Mechanisms of enhanced drug delivery in brain metastases with focused ultrasound-induced blood–tumor barrier disruption

Significance Improved penetration along with accurate prediction and mechanistic understanding of anticancer agent delivery across the blood–brain/blood–tumor barrier (BBB/BTB) are essential for the rational development of effective therapeutic strategies in intracranial malignancies. In this study, we provide insights in drug pharmacokinetics in brain metastases after focused ultrasound-induced BBB/BTB disruption by integrating quantitative microscopy with mathematical modeling. We demonstrate that focused ultrasound-induced BBB/BTB disruption contributes to enhanced interstitial convective transport in solid tumors, in addition to alleviating vascular barriers, and provide evidence of improved penetration of nontargeted and antibody-targeted chemotherapies. Together, our work provides a unified framework for prospective, quantitative, and mechanistic investigation of the penetration of anticancer drugs across the BBB/BTB in brain tumors. Blood–brain/blood–tumor barriers (BBB and BTB) and interstitial transport may constitute major obstacles to the transport of therapeutics in brain tumors. In this study, we examined the impact of focused ultrasound (FUS) in combination with microbubbles on the transport of two relevant chemotherapy-based anticancer agents in breast cancer brain metastases at cellular resolution: doxorubicin, a nontargeted chemotherapeutic, and ado-trastuzumab emtansine (T-DM1), an antibody–drug conjugate. Using an orthotopic xenograft model of HER2-positive breast cancer brain metastasis and quantitative microscopy, we demonstrate significant increases in the extravasation of both agents (sevenfold and twofold for doxorubicin and T-DM1, respectively), and we provide evidence of increased drug penetration (>100 vs. <20 µm and 42 ± 7 vs. 12 ± 4 µm for doxorubicin and T-DM1, respectively) after the application of FUS compared with control (non-FUS). Integration of experimental data with physiologically based pharmacokinetic (PBPK) modeling of drug transport reveals that FUS in combination with microbubbles alleviates vascular barriers and enhances interstitial convective transport via an increase in hydraulic conductivity. Experimental data demonstrate that FUS in combination with microbubbles enhances significantly the endothelial cell uptake of the small chemotherapeutic agent. Quantification with PBPK modeling reveals an increase in transmembrane transport by more than two orders of magnitude. PBPK modeling indicates a selective increase in transvascular transport of doxorubicin through small vessel wall pores with a narrow range of sizes (diameter, 10–50 nm). Our work provides a quantitative framework for the optimization of FUS–drug combinations to maximize intratumoral drug delivery and facilitate the development of strategies to treat brain metastases.

• Publication year

  2018

• Venue

  Proceedings of the National Academy of Sciences of the United States of America

• Publication date

  2018-08-27

• Fields of study

  Medicine, Engineering

• Identifiers
  DOI 10.1073/pnas.1807105115PMID 30150398PMCID PMC6140479
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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