Biosynthetic Gas Vesicles Combined with Focused Ultrasound for Blood-Brain Barrier Opening.

Focused ultrasound (FUS) combined with microbubbles (MBs) has emerged as a potential approach for opening the blood-brain barrier (BBB) for delivering drugs into the brain. However, MBs range in size of microns and thus can hardly extravasate into the brain parenchyma. Recently, growing attention has been paid to gas vesicles (GVs), which are genetically encoded gas-filled nanostructures with protein shells, due to their potential for extravascular targeting in ultrasound imaging and therapy. However, the use of GVs as agents for BBB opening has not yet been investigated. In this study, GVs were extracted and purified from <i>Halobacterium NRC-1</i>. Ultrasound imaging performance of GVs was assessed in vitro and in vivo. Then, FUS/GVs-mediated BBB opening for small molecular Evans blue or large molecular liposome delivery across the BBB was examined. The results showed a good contrast performance of GVs for brain perfusion ultrasound imaging in vivo. At the acoustic negative pressure of 1.5 MPa, FUS/GVs opened the BBB safely, and effectively enhanced Evans blue and 200-nm liposome delivery into the brain parenchyma. Our study suggests that biosynthetic GVs hold great potential to serve as local BBB-opening agents in the development of new targeted drug delivery strategies for central nervous system disorders.

Introduction

Purpose Drug delivery with BBB opening

Study Objective To evaluate whether gas vesicles from Halobacterium NRC-1 can enable focused ultrasound-mediated opening of the blood–brain barrier and enhance delivery of small and large molecules into the brain.

Animal model / Human subject mouse, C57BL/6, 6–8 weeks, female

Disease model healthy

MRI or image guidance method ultrasound-guided

Targeted brain region(s) Striatum

Cargo name and characteristics nanoparticle

Route of administration intravenous

Outcomes and Safety

Summary of Outcomes Biosynthetic gas vesicles (GVs) combined with focused ultrasound (FUS) opened the blood–brain barrier and enhanced delivery of Evans blue and 200-nm liposomes into the brain, with safe, reversible opening achieved at 1.5 MPa. Tested FUS parameters: pressures 1.0 MPa (ineffective), 1.5 MPa (effective and safe), 2.0 MPa (effective but caused hemorrhage); at 1.5 MPa sonication durations ≥3 min were required (3 min produced transient opening, 5 min increased delivery and extended the opening window to ~4 h).

Duration of biological effect 4 h

Safety-related matter FUS/GVs opened the BBB safely at an acoustic peak negative pressure of 1.5 MPa with reversible BBB disruption (recovery within hours), no gross brain tissue damage at that pressure, no cellular loss in treated regions, and no systemic toxicity (major organs histologically normal and blood biochemistry/hematology unchanged). At higher pressure (2.0 MPa) there was erythrocyte extravasation/hemorrhage and irreversible BBB disruption in vitro.

Brain Region

Ultrasound Parameters

Ultrasound instrument not reported

FUS Frequency 1.0 MHz

FUS Intensity not reported

FUS Pressure 1.5 MPa

FUS Mode not reported

Pulse duration 10 ms

Duration of a single FUS session 5 min

Focal Characteristics 3 mm

Treatment frequency Single session

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