Activation of signaling pathways following localized delivery of systemically administered neurotrophic factors across the blood-brain barrier using focused ultrasound and microbubbles.
Authors: Baseri B, Choi JJ, Deffieux T, Samiotaki G, Tung YS, Olumolade O, Small SA, Morrison B, Konofagou EE
The brain-derived neurotrophic factor (BDNF) has been shown to have broad neuroprotective effects in addition to its therapeutic role in neurodegenerative disease. In this study, the efficacy of delivering exogenous BDNF to the left hippocampus is demonstrated in wild-type mice (n = 7) through the noninvasively disrupted blood-brain barrier (BBB) using focused ultrasound (FUS). The BDNF bioactivity was found to be preserved following delivery as assessed quantitatively by immunohistochemical detection of the pTrkB receptor and activated pAkt, pMAPK, and pCREB in the hippocampal neurons. It was therefore shown for the first time that systemically administered neurotrophic factors can cross the noninvasively disrupted BBB and trigger neuronal downstream signaling effects in a highly localized region in the brain. This is the first time that the administered molecule is tracked through the BBB and localized in the neuron triggering molecular effects. Additional preliminary findings are shown in wild-type mice with two additional neurotrophic factors such as the glia-derived neurotrophic factor (n = 12) and neurturin (n = 2). This further demonstrates the impact of FUS for the early treatment of CNS diseases at the cellular and molecular level and strengthens its premise for FUS-assisted drug delivery and efficacy.
Introduction
Purpose
Drug delivery with BBB opening
Study Objective
To demonstrate that systemically administered BDNF can be noninvasively delivered to the left hippocampus through focused ultrasound–disrupted blood-brain barrier and retain bioactivity to trigger neuronal downstream signaling.
Animal model / Human subject
Mouse C57BL/6 (Mus musculus), wild-type strain, age not specified, sex: male
Targeted brain region(s)
Hippocampus
Target coordinates
2.5 mm to the left of sagittal suture and subsequently 3 mm in depth from the top of the skull
Cargo name and characteristics
BDNF (brain-derived neurotrophic factor) — protein neurotrophic factor, exogenously/systemically administered and delivered across a FUS-disrupted BBB to the left hippocampus; bioactivity preserved as shown by TrkB/pAkt/pMAPK/pCREB activation. Also reported preliminarily: GDNF (glial cell line-derived neurotrophic factor) and neurturin (NTN) — protein neurotrophic factors delivered similarly.
Route of administration
Intravenous
Outcomes and Safety
Summary of Outcomes
Focused ultrasound disruption of the BBB enabled systemic BDNF delivery to the left hippocampus that retained bioactivity and triggered neuronal pTrkB, pAkt, pMAPK and pCREB activation (preliminary similar delivery of GDNF and neurturin); no specific FUS parameter sets were reported.
Safety-related matter
The paper contains no mention of safety assessments, adverse effects, or tolerability related to BDNF delivery or focused ultrasound-mediated BBB disruption. No adverse events or safety data are reported.
Brain Region
Ultrasound Parameters
Ultrasound instrument
single-element spherical segment FUS transducer
FUS Frequency
1.525 MHz
FUS Pressure
0.46 Mpa
FUS Mode
pulsed
Pulse duration
20 ms
Duration of a single FUS session
240 seconds
Focal Characteristics
Focal depth: 90 mm; Focal length: None; Aperture size: None
Treatment frequency
single session
Mechanical index
0.3724971118823014
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