Ultrasound-mediated delivery of novel tau-specific monoclonal antibody enhances brain uptake but not therapeutic efficacy

Bajracharya, Rinie; Cruz, Esteban; Goetz, Jacky G.; Nisbet, Rebecca M.

doi:10.1101/2021.10.18.464732

Cited by 3 publications

(2 citation statements)

References 55 publications

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“…The effect of FUS +MB was tested on iBECs 48– 72h after subculture on Transwell inserts. FITC-conjugated dextran (150 kDa) was added at 0.5 mg/ml and AlexaFluor™-647-conjugated anti-amyloid-β (Aducanumab) and anti-Tau (RNF5, [26]) therapeutic antibodies were added at 1 μM. MB (10 μL per Transwell) were then added to the wells aseptically directly before the FUS treatment.…”

Section: Methodsmentioning

confidence: 99%

“…Here we developed a sporadic AD patient-derived BBB-like in vitro model to study the effects of FUS +MB on cellular responses and drug delivery. We utilized APOE3- and APOE4- carrying BBB cells and investigated molecular changes following FUS +MB as well as the FUS +MB -mediated delivery of two therapeutic AD antibodies: an Aducanumab analogue (anti-Aβ antibody, commercially known as Aduhelm TM ) [24, 25], and RNF5, an anti-Tau antibody, which has recently been shown to be efficient in reducing p-Tau levels in an animal model with Tau pathology [26]. Here, we report the improved delivery of these antibodies in our BBB-like in vitro model using FUS +MB and the cell-specific effects FUS +MB confers in an APOE3 / APOE4 context.…”

Section: Introductionmentioning

confidence: 99%

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A sporadic Alzheimer’s blood-brain barrier model for developing ultrasound-mediated delivery of Aducanumab and anti-Tau antibodies

Wasielewska

Chaves

Johnston

et al. 2022

Preprint

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Rationale: The blood-brain barrier (BBB) is a major impediment to therapeutic intracranial drug delivery for the treatment of neurodegenerative diseases, including Alzheimer's disease (AD). Focused ultrasound applied together with microbubbles (FUS+MB) is a novel technique to transiently open the BBB and increase drug delivery. Evidence suggests that FUS+MB is safe, however the effects of FUS+MB on human BBB cells, especially in the context of AD, remain sparsely investigated. Methods: Here we generated BBB cells (induced brain endothelial cells (iBECs) and astrocytes (iAstrocytes)) from apolipoprotein E gene allele E4 (APOE4, high AD risk) and allele E3 (APOE3, lower AD risk) carrying patient-derived induced pluripotent stem cells (iPSCs). We then developed a human sporadic AD BBB cell platform to investigate the effects of FUS+MB on BBB cells and screen for the delivery of two potentially therapeutic AD antibodies. Results: We utilized this robust and reproducible human BBB model to demonstrate increased delivery of therapeutic AD antibodies across the BBB following FUS+MB treatment, including an analogue of Aducanumab (AduhelmTM; anti-amyloid-β) and a novel anti-Tau antibody RNF5. Our results also demonstrate the safety of FUS+MB indicated by minimal changes in the cell transcriptome as well as little or no changes in cell viability and inflammatory responses within the first 24 h post FUS+MB. Finally, we report a more physiologically relevant hydrogel-based 2.5D BBB model as a key development for FUS+MB-mediated drug delivery screening, with potentially higher translational utility. Conclusion: Our results demonstrate an important translatable patient BBB cell model for identifying FUS+MB-deliverable drugs and screening for cell- and patient-specific effects of FUS+MB, accelerating the use of FUS+MB as a therapeutic modality in AD.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A sporadic Alzheimer’s blood-brain barrier model for developing ultrasound-mediated delivery of Aducanumab and anti-Tau antibodies

Wasielewska

Chaves

Johnston

et al. 2022

Preprint

Self Cite

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Opportunities and challenges in delivering biologics for Alzheimer’s disease by low-intensity ultrasound

Chen

Cruz

Oikari

et al. 2022

Advanced Drug Delivery Reviews

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Current and Emerging Strategies for Enhancing Antibody Delivery to the Brain

et al. 2021

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For the treatment of neurological diseases, achieving sufficient exposure to the brain parenchyma is a critical determinant of drug efficacy. The blood–brain barrier (BBB) functions to tightly control the passage of substances between the bloodstream and the central nervous system, and as such poses a major obstacle that must be overcome for therapeutics to enter the brain. Monoclonal antibodies have emerged as one of the best-selling treatment modalities available in the pharmaceutical market owing to their high target specificity. However, it has been estimated that only 0.1% of peripherally administered antibodies can cross the BBB, contributing to the low success rate of immunotherapy seen in clinical trials for the treatment of neurological diseases. The development of new strategies for antibody delivery across the BBB is thereby crucial to improve immunotherapeutic efficacy. Here, we discuss the current strategies that have been employed to enhance antibody delivery across the BBB. These include (i) focused ultrasound in combination with microbubbles, (ii) engineered bi-specific antibodies, and (iii) nanoparticles. Furthermore, we discuss emerging strategies such as extracellular vesicles with BBB-crossing properties and vectored antibody genes capable of being encapsulated within a BBB delivery vehicle.

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Ultrasound-mediated delivery of novel tau-specific monoclonal antibody enhances brain uptake but not therapeutic efficacy

Cited by 3 publications

References 55 publications

A sporadic Alzheimer’s blood-brain barrier model for developing ultrasound-mediated delivery of Aducanumab and anti-Tau antibodies

A sporadic Alzheimer’s blood-brain barrier model for developing ultrasound-mediated delivery of Aducanumab and anti-Tau antibodies

Opportunities and challenges in delivering biologics for Alzheimer’s disease by low-intensity ultrasound

Current and Emerging Strategies for Enhancing Antibody Delivery to the Brain

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