Abstract

Abstract BACKGROUND Major obstacles for an effective chemotherapy of glioblastomas (GBM) are the blood-brain-barrier (BBB) and serious systemic side effects of the cytotoxic drugs. A new promising strategy could be the delivery of microbubbles, encapsulating the chemotherapeutics, across the BBB to the tumor site. This will shield the drug from detrimental systemic effects. Low intensity focused ultrasound (LIFU) is able to open the BBB and triggers targeted release of the drugs within the tumor. First data on the synthesis of microbubbles, specifically designed new drugs and the targeted rupture of microbubbles by LIFU are presented. MATERIAL AND METHODS Thin-film hydration of lipids was utilized to prepare microbubbles, which were tested for toxicity on the GBM cell lines GaMG, U87, U138 and U343. In addition these cells were treated with 6 platinum(II) and palladium(II) complexes conjugated to lipophilic side chains of different length (C1, C8, C10) for 72h. To evaluate cell viability and calculate EC50 values MTT assays and a real-time proliferation assay using the impedance-based xCELLigence DP-System were executed. RESULTS Microbubbles ≤ 2µm in diameter were synthesized and could be disintegrated by applying LIFU. Neither the intact bubbles nor the lipids alone had any toxic effects on the GBM cells. In contrast, all six drugs were highly effective with EC50 values far below those of Temozolomide (67µM) and in the range of the reference drug cisplatin (3µM). Especially the palladium(II) compound with the C1-chain displayed a very low EC50 value (<10µM), while the longer chains and the platinum(II) compounds were less effective (EC50 10–40µM). An early and concentration-dependent onset of the cytotoxic effect of drugs with C1 and C8 side chains was revealed in the real time proliferation assay. CONCLUSION All components for a new microbubble-based therapeutic strategy are in place. Microbubbles were synthesized without having toxic effects in cell culture. New highly potent palladium(II) and platinum(II) compounds with low EC50 values were developed. The next step will be their encapsulation into the microbubbles via their lipophilic side chains to develop an effective drug-delivery system for the treatment of GBM in combination with LIFU. This will allow increasing the local concentration of chemotherapeutic agents at the tumor site, irrespectively of their molecular size and BBB penetration capacity.

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