1. The effect of everolimus on CNS penetration and efficacy of dasatinib in the treatment of PDGFRA-driven glioma
- Author
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Zachary Miklja, Alyssa Paul, Marcia Leonard, Ruby Siada, Manjunath P. Pai, Amy K. Bruzek, Brendan Mullan, Patricia L. Robertson, Stefanie Stallard, Carl Koschmann, Bernard L. Marini, Timothy N. Phoenix, Viveka Nand Yadav, and Taylor Garcia
- Subjects
Cancer Research ,Everolimus ,business.industry ,PDGFRA ,medicine.disease ,Cns penetration ,Dasatinib ,03 medical and health sciences ,0302 clinical medicine ,Oncology ,030220 oncology & carcinogenesis ,Glioma ,medicine ,Cancer research ,business ,030215 immunology ,medicine.drug - Abstract
e13508 Background: Pediatric and adult high-grade glioma (HGG) frequently harbor PDGFRA alterations. The CNS penetration of PDGFRA inhibitors, such as dasatinib, is limited by the tumor-efflux protein P-glycoprotein (P-gp). We hypothesized that co-treatment with everolimus, which has been shown to block P-gp, will increase CNS penetration and efficacy of dasatinib in in vitro and in vivo models as well as in human PDGFRA-driven glioma. Methods: Tumors were generated in mice using an intra-uterine electroporation (IUE) model [introduction of TP53, PDGFRA and H3K27M mutations in pre-natal cortex]. Dose response, synergism studies, P-GP inhibition and pharmacodynamics/pharmacokinetic studies were then performed on in vitro and in vivo models employing this IUE system. A phase 2 trial employing dasatinib and everolimus was established for children with HGG and diffuse intrinsic pontine glioma (DIPG) that contain PDGFRA alterations (NCT03352427). Paired CSF/plasma samples (before and after addition of everolimus) were collected from enrolled patients. Results: Dasatinib effectively treated mouse HGG cells with an IC50 of 100 nM. Dose-dependent reduction in PDGFRA and pPDGFRA was found. P-gp inhibitor assay confirmed that everolimus strongly blocks P-gp activity at 1 uM (p = 0.0028 vs untreated). Mice treated with dasatinib and everolimus had extended survival as compared to control. Two-hour exposure to everolimus resulted in sub-IC50 dasatinib concentration in cortex (23 nM) and tumor (65 nM). 24-hour exposure to everolimus resulted in greater cortex (235 nM) and tumor (509 nM) concentrations. Two trial patients, recurrent HGG ( PDGFRA-amplified) and recurrent DIPG ( PDGFRA D842V) respectively, survived 6 months and 9 months (ongoing) after progression, which compares very favorably to historical controls. A paired CSF sample from the PDGFRA-amplified patient showed a 50% increase in CSF dasatinib level after addition of everolimus. Conclusions: Dasatinib treatment of PDGFRA-driven HGG is improved with everolimus blockade of P-gp and represents a novel route for improving CNS penetration and efficacy of therapies for HGG. Clinical trial information: NCT03352427.
- Published
- 2019
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