High-Throughput Drug Screening Identifies Pazopanib and Clofilium Tosylate as Promising Treatments for Malignant Rhabdoid Tumors
Céline Chauvin,
Amaury Leruste,
Arnault Tauziede-Espariat,
Mamy Andrianteranagna,
Didier Surdez,
Aurianne Lescure,
Zhi-Yan Han,
Elodie Anthony,
Wilfrid Richer,
Sylvain Baulande,
Mylène Bohec,
Sakina Zaidi,
Marie-Ming Aynaud,
Laetitia Maillot,
Julien Masliah-Planchon,
Stefano Cairo,
Sergio Roman-Roman,
Olivier Delattre,
Elaine Del Nery,
Franck Bourdeaut
Affiliations
Céline Chauvin
Paris-Sciences-Lettres Research University, Institut Curie Research Center, SiRIC, Laboratory of Translational Research in Pediatric Oncology, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Amaury Leruste
Paris-Sciences-Lettres Research University, Institut Curie Research Center, SiRIC, Laboratory of Translational Research in Pediatric Oncology, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Arnault Tauziede-Espariat
Sainte-Anne Hospital, Department of Neuropathology, Paris 75005, France
Mamy Andrianteranagna
Paris-Sciences-Lettres Research University, Institut Curie Research Center, SiRIC, Laboratory of Translational Research in Pediatric Oncology, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Didier Surdez
Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Aurianne Lescure
Paris-Sciences-Lettres Research University, Institut Curie, Department of Translational Research, the Biophenics High-Content Screening Laboratory, Cell and Tissue Imaging Facility (PICT-IBiSA), Paris 75005, France
Zhi-Yan Han
Paris-Sciences-Lettres Research University, Institut Curie Research Center, SiRIC, Laboratory of Translational Research in Pediatric Oncology, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Elodie Anthony
Paris-Sciences-Lettres Research University, Institut Curie, Department of Translational Research, the Biophenics High-Content Screening Laboratory, Cell and Tissue Imaging Facility (PICT-IBiSA), Paris 75005, France
Wilfrid Richer
Paris-Sciences-Lettres Research University, Institut Curie Research Center, SiRIC, Laboratory of Translational Research in Pediatric Oncology, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Sylvain Baulande
Paris-Sciences-Lettres Research University, Institut Curie, Next Generation Sequencing Platform, Paris 75005, France
Mylène Bohec
Paris-Sciences-Lettres Research University, Institut Curie, Next Generation Sequencing Platform, Paris 75005, France
Sakina Zaidi
Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Marie-Ming Aynaud
Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France
Laetitia Maillot
Paris-Sciences-Lettres Research University, Institut Curie, Laboratory of Somatic Genetics, Paris 75005, France
Julien Masliah-Planchon
Paris-Sciences-Lettres Research University, Institut Curie, Laboratory of Somatic Genetics, Paris 75005, France
Stefano Cairo
LTTA Center, Department of Morphology, Surgery and Experimental Medicine, University of Ferrara, Ferrara 44121, Italy; XenTech, Evry 91000, France
Sergio Roman-Roman
Paris-Sciences-Lettres Research University, Institut Curie, Department of Translational Research, the Biophenics High-Content Screening Laboratory, Cell and Tissue Imaging Facility (PICT-IBiSA), Paris 75005, France
Olivier Delattre
Paris-Sciences-Lettres Research University, Institut Curie Research Center, SiRIC, Laboratory of Translational Research in Pediatric Oncology, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie, Laboratory of Somatic Genetics, Paris 75005, France
Elaine Del Nery
Paris-Sciences-Lettres Research University, Institut Curie, Department of Translational Research, the Biophenics High-Content Screening Laboratory, Cell and Tissue Imaging Facility (PICT-IBiSA), Paris 75005, France
Franck Bourdeaut
Paris-Sciences-Lettres Research University, Institut Curie Research Center, SiRIC, Laboratory of Translational Research in Pediatric Oncology, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Research Center, INSERM U830, Laboratory of Biology and Genetics of Cancers, Paris 75005, France; Paris-Sciences-Lettres Research University, Institut Curie Hospital, Department of Pediatric Oncology- Adolescents and Young Adults, Paris 75005, France; Corresponding author
Summary: Rhabdoid tumors (RTs) are aggressive tumors of early childhood characterized by SMARCB1 inactivation. Their poor prognosis highlights an urgent need to develop new therapies. Here, we performed a high-throughput screening of approved drugs and identified broad inhibitors of tyrosine kinase receptors (RTKs), including pazopanib, and the potassium channel inhibitor clofilium tosylate (CfT), as SMARCB1-dependent candidates. Pazopanib targets were identified as PDGFRα/β and FGFR2, which were the most highly expressed RTKs in a set of primary tumors. Combined genetic inhibition of both these RTKs only partially recapitulated the effect of pazopanib, emphasizing the requirement for broad inhibition. CfT perturbed protein metabolism and endoplasmic reticulum stress and, in combination with pazopanib, induced apoptosis of RT cells in vitro. In vivo, reduction of tumor growth by pazopanib was enhanced in combination with CfT, matching the efficiency of conventional chemotherapy. These results strongly support testing pazopanib/CfT combination therapy in future clinical trials for RTs. : Rhabdoid tumors (RTs) are aggressive pediatric tumors characterized by SMARCB1 inactivation. Chauvin et al. identify two SMARCB1-dependent targeted therapies for RT: pazopanib, which inhibits PDGFR and FGFR2, and the potassium channel inhibitor clofilium tosylate, which induces endoplasmic reticulum stress. Combining both drugs induces cell apoptosis and reduces PDX tumor growth. Keywords: rhabdoid tumors, SMARCB1, pazopanib, clofilium tosylate, high-throughput drug screening, tyrosine kinase inhibitors
