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DOI: 10.1126/science.1241328
¤ OpenAccess: Green
This work has “Green” OA status. This means it may cost money to access on the publisher landing page, but there is a free copy in an OA repository.
Targeted Therapy Resistance Mediated by Dynamic Regulation of Extrachromosomal Mutant EGFR DNA
David Nathanson,Beatrice Gini,Jack Mottahedeh,Koppany Visnyei,Tomoyuki Koga,German G. Gomez,Ascia Eskin,Kiwook Hwang,Jun Wang,Kenta Masui,Andres A. Paucar,Huijun Yang,Masao Ohashi,Shaojun Zhu,Jill Wykosky,Rachel Reed,Stanley F. Nelson,Timothy F. Cloughesy,C. David James,P. Nagesh Rao,Harley I. Kornblum,James R. Heath,Webster K. Cavenee,Frank B. Furnari,Paul S. Mischel
Extrachromosomal DNA
Erlotinib
Epidermal growth factor receptor
2014
Playing Hide and Seek Targeted cancer therapies have shown promising results in patients, but few of these drugs provide long-term benefits because tumor cells rapidly develop drug resistance. Nathanson et al. (p. 72 , published online 5 December) show that glioblastoma cells can become resistant to erlotinib, an epidermal growth factor receptor (EGFR)–targeted drug, by eliminating extrachromosomal copies of the mutant EGFR gene. After a period of drug withdrawal, the mutant EGFR gene reappears on extrachromosomal DNA and the tumor cells become resensitized. The discovery that cancer cells can evade drug therapy by this “hide and seek” mechanism may help to optimize the dosing schedule of erlotinib in glioblastoma patients.
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“Targeted Therapy Resistance Mediated by Dynamic Regulation of Extrachromosomal Mutant EGFR DNA” is a paper by David Nathanson Beatrice Gini Jack Mottahedeh Koppany Visnyei Tomoyuki Koga German G. Gomez Ascia Eskin Kiwook Hwang Jun Wang Kenta Masui Andres A. Paucar Huijun Yang Masao Ohashi Shaojun Zhu Jill Wykosky Rachel Reed Stanley F. Nelson Timothy F. Cloughesy C. David James P. Nagesh Rao Harley I. Kornblum James R. Heath Webster K. Cavenee Frank B. Furnari Paul S. Mischel published in 2014. It has an Open Access status of “green”. You can read and download a PDF Full Text of this paper here.