Development of [ 11 C]vemurafenib employing a carbon-11 carbonylative Stille coupling and preliminary evaluation in mice bearing melanoma tumor xenografts

Paul Slobbe; Albert D. Windhorst; Kevin Adamzek; Marije Bolijn; Robert C. Schuit; Daniëlle A.M. Heideman; Guus A.M.S. van Dongen; Alex J. Poot

doi:10.18632/oncotarget.16321

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:

Development of [¹¹C]vemurafenib employing a carbon-11 carbonylative Stille coupling and preliminary evaluation in mice bearing melanoma tumor xenografts

Paul Slobbe _, Albert D. Windhorst, Kevin Adamzek, Marije Bolijn, Robert C. Schuit, Daniëlle A.M. Heideman, Guus A.M.S. van Dongen and Alex J. Poot

PDF | HTML | How to cite

Oncotarget. 2017; 8:38337-38350. https://doi.org/10.18632/oncotarget.16321

Metrics: PDF 1611 views | HTML 2786 views | ?

Abstract

Paul Slobbe1,2, Albert D. Windhorst1, Kevin Adamzek1, Marije Bolijn1, Robert C. Schuit1, Daniëlle A.M. Heideman3, Guus A.M.S. van Dongen1,2, Alex J. Poot1

1Department of Radiology and Nuclear Medicine, VU University Medical Center, Amsterdam, The Netherlands

2Department of Otolaryngology/Head and Neck Surgery, VU University Medical Center, Amsterdam, The Netherlands

3Department of Pathology, VU University Medical Center, Amsterdam, The Netherlands

Correspondence to:

Paul Slobbe, email: [email protected]

Keywords: vemurafenib, BRAF, V600E, personalized medicine, PET

Received: May 17, 2016 Accepted: February 15, 2017 Published: March 17, 2017

ABSTRACT

Over the last decade kinase inhibitors have witnessed tremendous growth as anti-cancer drugs. Unfortunately, despite their promising clinical successes, a large portion of patients does not benefit from these targeted therapeutics. Vemurafenib is a serine/threonine kinase inhibitor approved for the treatment of melanomas specifically expressing the BRAF^V600E mutation. The aim of this study was to develop vemurafenib as PET tracer to determine its potential for identification of tumors sensitive to vemurafenib treatment. Therefore, vemurafenib was labeled with carbon-11 and analyzed for its tumor targeting potential in melanoma xenografts Colo829 (BRAF^V600E) and MeWo (BRAF^wt) using autoradiography on tissue sections, in vitro tumor cell uptake studies and biodistribution studies in xenografted athymic nu/nu mice. [¹¹C]vemurafenib was synthesized in 21 ± 4% yield (decay corrected, calculated from [¹¹C]CO) in > 99% radiochemical purity and a specific activity of 55 ± 18 GBq/μmol. Similar binding of [¹¹C]vemurafenib was shown during autoradiography and cellular uptake studies in both cell lines. Plasma metabolite analysis demonstrated > 95% intact [¹¹C]vemurafenib in vivo at 45 minutes after injection, indicating excellent stability. Biodistribution studies confirmed the in vitro results, showing similar tumor-to-background ratios in both xenografts models. These preliminary results suggest that identification of BRAF^V600E mutations in vivo using PET with [¹¹C]vemurafenib will be challenging.

All site content, except where otherwise noted, is licensed under a Creative Commons Attribution 4.0 License.
PII: 16321

Publication Alerts

Research Papers:

Development of [11C]vemurafenib employing a carbon-11 carbonylative Stille coupling and preliminary evaluation in mice bearing melanoma tumor xenografts

Abstract

Development of [¹¹C]vemurafenib employing a carbon-11 carbonylative Stille coupling and preliminary evaluation in mice bearing melanoma tumor xenografts