Inhibition of Myc family proteins eradicates KRas-driven lung cancer in mice
Laura Soucek,Laura Soucek,Jonathan Whitfield,Jonathan Whitfield,Nicole M. Sodir,Nicole M. Sodir,Daniel Massó-Vallés,Erika Serrano,Anthony N. Karnezis,Lamorna Brown Swigart,Gerard I. Evan,Gerard I. Evan +11 more
TLDR
It is demonstrated that metronomic Myc inhibition not only contains Ras-driven lung tumors indefinitely, but also leads to their progressive eradication, endorsing Myc as a compelling cancer drug target.Abstract:
The principal reason for failure of targeted cancer therapies is the emergence of resistant clones that regenerate the tumor. Therapeutic efficacy therefore depends on not only how effectively a drug inhibits its target, but also the innate or adaptive functional redundancy of that target and its attendant pathway. In this regard, the Myc transcription factors are intriguing therapeutic targets because they serve the unique and irreplaceable role of coordinating expression of the many diverse genes that, together, are required for somatic cell proliferation. Furthermore, Myc expression is deregulated in most—perhaps all—cancers, underscoring its irreplaceable role in proliferation. We previously showed in a preclinical mouse model of non-small-cell lung cancer that systemic Myc inhibition using the dominant-negative Myc mutant Omomyc exerts a dramatic therapeutic impact, triggering rapid regression of tumors with only mild and fully reversible side effects. Using protracted episodic expression of Omomyc, we now demonstrate that metronomic Myc inhibition not only contains Ras-driven lung tumors indefinitely, but also leads to their progressive eradication. Hence, Myc does indeed serve a unique and nondegenerate role in lung tumor maintenance that cannot be complemented by any adaptive mechanism, even in the most aggressive p53-deficient tumors. These data endorse Myc as a compelling cancer drug target.read more
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References
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BET Bromodomain Inhibition as a Therapeutic Strategy to Target c-Myc
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Erica L. Jackson,Nicholas A. Willis,Kim L. Mercer,Roderick T. Bronson,Denise Crowley,Raymond Montoya,Tyler Jacks,David A. Tuveson +7 more
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RNAi screen identifies Brd4 as a therapeutic target in acute myeloid leukaemia
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Endogenous oncogenic K-rasG12D stimulates proliferation and widespread neoplastic and developmental defects
David A. Tuveson,Alice T. Shaw,Alice T. Shaw,Alice T. Shaw,Nicholas A. Willis,Daniel P. Silver,Erica L. Jackson,Sandy Chang,Kim L. Mercer,Rebecca Grochow,Hanno Hock,Denise Crowley,Sunil R. Hingorani,Tal Z. Zaks,Catrina King,Michael A. Jacobetz,Lifu Wang,Roderick T. Bronson,Stuart H. Orkin,Stuart H. Orkin,Ronald A. DePinho,Tyler Jacks +21 more
TL;DR: It is demonstrated that the conditional expression of an endogenous K-ras(G12D) allele in murine embryonic fibroblasts causes enhanced proliferation and partial transformation in the absence of further genetic abnormalities.
Journal ArticleDOI
Modelling Myc inhibition as a cancer therapy
Laura Soucek,Jonathan Whitfield,Carla P. Martins,Andrew J. Finch,Daniel J. Murphy,Nicole M. Sodir,Anthony N. Karnezis,Lamorna Brown Swigart,Sergio Nasi,Gerard I. Evan +9 more
TL;DR: It is shown that Myc inhibition triggers rapid regression of incipient and established lung tumours, defining an unexpected role for endogenous Myc function in the maintenance of Ras-dependent tumours in vivo.
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