通过模拟与钠离子通道相互作用的自组装超分子系统来输送局部麻醉剂。

Delivery of local anaesthetics by a self-assembled supramolecular system mimicking their interactions with a sodium channel.

机构信息

Laboratory for Biomaterials and Drug Delivery, Department of Anaesthesiology, Division of Critical Care Medicine, Children's Hospital Boston, Harvard Medical School, Boston, MA, USA.

CAS Key Laboratory for Biomedical Effects of Nanomaterials & Nanosafety, CAS Center for Excellence in Nanoscience, National Center for Nanoscience and Technology, Beijing, China.

出版信息

Nat Biomed Eng. 2021 Sep;5(9):1099-1109. doi: 10.1038/s41551-021-00793-y. Epub 2021 Sep 13.

DOI:10.1038/s41551-021-00793-y

PMID:34518656

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8959085/

Abstract

Site-1 sodium channel blockers (S1SCBs) act as potent local anaesthetics, but they can cause severe systemic toxicity. Delivery systems can be used to reduce the toxicity, but the hydrophilicity of S1SCBs makes their encapsulation challenging. Here, we report a self-assembling delivery system for S1SCBs whose design is inspired by the specific interactions of S1SCBs with two peptide sequences on the sodium channel. Specifically, the peptides were modified with hydrophobic domains so that they could assemble into nanofibres that facilitated specific binding with the S1SCBs tetrodotoxin, saxitoxin and dicarbamoyl saxitoxin. Injection of S1SCB-carrying nanofibres at the sciatic nerves of rats led to prolonged nerve blockade and to reduced systemic toxicity, with benign local-tissue reaction. The strategy of mimicking a molecular binding site via supramolecular interactions may be applicable more broadly to the design of drug delivery systems for receptor-mediated drugs.

摘要

位点 1 钠离子通道阻断剂（S1SCB）具有很强的局部麻醉作用，但也可能导致严重的全身毒性。可以使用递药系统来降低毒性，但 S1SCB 的亲水性使其包封具有挑战性。在这里，我们报告了一种 S1SCB 的自组装递药系统，其设计灵感来自 S1SCB 与钠离子通道上两个肽序列的特异性相互作用。具体来说，对肽进行了疏水修饰，使其能够组装成纳米纤维，从而促进与 S1SCB 特异地结合，如河豚毒素、石房蛤毒素和二脒基石房蛤毒素。将携带 S1SCB 的纳米纤维注入大鼠坐骨神经中，可导致神经阻滞延长，并降低全身毒性，同时伴有良性的局部组织反应。通过超分子相互作用模拟分子结合位点的策略可能更广泛地适用于受体介导药物的药物递药系统设计。

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