Michael C. Ostrowski, Gustavo Leone, Steven T. Sizemore, Balveen Kaur, B. Eason Hildreth, Katie A. Thies, Gina M. Sizemore, Robert Pilarski, Luke Russell, Matthew D. Ringel, Raleigh D. Kladney, Lynn Schoenfield, Arnab Chakravarti, Anthony J. Trimboli, Chelsea Bolyard, Anisha M. Hammer, and Jose Otero
Stromal PDGFRβ has emerged as an actionable mediator of breast tumor-stromal communication. As a receptor tyrosine kinase, PDGFRβ is activated by its ligand, PDGFB, which is released by neighboring tumor epithelium and endothelium. However, how PDGF signaling mediates breast cancer initiation, progression, and metastasis remains unclear. To evaluate PDGFRβ in this disease, we developed a mouse model of stromal-specific PDGFRβ activation using the Fsp-cre transgene previously published by our group (PDGFRβ mutant). PDGFRβ mutant mammary glands exhibit increased tertiary side-branching and epithelial proliferation confirming a stromal-specific PDGFRβ effect on neighboring epithelium. To evaluate the functional relevance of PDGFRβ activation on metastatic progression, we performed tail vein injection of PDGFB expressing murine mammary tumor cells and, surprisingly, observed brain metastases in 50% of the PDGFRβ mutant mice while no brain lesions were seen in controls. There was no difference in the incidence of lung, liver or bone metastases. Mammary tumor cells expressing low PDGFB did not exhibit a similar increase in brain metastases in mutant mice. While there is no observable difference in blood brain barrier permeability in the mutant mice, we bypassed this variable by intracranially injecting mammary tumor cells and found that larger tumors formed in the brains of PDGFRβ mutant mice versus controls. To our knowledge, this is the first example where genetic manipulation of the stroma leads to an increased incidence of BCBM. Also, our pre-clinical data suggests that primary breast tumors that express high PDGFB could preferentially metastasize to the brain. To test this in patients, we analyzed PDGFB protein expression in a tissue microarray comprised of HER2-positive and triple negative breast cancer (TNBC) primary tumors. While high PDGFB did not correlate with site-independent metastatic recurrence, it was prognostic of brain metastasis, mirroring our mouse data. Evaluation of PDGFB in a small cohort of matched primary breast tumors with associated brain (n=5) and lung metastases (n=2) revealed intense PDGFB staining in 100% of the brain metastases, but only 50% of the lung metastases. Our findings suggest high primary tumor PDGFB expression defines a subset of breast cancer patients predisposed to brain metastases. These patients may benefit from therapeutic intervention of PDGFRβ signaling. To test this pre-clinically, we treated mice harboring intracranial tumors with the PDGFR specific inhibitor, Crenolanib. Excitingly, Crenolanib treatment significantly inhibited the brain tumor burden in these mice. Combined, our findings (1) advocate that primary tumor expression of PDGFB is a novel prognostic biomarker for the development of BCBM and (2) support clinical trial evaluation of PDGFR inhibitors for the prevention and treatment of BCBM. Citation Format: Katie A. Thies, Anisha M. Hammer, B. Eason Hildreth, Luke O. Russell, Steven T. Sizemore, Anthony J. Trimboli, Raleigh D. Kladney, Chelsea M. Bolyard, Robert Pilarski, Lynn Schoenfield, Jose Otero, Arnab Chakravarti, Matthew Ringel, Balveen Kaur, Gustavo Leone, Michael C. Ostrowski, Gina M. Sizemore. Stromal platelet derived growth factor receptor (PDGFRβ) signaling: A novel therapeutic target for breast cancer brain metastasis (BCBM) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 49.