Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway.

Adrian Von Witzleben,Lukas T Goerttler,Holger Barth,André Lechel,Peter Möller,Regine Mayer-Steinacker,Adrienne M Flanagan,Ralf Marienfeld,Alexandra Von Baer,Kevin Mellert,Markus Schultheiss,Michael Böhm,Silke Brüderlein,Marko Kornmann,Thomas F.E Barth

doi:10.1158/0008-5472.can-14-3270

Adrian Von Witzleben, Lukas T Goerttler + Show 13 more

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https://doi.org/10.1158/0008-5472.can-14-3270

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Abstract

Chordomas are tumors that arise at vertebral bodies and the base of the skull. Although rare in incidence, they are deadly owing to slow growth and a lack of effective therapeutic options. In this study, we addressed the need for chordoma cell systems that can be used to identify therapeutic targets and empower testing of candidate pharmacologic drugs. Eight human chordoma cell lines that we established exhibited cytology, genomics, mRNA, and protein profiles that were characteristic of primary chordomas. Candidate responder profiles were identified through an immunohistochemical analysis of a chordoma tissue bank of 43 patients. Genomic, mRNA, and protein expression analyses confirmed that the new cell systems were highly representative of chordoma tissues. Notably, all cells exhibited a loss of CDKN2A and p16, resulting in universal activation of the CDK4/6 and Rb pathways. Therefore, we investigated the CDK4/6 pathway and responses to the CDK4/6-specific inhibitor palbociclib. In the newly validated system, palbociclib treatment efficiently inhibited tumor cell growth in vitro and a drug responder versus nonresponder molecular signature was defined on the basis of immunohistochemical expression of CDK4/6/pRb (S780). Overall, our work offers a valuable new tool for chordoma studies including the development of novel biomarkers and molecular targeting strategies.

Highlights

Chordomas are rare tumors considered to arise from persistent notochordal remnants along in the vertebral bodies [1]
The results indicate that two different pharmacologic inhibitors, which both interfere with CDK4/6 in cells in vitro, inhibited the growth of the chordoma cell lines, implicating that this inhibition is due to the block of the CDK4/6 pathway
The downstream molecules CDK4/CDK6 and pRb are expressed in the cell lines

Summary

Introduction

Chordomas are rare tumors considered to arise from persistent notochordal remnants along in the vertebral bodies [1]. Because of their slow growth, there is no efficient standard chemotherapy: therapy of choice is surgery followed by radiotherapy. After surgical therapy of this orphan disease chordoma recurs in up to 50% of patients and metastasizes in up to 40% [1]. A minority is cured by surgery, the disease-free survival is generally short [2,3,4]. Note: Supplementary data for this article are available at Cancer Research Online (http://cancerres.aacrjournals.org/). A. von Witzleben and L.T. Goerttler contributed to this article

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