Abstract

Abstract BACKGROUND Adequate treatment options are limited for patients with meningiomas once they have exhausted surgery and radiation. As our molecular understanding of meningiomas and their progression has improved, CDK, FAK, and RAF/MEK pathways have emerged as potential avenues for therapeutic intervention. However, patient-derived cell and xenograft models of meningiomas are difficult to establish, presenting a challenge in preclinical testing and validation of new therapeutic targets. The objective of this study is to develop informative preclinical models of meningiomas and use those to evaluate the activity of potent and selective inhibitors of CDK4/6, FAK, and RAF/MEK. METHODS We used CellTiter-Glo assay to assess the anti-tumor effects of CDK4/6 inhibitor abemaciclib, FAK inhibitor defactinib (VS-6063) and dual RAF/MEK inhibitor RO5126766 (VS-6766) in BEN-MEN-1 (WHO Grade I, NF2-mutant), CH157-MN (WHO Unknown, NF2-mutant), and IOMM-Lee (WHO Grade III, CDKN2A loss) cell lines. Additionally, we used CyQUANT assays to quantify anti-proliferation activity of these inhibitors in a newly established patient-derived cell line MN14 (WHO Grade II, NF2 mutant). In parallel, we continue our attempts to establish patient-derived cell and xenograft models using freshly isolated surgical specimens of progressive meningioma. RESULTS Defactinib monotherapy significantly decreased cell viability across a 10nM-10μM range for all three established cell lines. RO5126766 showed improved efficacy (by 10-fold) in IOMM-Lee, compared to CH157-MN and Ben-Men-1. Abemaciclib showed potent effects at 10nM in IOMM-Lee and BEN-MEN-1, compared to 100nM for CH157-MN. In the MN14 patient-derived cell line, established from an NF2-mutant atypical meningioma, we observed a significant decrease in cell proliferation with defactinib. A decrease in cell proliferation was also observed with RO5126766 and abemaciclib. CONCLUSION Selective inhibitors of CDK4/6, FAK, and RAF/MEK showed anti-meningioma activity against traditional and patient-derived cell models in vitro. Molecular characterization and establishment of patient-derived models that encompass the diversity of clinical meningiomas are ongoing.

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