P11.39 Chloroquine as an anti-glioblastoma therapeutic: repurposing of an old drug

Abstract

Abstract BACKGROUND Glioblastoma (GBM) is the most common and aggressive type of primary brain tumour in adults. These tumours depict anarchic proliferation and brain infiltration as well as radio- and chemoresistant profiles. The complete surgical resection is unachievable and responses to standard therapy are transitory. Recurrence is thus inevitable and patient prognosis is generally less than 15 months. Transforming growth factor-beta (TGF-β) holds a substantial role in supporting the GBM phenotype. We showed that TGF-β 1 expression levels correlate with overall and progression-free survival in newly diagnosed GBM patient. We also observed that chloroquine (CQ) can reduce the production of TGF-β together with proliferation, invasion, radioresistance and radio-induced invasion in vitro. Unfortunately, little is known regarding the ability of CQ to penetrate the blood-brain barrier (BBB). Therefore, our objective is to determine whether intravenous (IV) or intra-arterial (IA) infusions of CQ and hydroxychloroquine (HCQ), a pharmacological analog of CQ, can yield therapeutic brain concentrations. MATERIAL AND METHODS To assess BBB penetration, the brain, plasma and cerebrospinal fluid (CSF) concentrations of CQ/HCQ were measured by LCMS/MS at different timepoints post-IV or post-IA infusions with 20 mg/kg of CQ/HCQ in tumour-free Wistar rat. For the survival studies, We implanted 10’000 F98 murin glioblastoma cells in the right putamen of Fischer rats. Ten days post-implantation, IA and IV infusion were accomplished through cannulations of the external right carotid and tail vein respectively. RESULTS With IV injections, CQ/HCQ brain concentrations 15 minutes post-injection reached 15.76 mg/g (0.18 µM) and 1.67 mg/g (0.078 µM) respectively. However, following IA infusions, we observed a 1.74 and 20.9 fold increase (20 mg/kg HCQ) as well as 7.1 and 84.7-fold-increase (20 mg/kg CQ) in contra- and ipsilateral brain concentrations respectively. Although brain concentrations gradually decreased over time post-IA infusions, the ipsilateral hemisphere CQ concentration was still 82.81 mg/g (34.52 µM) after 6 hours. Whereas plasma concentrations were very similar following IV and IA infusions, both molecules barely accumulated in the CSF and only when using IA infusions. The median survival of the control group (IA phosphate-buffered saline) and the group treated with 20 mg/kg CQ IV were 23.5 days and 24.5 days respectively. However, rats injected with 20 mg/kg CQ IA had a median survival of 28.5 days. CONCLUSION These results suggest that IA CQ could be used to abrogate the GBM phenotype. As TGF-β is associated with resistance to both radio- and chemotherapy, we plan to characterize the combination of IA infusions of CQ in combination with radiation or chemotherapy (carboplatin).