-Resistant Models

Borja Gallego, Dzohara Murillo, Verónica Rey, Carmen Huergo, Óscar Estupiñán, Aida Rodríguez, Juan Tornín, René Rodrı́guez

2022International Journal of Molecular Sciences16 citationsDOIOpen Access PDF

Abstract

Bone sarcomas have not shown a significant improvement in survival for decades, due, in part, to the development of resistance to current systemic treatments, such as doxorubicin. To better understand those mechanisms mediating drug-resistance we generated three osteosarcoma and one chondrosarcoma cell lines with a stable doxorubicin-resistant phenotype, both in vitro and in vivo. These resistant strains include a pioneer model generated from a patient-derived chondrosarcoma line. The resistant phenotype was characterized by a weaker induction of apoptosis and DNA damage after doxorubicin treatment and a lower migratory capability. In addition, all resistant lines expressed higher levels of ABC pumps; meanwhile, no clear trends were found in the expression of anti-apoptotic and stem cell-related factors. Remarkably, upon the induction of resistance, the proliferation potential was reduced in osteosarcoma lines but enhanced in the chondrosarcoma model. The exposure of resistant lines to other anti-tumor drugs revealed an increased response to cisplatin and/or methotrexate in some models. Finally, the ability to retain the resistant phenotype in vivo was confirmed in an osteosarcoma model. Altogether, this work evidenced the co-existence of common and case-dependent phenotypic traits and mechanisms associated with the development of resistance to doxorubicin in bone sarcomas.

Topics & Concepts

OsteosarcomaDoxorubicinChondrosarcomaBone SarcomaCancer researchIn vivoSarcomaCisplatinDrug resistanceCell culturePhenotypeBiologyApoptosisChemotherapyMedicinePathologyGeneGeneticsSarcoma Diagnosis and TreatmentMolecular Biology Techniques and ApplicationsCancer Genomics and Diagnostics