Abstract

Abstract Aminoquinolines, such as hydroxycholoquine, are known to inhibit autophagy and slow cancer cell growth, improving survival in preclinical models of glioblastoma. Unfortunately, they failed to demonstrate benefit in clinical trials due to a lack of sufficient potency and BBB penetration. We have developed a novel bisaminoquinoline derivative packaged in a nanoparticle (BAQ13-NP) with improved potency and intratumoral accumulation after systemic administration, confirmed by distribution and toxicity studies in animals. In this study, we evaluated the impact of BAQ13-NP on tumor cell autophagy and survival using patient-derived glioma cell lines and murine models. GBM patient-derived cell lines (n=4) and murine glioma cells (GL261, CT-2A) were treated with BAQ13-NP (1-4 µM) in culture, demonstrating growth restriction to less than 50% of control at 5-7 days (p<0.01) by MTT assay. Cells treated with BAQ13-NP also demonstrated reduced autophagy with significant increases in accumulation of LC3B and p62 (p<0.01) and reduced IL-6 dependent STAT3 phosphorylation in tumor cells, T cells, and myeloid cells (p<0.01). In addition, treatment of tumor cells with BAQ13-NP reduced IL-6 production over 50% (p<0.01). Mice with orthotopic GL261 or CT2A tumors were treated with BAQ13-NP by tail vein injection (25 mg/kg q2 days) starting 7 days post implantation. Significantly increased survival was observed in BAQ13-NP treated GL261 (HR 0.75, p=0.030) and CT2A (HR 0.78, p=0.033) bearing mice compared to vehicle control treated animals. Reduced tumor size at specific intervals was also observed with BAQ13-NP treatment, corelating with improved survival. BAQ13-NP can inhibit autophagy and slow glioma tumor growth, improving survival in preclinical models. Given the excellent distribution and low toxicity of this novel agent when delivered intravenously, we believe it has great potential to improve outcomes for GBM patients. Our drug has recently received IND approval and will soon be tested in a phase I clinical trial.

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