ASSESSMENT OF BRAIN PENETRANCE, BIODISTRIBUTION, AND EFFICACY OF PLATINUM (IV)-CONJUGATED FLUORINATED MACROCYCLIC CELL-PENETRATING PEPTIDES IN A MURINE GLIOBLASTOMA MODEL

Abstract INTRODUCTION Glioblastoma (GBM), an aggressive brain tumor with a poor prognosis, presents an average of 2% of patients surviving beyond 2 years after diagnosis. Therapies to effectively manage glioblastoma are hindered due to the presence of the blood-brain barrier (BBB). Previously, a cell-penetrating peptide, M13, was conjugated to a Pt(IV) cisplatin prodrug, via amide bond formation. The conjugated Pt(IV) releases active cisplatin upon intracellular reduction. Herein, we investigated the BBB-penetrance and biodistribution of M13 conjugated to Pt(IV), as well as its effectiveness against GBM in mouse models. METHODS M13 platinum-conjugate tumor cell killing capacity was assessed by luminescent cell viability assays in vitro. By using Inductively-Coupled Plasma Mass-Spectrometry for platinum detection, BBB penetration and bio-distribution studies were performed in a three-dimensional BBB spheroid in vitro model and in vivo in mouse brain, intracranial tumor, and peripheral organs. Dose-regime studies involved observations of symptomatology and weight variations after bi-weekly injections of platinum compounds at 2mg/kg and 5mg/kg. RESULTS The Pt(IV)-M13 conjugate possesses tumor cell killing effects similar to cisplatin when tested in GBM cell lines in vitro. Platinum increased by using Pt(IV)-M13 when compared to cisplatin in our in vitro BBB-spheroid model (20-fold, p-value=0.0033), in brain tissue (10-fold, p< 0.0001) and GBM tumor-bearing mice models (7.5-fold, p< 0.0001). Bio-distribution of platinum delivered by Pt(IV)-M13 in spleen, heart and blood was significantly different to cisplatin 5hrs. after intravenous injection (p< 0.001). Bi-weekly dose regimes of Pt(IV)-M13 are tolerable in nude mice without toxicity at a similar concentration to reported tolerable cisplatin doses at 5 mg/kg. Finally, Pt(IV)-M13 significantly increased survival in a murine glioblastoma xenograft model compared with controls (median 24 days vs. 29 days, p-value=0.0071). CONCLUSION Overall, our data support the further development of BBB-crossing peptide-drug conjugates for GBM treatment.