通过飞秒激光激活的碳纳米颗粒将大分子递送至完整离体人角膜内皮。

Delivery of macromolecules into the endothelium of whole ex vivo human cornea by femtosecond laser-activated carbon nanoparticles.

作者信息

Jumelle Clotilde, Mauclair Cyril, Houzet Julien, Bernard Aurélien, He Zhiguo, Forest Fabien, Perrache Chantal, Gain Philippe, Thuret Gilles

机构信息

Corneal Graft Biology, Engineering and Imaging Laboratory, EA2521, Federative Institute of Research in Sciences and Health Engineering, Faculty of Medicine, Jean Monnet University, Saint-Etienne, France.

Hubert Curien Laboratory, UMR-CNRS 5516, Jean Monnet University, Saint-Etienne, France Manutech-USD, Saint-Etienne, France.

出版信息

Br J Ophthalmol. 2016 Aug;100(8):1151-6. doi: 10.1136/bjophthalmol-2015-307610. Epub 2016 May 25.

DOI:10.1136/bjophthalmol-2015-307610

PMID:27226345

Abstract

BACKGROUND

The targeted delivery of drugs or genes into corneal endothelial cells (ECs) during eye banking could help improve graft quality and quantity. Physical methods raising less safety concerns than viral ones, we previously adapted, for in vitro ECs, a recent innovative technique of drug delivery based on the activation of carbon nanoparticles (CNPs) by a femtosecond laser (fsL). The aim of the present pilot study was to adapt this method to enable molecule delivery into the intact endothelium of ex vivo human corneas.

METHODS

ECs from 40 organ-cultured corneas were perforated by photoacoustic reaction induced by irradiation of CNPs by a fsL. This enabled intracellular delivery of Alexa Fluor 488 dextran, a 4000 Da fluorescent macromolecule. The influence of increasing laser fluences (15, 20, 30 and 40 mJ/cm(2)) and of protective additives (ROCK inhibitor and poloxamer 407) on delivery and mortality rates was quantified using ImageJ.

RESULTS

No dextran was delivered with a fluence lower than 20 mJ/cm(2). Dextran was delivered into 3% (range 0%-7%) of cells at 20 mJ/cm(2), 7% (range 2%-12%) at 30 mJ/cm(2) and reaching a median 13% (range 3%-24%) for 40 mJ/cm(2), showing that dextran uptake by ECs increased significantly with fluence. Induced mortality varied from 0% to 53% irrespective of fluence, but likely to be related with the endothelial status (EC density and morphometry, donor age, storage duration and presence of Descemet's folds). ROCK inhibitor slightly increased uptake efficiency, unlike poloxamer. However, none of them decreased the mortality induced by laser.

CONCLUSIONS

This study shows that a macromolecule can be delivered specifically into ECs of a whole organ-cultured human cornea, using fsL-activated CNPs. The delivery rate was relatively high for a non-viral method. Further optimisation is required to understand and reduce variability in cell mortality.

摘要

背景

在眼库保存过程中，将药物或基因靶向递送至角膜内皮细胞（ECs）有助于提高移植物的质量和数量。与病毒方法相比，物理方法引发的安全问题较少，我们之前针对体外ECs采用了一种基于飞秒激光（fsL）激活碳纳米颗粒（CNPs）的新型药物递送技术。本初步研究的目的是调整该方法，以实现分子递送至离体人角膜的完整内皮。

方法

用fsL照射CNPs引发光声反应，对40个器官培养角膜的ECs进行穿孔。这使得4000 Da荧光大分子Alexa Fluor 488葡聚糖能够进行细胞内递送。使用ImageJ量化增加激光能量密度（15、20、30和40 mJ/cm²）以及保护性添加剂（ROCK抑制剂和泊洛沙姆407）对递送率和死亡率的影响。

结果

能量密度低于20 mJ/cm²时未发生葡聚糖递送。在20 mJ/cm²时，3%（范围0%-7%）的细胞摄取了葡聚糖；30 mJ/cm²时为7%（范围2%-12%）；40 mJ/cm²时中位数为13%（范围3%-24%），表明ECs对葡聚糖的摄取随能量密度显著增加。无论能量密度如何，诱导死亡率在0%至53%之间变化，但可能与内皮状态（EC密度和形态、供体年龄、保存时间以及Descemet膜褶皱的存在）有关。ROCK抑制剂略微提高了摄取效率，与泊洛沙姆不同。然而，它们均未降低激光诱导的死亡率。