Key Features in the Design and Function of Nanocarriers for Intranasal Administration of Gene Therapy in Huntington Disease.

Oksana Fihurka, Stephen Aradi, Vasyl Sava, Juan Sanchez-Ramos
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Abstract

A major obstacle to fulfilling the therapeutic promise of gene therapies for hereditary brain diseases, such as Huntington' Disease (HD), is the requirement for viral vectors and/or an invasive delivery system (stereotaxic injection into brain or infusion into the intrathecal space). HD is an autosomal dominant neurodegenerative disease for which several clinical trials have demonstrated gene-lowering effects following intrathecal administration. These technical limitations have given impetus to the development of alternative non-invasive delivery systems for gene therapy of brain diseases. The overall objective of this review is to discuss the key features in the design of nanocarriers for intranasal administration of gene-therapy for HD, focusing primarily on our series of published work on the use of nanocarriers for gene therapy. Design and development of nanocarriers packaged with gene-lowering agents represents a significant advance towards non-invasive nose-to-brain delivery of gene therapy for HD and other hereditary brain disorders.

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亨廷顿舞蹈症基因治疗鼻内给药纳米载体的设计和功能的关键特征。
实现遗传性脑疾病(如亨廷顿舞蹈症)基因疗法治疗前景的一个主要障碍是需要病毒载体和/或侵入性递送系统(大脑立体定向注射或鞘内注射)。HD是一种常染色体显性遗传的神经退行性疾病,几项临床试验已经证明鞘内给药后具有降低基因的作用。这些技术限制推动了用于脑部疾病基因治疗的替代性非侵入性递送系统的发展。这篇综述的总体目标是讨论用于HD基因治疗的鼻内给药的纳米载体设计的关键特征,主要集中在我们关于使用纳米载体进行基因治疗的一系列已发表的工作上。用基因降低剂包装的纳米载体的设计和开发代表着HD和其他遗传性脑疾病基因治疗的无创鼻脑传递的重大进展。
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