Literature DB >> 24112705

Resistance to vemurafenib resulting from a novel mutation in the BRAFV600E kinase domain.

Timothy R Wagenaar1, Leyuan Ma, Benjamin Roscoe, Sung Mi Park, Daniel N Bolon, Michael R Green.   

Abstract

Resistance to the BRAF inhibitor vemurafenib poses a significant problem for the treatment of BRAFV600E-positive melanomas. It is therefore critical to prospectively identify all vemurafenib resistance mechanisms prior to their emergence in the clinic. The vemurafenib resistance mechanisms described to date do not result from secondary mutations within BRAFV600E. To search for possible mutations within BRAFV600E that can confer drug resistance, we developed a systematic experimental approach involving targeted saturation mutagenesis, selection of drug-resistant variants, and deep sequencing. We identified a single nucleotide substitution (T1514A, encoding L505H) that greatly increased drug resistance in cultured cells and mouse xenografts. The kinase activity of BRAFV600E/L505H was higher than that of BRAFV600E, resulting in cross-resistance to a MEK inhibitor. However, BRAFV600E/L505H was less resistant to several other BRAF inhibitors whose binding sites were further from L505 than that of PLX4720. Our results identify a novel vemurafenib-resistant mutant and provide insights into the treatment for melanomas bearing this mutation.
© 2013 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.

Entities:  

Keywords:  BRAFV600E; deep sequencing; drug resistance; saturation mutagenesis; vemurafenib

Mesh:

Substances:

Year:  2013        PMID: 24112705      PMCID: PMC4260813          DOI: 10.1111/pcmr.12171

Source DB:  PubMed          Journal:  Pigment Cell Melanoma Res        ISSN: 1755-1471            Impact factor:   4.693


  23 in total

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Review 7.  Vemurafenib: the first drug approved for BRAF-mutant cancer.

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Review 2.  Viewing protein fitness landscapes through a next-gen lens.

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Review 4.  Quantifying and understanding the fitness effects of protein mutations: Laboratory versus nature.

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8.  Measuring the activity of protein variants on a large scale using deep mutational scanning.

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9.  Deep mutational scanning: a new style of protein science.

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10.  Discoidin Domain Receptor 2 orchestrates melanoma resistance combining phenotype switching and proliferation.

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