EGFR blockade prevents glioma escape from BRAF V600E  targeted therapy

Tsun-Wen Yao; Jie Zhang; Michael Prados; William A. Weiss; C. David James; Theodore Nicolaides

doi:10.18632/oncotarget.4014

Oncotarget

Oncotarget (a primarily oncology-focused, peer-reviewed, open access journal) aims to maximize research impact through insightful peer-review; eliminate borders between specialties by linking different fields of oncology, cancer research and biomedical sciences; and foster application of basic and clinical science.

Its scope is unique. The term "oncotarget" encompasses all molecules, pathways, cellular functions, cell types, and even tissues that can be viewed as targets relevant to cancer as well as other diseases. The term was introduced in the inaugural Editorial, Introducing Oncotarget.

As of January 1, 2022, Oncotarget has shifted to a continuous publishing model. Papers will now be published continuously within yearly volumes in their final and complete form and then quickly released to Pubmed.

Subscribe to receive alerts once a paper has been published by Oncotarget.

Impact Journals, LLC is the publisher of Oncotarget: www.impactjournals.com.

Impact Journals is a member of the Wellcome Trust List of Compliant Publishers.

Impact Journals is a member of the Society for Scholarly Publishing.

On December 23, 2022, Oncotarget server experienced a DDoS attack. As a result, Oncotarget site was inaccessible for a few hours. Oncotarget team swiftly dealt with the situation and took it under control. This malicious action will be reported to the FBI.

Research Papers:

EGFR blockade prevents glioma escape from BRAF^V600E targeted therapy

Tsun-Wen Yao _, Jie Zhang, Michael Prados, William A. Weiss, C. David James and Theodore Nicolaides

PDF | HTML | Supplementary Files | How to cite

Oncotarget. 2015; 6:21993-22005. https://doi.org/10.18632/oncotarget.4014

Metrics: PDF 2292 views | HTML 3566 views | ?

Abstract

Tsun-Wen Yao1,*, Jie Zhang1,*, Michael Prados1,2, William A. Weiss1,2,3, C. David James4,5, Theodore Nicolaides1,2

1Departments of Pediatrics, University of California San Francisco, San Francisco, CA, USA

2Departments of Neurological Surgery, University of California San Francisco, San Francisco, CA, USA

3Departments of Neurology, University of California San Francisco, San Francisco, CA, USA

4Departments of Neurological Surgery, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA

5Northwestern Medicine Developmental Therapeutics Institute, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA

*These authors have contributed equally to this work

Correspondence to:

Tsun-Wen Yao, e-mail: [email protected]

Theodore Nicolaides, e-mail: [email protected]

Keywords: BRAF^V600E, EGFR, glioma, PLX4720, PTPN9

Received: February 17, 2015 Accepted: May 08, 2015 Published: May 22, 2015

ABSTRACT

Mutational activation of BRAF (BRAF^V600E) occurs in pediatric glioma and drives aberrant MAPK signaling independently of upstream cues. Targeted monotherapy against BRAF^V600E displays efficacy in pre-clinical models of glioma, however xenograft tumors adapt rapidly and escape from the growth-inhibitory effects of BRAF-targeted therapy. Here, we show that intrinsic resistance to a BRAF^V600E specific inhibitor stems, in part, from feedback activation of EGFR and downstream signaling pathways. BRAF^V600E inhibition suppresses MAPK signaling, which in turn downregulates the EGFR phosphatase PTPN9, resulting in sustained EGFR phosphorylation and enhanced EGFR activity. We demonstrated that overexpression of PTPN9 reduces EGFR phosphorylation and cooperates with BRAF^V600E inhibitor PLX4720 to reduce MAPK and Akt signaling, resulting in decreased glioma cell viability. Moreover, pharmacologic inhibition of EGFR combined with inhibition of BRAF^V600E to reduce growth of glioma cell lines and orthotopic glioma xenograft by decreasing tumor cell proliferation while increasing apoptosis, with resultant significant extension of animal subject survival. Our data support clinical evaluation of BRAF^V600E and EGFR targeted therapy in treating BRAF^V600E glioma.

All site content, except where otherwise noted, is licensed under a Creative Commons Attribution 4.0 License.
PII: 4014

Publication Alerts

Research Papers:

EGFR blockade prevents glioma escape from BRAFV600E targeted therapy

Abstract

EGFR blockade prevents glioma escape from BRAF^V600E targeted therapy