Abstract

Abstract INTRODUCTION A main challenge in the treatment of glioblastoma is the blood-brain barrier (BBB). In this study, we established a laser interstitial thermotherapy (LITT) platform in mice to test the hypothesis that LITT can increase BBB and blood-tumor barrier (BTB) permeability, which could potentially be exploited to enhance delivery of antitumor agents. METHODS We established a preclinical mouse model for LITT using an Nd-YAG laser coupled to a 600 μm fiber optic and thermocouple probe in C57BL/6 mice. Both the fiber optic and temperature probes were inserted through a small burrhole to target somatosensory cortex. In other experiments, mice were stereotactically implanted with syngeneic GL261 tumor cells prior to LITT. Post-LITT, brain tissue was assessed for BBB and BTB permeability through quantitative measurement of brain fluorescein (FL) after intraperitoneal injection and immunohistochemistry (IHC) after intravenously injected dextran (MWs 10 and 70 kDa) and human IgG (MW 150 kDa) to define spatial characteristics. Electron microscopy and IHC was used to delineate the mechanisms of BBB break down. RESULTS Using BBB permeability tracers, noninjected mice and mice orthotopically implanted with GL261 tumor cells were used to characterize the effect of laser therapy on the BBB and BTB, respectively. We found LITT substantially disrupts the BBB in the first day post-treatment and is sustained for 4 wk. Additionally, tumor-implanted mice demonstrated an increase in Dextran 10 and 70 kDa and human IgG extravasation after IV injection of these tracers. Mechanistically, we provide evidence, by IHC and electron microscopy, that LITT triggers both a decrease in tight junction integrity and an increase in brain endothelial cell transcytosis to increase overall BBB permeability. CONCLUSION Our data suggest that LITT increases BBB and BTB permeability over a defined time window in a mouse model and that large molecular size agents, including human IgG, can infiltrate brain parenchyma and brain tumors after systemic administration. Future experiments will focus on testing delivery of antitumor agents following LITT to enhance survival in brain tumor-bearing mice.

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