PDGFRα signaling strength confers sensitivity to Vinblastine in glioblastoma

12^th World Cancer Conference

September 26-28, 2016 London, UK

Alain Charest, Vicky Appleman, Christopher Rose, Hua-Jun Wu, Alan Yeo, Bethany Delcuze, Jesse Lyons, Charlotte Lee, Aron Gyuris, Haihao Zhu, Hyun Jung Jun, Steve Woolfenden, Jann Sarkaria, Keith Ligon, Kevin Haigis, Franziska Michor and Steve Gygi

Beth Israel Deaconess Medical Center, USA
Harvard Medical School, USA
Tufts University School of Medicine, USA
Tufts Medical Center, USA
Mayo Clinic, USA
Dana-Farber Cancer Institute, USA

Scientific Tracks Abstracts: J Cancer Sci Ther

Abstract :

The PDGF Receptor alpha is overexpressed and activated in a substantial number of Glioblastoma (GBM) tumors. Although the activation of PDGFR�± in GBM is chronic in nature, our knowledge of PDGFR signaling pathways is largely derived from acute stimulation studies, which are less representative of the clinical setting. In order to decipher the identity and clinical significance of sustained PDGFR�± signaling during tumorigenesis and to reveal therapeutic vulnerabilities, we created a novel genetically engineered conditional mouse model based on genomic events that are observed in patients, that is the overexpression of PDGFR�± and its chronic activation by PDGF-A ligand in the context of loss of function of the p53 tumor suppressor gene. To broaden its clinical relevance, we created our model system with a titratable expression of PDGF-A, which is specific for PDGFR�± homodimers. De novo intracranial PDGF-A;PDGFR�± tumors arise in these mice with full penetrance and short latency and display histological and molecular features that are consistent with Proneural GBMs. Tumor growth in animals was intimately related to the levels of PDGF-A ligand expression, suggesting differences in cellular signaling in tumors with low and high levels of activated receptors. Indeed, global phospho- (pTyr, pSer/pThr) and total proteomic analyses on cells derived from PDGFR�±-positive GBMs revealed that the strength and utilization of specific signaling pathways are dependent on the levels of PDGFR�± activation. Further investigation of these pathways unveiled a role for the microtubule binding protein Stathmin 1 (STMN1) in the vulnerability of these GBM cells to the microtubule-disrupting drug vinblastine. Our results open the possibility that GBM patients whose tumors express active PDGFR�± could benefit from treatments with vinca alkaloid type of therapeutic agents. Our observations also argue strongly for the development of inhibitors of STMN1 function for the treatment of PDGFR�± positive GBMs.

Biography :

Alain Charest is an Associate Professor in the Department of Medicine at Beth Israel Deaconess Medical Center, Harvard Medical School, USA. He has received his Postgraduate degrees at McGill University, Montreal, Canada.

Email: acharest@bidmc.harvard.edu