A patient-derived amyotrophic lateral sclerosis blood-brain barrier model for focused ultrasound-mediated anti-TDP-43 antibody delivery.

IF 5.9 1区 医学 Q1 NEUROSCIENCES
Joanna M Wasielewska, Juliana C S Chaves, Mauricio Castro Cabral-da-Silva, Martina Pecoraro, Stephani J Viljoen, Tam Hong Nguyen, Vincenzo La Bella, Lotta E Oikari, Lezanne Ooi, Anthony R White
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引用次数: 0

Abstract

Background: Amyotrophic lateral sclerosis (ALS) is a rapidly progressing neurodegenerative disorder with minimally effective treatment options. An important hurdle in ALS drug development is the non-invasive therapeutic access to the motor cortex currently limited by the presence of the blood-brain barrier (BBB). Focused ultrasound and microbubble (FUS+ MB) treatment is an emerging technology that was successfully used in ALS patients to temporarily open the cortical BBB. However, FUS+ MB-mediated drug delivery across ALS patients' BBB has not yet been reported. Similarly, the effects of FUS+ MB on human ALS BBB cells remain unexplored.

Methods: Here we established the first FUS+ MB-compatible, fully-human ALS patient-cell-derived BBB model based on induced brain endothelial-like cells (iBECs) to study anti-TDP-43 antibody delivery and FUS+ MB bioeffects in vitro.

Results: Generated ALS iBECs recapitulated disease-specific hallmarks of BBB pathology, including reduced BBB integrity and permeability, and TDP-43 proteinopathy. The results also identified differences between sporadic ALS and familial (C9orf72 expansion carrying) ALS iBECs reflecting patient heterogeneity associated with disease subgroups. Studies in these models revealed successful ALS iBEC monolayer opening in vitro with no adverse cellular effects of FUS+ MB as reflected by lactate dehydrogenase (LDH) release viability assay and the lack of visible monolayer damage or morphology change in FUS+ MB treated cells. This was accompanied by the molecular bioeffects of FUS+ MB in ALS iBECs including changes in expression of tight and adherens junction markers, and drug transporter and inflammatory mediators, with sporadic and C9orf72 ALS iBECs generating transient specific responses. Additionally, we demonstrated an effective increase in the delivery of anti-TDP-43 antibody with FUS+ MB in C9orf72 (2.7-fold) and sporadic (1.9-fold) ALS iBECs providing the first proof-of-concept evidence that FUS+ MB can be used to enhance the permeability of large molecule therapeutics across the BBB in a human ALS in vitro model.

Conclusions: Together, this study describes the first characterisation of cellular and molecular responses of ALS iBECs to FUS+ MB and provides a fully-human platform for FUS+ MB-mediated drug delivery screening on an ALS BBB in vitro model.

患者来源的肌萎缩侧索硬化症血脑屏障模型,用于聚焦超声介导的抗 TDP-43 抗体递送。
背景:肌萎缩性脊髓侧索硬化症(ALS肌萎缩性脊髓侧索硬化症(ALS)是一种进展迅速的神经退行性疾病,治疗效果甚微。肌肉萎缩性侧索硬化症药物开发的一个重要障碍是,目前由于血脑屏障(BBB)的存在,非侵入性治疗无法进入运动皮层。聚焦超声和微泡(FUS+ MB)治疗是一项新兴技术,已成功用于 ALS 患者,暂时打开了大脑皮层的血脑屏障。然而,FUS+ MB 介导的药物通过 ALS 患者的 BBB 给药尚未见报道。同样,FUS+ MB 对人类 ALS BBB 细胞的影响也仍未得到探索。方法:在此,我们建立了第一个与 FUS+ MB 兼容的、完全由人类 ALS 患者细胞衍生的 BBB 模型,该模型基于诱导脑内皮样细胞(iBECs),用于研究抗 TDP-43 抗体的递送和体外 FUS+ MB 的生物效应:结果:生成的 ALS iBECs 重现了 BBB 病理的疾病特异性特征,包括 BBB 完整性和通透性降低以及 TDP-43 蛋白病变。研究结果还发现了散发性 ALS 和家族性(携带 C9orf72 扩增)ALS iBECs 之间的差异,这反映了与疾病亚群相关的患者异质性。对这些模型的研究表明,体外 ALS iBEC 单层成功打开,FUS+MB 对细胞没有不良影响,乳酸脱氢酶(LDH)释放活力测定和 FUS+MB 处理细胞中缺乏可见的单层损伤或形态变化都反映了这一点。与此同时,FUS+ MB 对 ALS iBECs 产生了分子生物效应,包括紧密连接和粘连连接标志物的表达、药物转运体和炎症介质的变化,散发性和 C9orf72 ALS iBECs 产生了短暂的特异性反应。此外,我们还证明了 FUS+ MB 在 C9orf72(2.7 倍)和散发性 ALS iBECs(1.9 倍)中有效增加了抗 TDP-43 抗体的输送,首次提供了概念验证证据,证明 FUS+ MB 可用于增强大分子治疗药物在人类 ALS 体外模型中通过 BBB 的渗透性:本研究首次描述了 ALS iBECs 对 FUS+ MB 的细胞和分子反应,并为 ALS BBB 体外模型中 FUS+ MB 介导的药物递送筛选提供了一个全人类平台。
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来源期刊
Fluids and Barriers of the CNS
Fluids and Barriers of the CNS Neuroscience-Developmental Neuroscience
CiteScore
10.70
自引率
8.20%
发文量
94
审稿时长
14 weeks
期刊介绍: "Fluids and Barriers of the CNS" is a scholarly open access journal that specializes in the intricate world of the central nervous system's fluids and barriers, which are pivotal for the health and well-being of the human body. This journal is a peer-reviewed platform that welcomes research manuscripts exploring the full spectrum of CNS fluids and barriers, with a particular focus on their roles in both health and disease. At the heart of this journal's interest is the cerebrospinal fluid (CSF), a vital fluid that circulates within the brain and spinal cord, playing a multifaceted role in the normal functioning of the brain and in various neurological conditions. The journal delves into the composition, circulation, and absorption of CSF, as well as its relationship with the parenchymal interstitial fluid and the neurovascular unit at the blood-brain barrier (BBB).
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