Spatially targeted brain cancer immunotherapy with closed-loop controlled focused ultrasound and immune checkpoint blockade.

Despite the challenges in treating glioblastomas (GBMs) with immune adjuvants, increasing evidence suggests that targeting the immune cells within the tumor microenvironment (TME) can lead to improved responses. Here, we present a closed-loop controlled, microbubble-enhanced focused ultrasound (MB-FUS) system and test its abilities to safely and effectively treat GBMs using immune checkpoint blockade. The proposed system can fine-tune the exposure settings to promote MB acoustic emission-dependent expression of the proinflammatory marker ICAM-1 and delivery of anti-PD1 in a mouse model of GBM. In addition to enhanced interaction of proinflammatory macrophages within the PD1-expressing TME and significant improvement in survival (<i>P</i> < 0.05), the combined treatment induced long-lived memory T cell formation within the brain that supported tumor rejection in rechallenge experiments. Collectively, our findings demonstrate the ability of MB-FUS to augment the therapeutic impact of immune checkpoint blockade in GBMs and reinforce the notion of spatially tumor-targeted (loco-regional) brain cancer immunotherapy.

Introduction

Purpose Drug delivery with BBB opening

Study Objective To test whether closed-loop microbubble-enhanced focused ultrasound can safely augment delivery and efficacy of anti-PD1 therapy to improve immune responses and survival in a mouse glioblastoma model.

Animal model / Human subject Mus musculus (mouse), C57BL/6J strain; age: 6–10 weeks (6–8 weeks for tumor inoculation; 8–10 weeks for other in vivo experiments); sex: female

Disease model glioblastoma (GBM)

MRI or image guidance method MRI Imaging

Targeted brain region(s) Striatum

Target coordinates AP +1 mm, ML +1 mm (right), DV 3 mm (deep from bregma)

Cargo name and characteristics Anti-PD1 monoclonal antibody

Route of administration Intravenous injection

Outcomes and Safety

Summary of Outcomes Closed-loop microbubble-enhanced focused ultrasound increased anti-PD1 delivery and ICAM-1 expression in gliomas, promoted proinflammatory macrophage activation and PD1+ CD8 T cell engagement, induced long-lived brain-resident memory T cells, and significantly improved survival in a mouse glioblastoma model.

Duration of biological effect 41.65 ± 14.85 s

Safety-related matter The closed-loop MB-FUS system incorporates safety features to suppress broadband/inertial cavitation and prevent tissue damage, the authors observed no deleterious treatment-induced inflammation in non-tumor brain, and they note that without such safety measures significant broadband emissions and tissue damage can occur.

Brain Region

Ultrasound Parameters

Ultrasound instrument FUS transducer (Sonic Concept), generator (Picoscope, Pico Technology), amplifier (model 240L, Electronics & Innovation Ltd)

FUS Frequency 1.64 MHz

FUS Intensity Not reported

FUS Pressure 0 to 350 kPa

FUS Mode pulsed

Pulse duration 10 ms

Duration of a single FUS session 120 s

Focal Characteristics 3 mm

Treatment frequency single session

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