Orally bioavailable CDK9/2 inhibitor shows mechanism-based therapeutic potential in MYCN-driven neuroblastoma

Evon Poon; Tong Liang; Yann Jamin; Susanne Walz; Colin Kwok; Anne Hakkert; Karen Barker; Zuzanna Urban‐Wójciuk; Khin Thway; Rhamy Zeid; Albert Hallsworth; Gary Box; Marli E. Ebus; Marco P. Licciardello; Yordan Sbirkov; Glori Lazaro; Elizabeth Calton; Barbara Martins Da Costa; Melanie Valenti; Alexis de Haven Brandon; Hannah Webber; Nicolas Tardif; Gilberto S. Almeida; Rossitza Christova; Gunther Boysen; Mark W. Richards; Giuseppe Barone; Anthony M. Ford; Richard Bayliss; Paul A. Clarke; Johann S. de Bono; Nathanael S. Gray; Julian Blagg; Simon P. Robinson; Suzanne A. Eccles; Daniella Zheleva; James E. Bradner; Jan J. Molenaar; Igor Vivanco; Martin Eilers; Paul Workman; Charles Y. Lin; Louis Chesler

doi:10.1172/jci134132

Orally bioavailable CDK9/2 inhibitor shows mechanism-based therapeutic potential in MYCN-driven neuroblastoma

Evon Poon(Institute of Cancer Research), Tong Liang(Baylor College of Medicine), Yann Jamin(Institute of Radiotherapy and Nuclear Medicine), Susanne Walz(Comprehensive Cancer Center Mainfranken), Colin Kwok(Institute of Cancer Research), Anne Hakkert(Institute of Cancer Research), Karen Barker(Institute of Cancer Research), Zuzanna Urban‐Wójciuk(Institute of Cancer Research), Khin Thway(Royal Marsden NHS Foundation Trust), Rhamy Zeid(Dana-Farber Cancer Institute), Albert Hallsworth(Institute of Cancer Research), Gary Box(Institute of Cancer Research), Marli E. Ebus(Princess Máxima Center), Marco P. Licciardello(Institute of Cancer Research), Yordan Sbirkov(Institute of Cancer Research), Glori Lazaro(Institute of Cancer Research), Elizabeth Calton(Institute of Cancer Research), Barbara Martins Da Costa(Institute of Cancer Research), Melanie Valenti(Institute of Cancer Research), Alexis de Haven Brandon(Institute of Cancer Research), Hannah Webber(Institute of Cancer Research), Nicolas Tardif(Institute of Cancer Research), Gilberto S. Almeida(Institute of Cancer Research), Rossitza Christova(Center for Clinical Studies), Gunther Boysen(Center for Clinical Studies), Mark W. Richards(University of Leeds), Giuseppe Barone(Institute of Cancer Research), Anthony M. Ford(Royal Marsden NHS Foundation Trust), Richard Bayliss(University of Leeds), Paul A. Clarke(Institute of Cancer Research), Johann S. de Bono(Center for Clinical Studies), Nathanael S. Gray(Harvard University), Julian Blagg(Institute of Cancer Research), Simon P. Robinson(Institute of Radiotherapy and Nuclear Medicine), Suzanne A. Eccles(Institute of Cancer Research), Daniella Zheleva(Cyclacel Pharmaceuticals (United Kingdom)), James E. Bradner(Harvard University), Jan J. Molenaar(Princess Máxima Center), Igor Vivanco(Institute of Cancer Research), Martin Eilers(Comprehensive Cancer Center Mainfranken), Paul Workman(Institute of Cancer Research), Charles Y. Lin(Baylor College of Medicine), Louis Chesler(Institute of Cancer Research)

Journal of Clinical Investigation

October 5, 2020

10.1172/jci134132

Cited by 70Open Access

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Abstract

The undruggable nature of oncogenic Myc transcription factors poses a therapeutic challenge in neuroblastoma, a pediatric cancer in which MYCN amplification is strongly associated with unfavorable outcome. Here, we show that CYC065 (fadraciclib), a clinical inhibitor of CDK9 and CDK2, selectively targeted MYCN-amplified neuroblastoma via multiple mechanisms. CDK9 - a component of the transcription elongation complex P-TEFb - bound to the MYCN-amplicon superenhancer, and its inhibition resulted in selective loss of nascent MYCN transcription. MYCN loss led to growth arrest, sensitizing cells for apoptosis following CDK2 inhibition. In MYCN-amplified neuroblastoma, MYCN invaded active enhancers, driving a transcriptionally encoded adrenergic gene expression program that was selectively reversed by CYC065. MYCN overexpression in mesenchymal neuroblastoma was sufficient to induce adrenergic identity and sensitize cells to CYC065. CYC065, used together with temozolomide, a reference therapy for relapsed neuroblastoma, caused long-term suppression of neuroblastoma growth in vivo, highlighting the clinical potential of CDK9/2 inhibition in the treatment of MYCN-amplified neuroblastoma.

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