将 mRNA 运送到视网膜感光器的阳离子修饰外泌体。

IF 6.1 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS
Héctor A. Millán Cotto, Tanvi Vinod Pathrikar, Bill Hakim, Helna M. Baby, Hengli Zhang, Peng Zhao, Ronak Ansaripour, Rouzbeh Amini, Rebecca L. Carrier and Ambika G. Bajpayee
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引用次数: 0

摘要

由于角膜吸收和全身清除缓慢,玻璃体视网膜疾病的局部治疗仍是一项挑战。外泌体具有生物相容性和细胞靶向性,是新兴的纳米药物载体。要通过局部途径将其用于视网膜靶向,外泌体必须穿越各种眼屏障,包括角膜、晶状体、玻璃体和视网膜本身。在这里,我们通过在牛奶外泌体表面插入 PEG2000 脂质来锚定富含精氨酸的阳离子基团,从而设计出高纯度的牛奶外泌体。通过修饰,外泌体可以利用与阴离子氨基糖(GAG)和组织中水分的弱可逆静电相互作用来提高其运输速度和保留率。阳离子基团的加入中和了外泌体的阴离子表面电荷(-24 到 -2 mV),而不会影响其大小或形态。与未修饰的外泌体相比,阳离子修饰的外泌体在牛角膜中的稳态扩散速度快两倍。光漂白后的荧光恢复证实,阳离子修饰的外泌体可以在没有立体阻碍的情况下扩散通过VH。在健康的VH中,阳离子-motif修饰的外泌体表现出更强的结合力,导致平均扩散率降低了三倍,而在50% GAG缺失的VH中,平均扩散率提高了六倍,再现了晚期液化现象。与未修饰的外泌体相比,阳离子-motif修饰的外泌体可穿透猪视网膜外植体的全厚度,使光感受器的吸收率提高了十倍,封装的eGFP mRNA转染率提高了三倍。阳离子修饰的外泌体不会对角膜或晶状体的机械膨胀特性产生不利影响,也不会影响视网膜细胞的活力,因此使用安全。因此,阳离子修饰外泌体可作为一种无细胞纳米载体平台,通过局部途径向视网膜光感受器传递基因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cationic-motif-modified exosomes for mRNA delivery to retinal photoreceptors†

Cationic-motif-modified exosomes for mRNA delivery to retinal photoreceptors†

Cationic-motif-modified exosomes for mRNA delivery to retinal photoreceptors†

Topical treatment of vitreoretinal diseases remains a challenge due to slow corneal uptake and systemic clearance. Exosomes are emerging nanocarriers for drug delivery due to biocompatibility and cellular targeting properties. To apply them for retinal targeting via the topical route, exosomes must traverse various ocular barriers including the cornea, lens, vitreous humor (VH), and the retina itself. Here we engineered high-purity milk-derived exosomes by anchoring arginine-rich cationic motifs via PEG2000 lipid insertion on their surface. Modification enabled exosomes to use weak-reversible electrostatic interactions with anionic glycosaminoglycan (GAG) and water content of the tissue to enhance their transport rate and retention. Addition of cationic motifs neutralized the anionic surface charge of exosomes (−24 to −2 mV) without impacting size or morphology. Cationic-motif-modified exosomes exhibited two-fold faster steady state diffusivity through bovine corneas compared to unmodified exosomes. Fluorescence recovery after photobleaching confirmed that cationic-motif-modified exosomes can diffuse through VH without steric hindrance. In healthy VH, cationic-motif-modified exosomes demonstrated stronger binding resulting in three-fold lower average diffusivity that enhanced by six-fold in 50% GAG-depleted VH recapitulating advanced liquefaction. Cationic-motif-modified exosomes penetrated through the full-thickness of porcine retinal explants resulting in ten-fold higher uptake in photoreceptors and three-fold greater transfection with encapsulated eGFP mRNA compared to unmodified exosomes. Cationic-motif-modified exosomes are safe to use as they did not adversely affect the mechanical swelling properties of the cornea or lens nor impact retinal cell viability. Cationic-motif-modified exosomes, therefore, offer themselves as a cell-free nanocarrier platform for gene delivery to retinal photoreceptors potentially via the topical route.

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来源期刊
Journal of Materials Chemistry B
Journal of Materials Chemistry B MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.30%
发文量
866
期刊介绍: Journal of Materials Chemistry A, B & C cover high quality studies across all fields of materials chemistry. The journals focus on those theoretical or experimental studies that report new understanding, applications, properties and synthesis of materials. Journal of Materials Chemistry A, B & C are separated by the intended application of the material studied. Broadly, applications in energy and sustainability are of interest to Journal of Materials Chemistry A, applications in biology and medicine are of interest to Journal of Materials Chemistry B, and applications in optical, magnetic and electronic devices are of interest to Journal of Materials Chemistry C.Journal of Materials Chemistry B is a Transformative Journal and Plan S compliant. Example topic areas within the scope of Journal of Materials Chemistry B are listed below. This list is neither exhaustive nor exclusive: Antifouling coatings Biocompatible materials Bioelectronics Bioimaging Biomimetics Biomineralisation Bionics Biosensors Diagnostics Drug delivery Gene delivery Immunobiology Nanomedicine Regenerative medicine & Tissue engineering Scaffolds Soft robotics Stem cells Therapeutic devices
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