Cellular Uptake and Trafficking of Lipid Nanocarriers Using High-Resolution Electron Microscopy

IF 4 4区医学 Q2 PHARMACOLOGY & PHARMACY AAPS PharmSciTech Pub Date : 2025-02-26 DOI:10.1208/s12249-025-03061-3

Thilo Faber, Alf Lamprecht

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Abstract

Lipid based nanocarriers are a commonly used drug delivery system with cargos ranging from small molecules to complex RNA-based therapies. There are several hypotheses how such carriers can enter the cell, in which organelles they reside, and how they cross or escape the endo-lysosomal system. To provide additional insights, the cell-nanocarrier interplay was visualized exemplarily with lipid-based nanocarriers and macrophage-like cultured cells (J774A.1 cells) using high resolution electron microscopy. Nanocarrier uptake into J774A.1 cells was detectable after the first 15 min by intracellular accumulation of electron-dense material. These accumulations were identified as lysosomes and lipid droplets, indicating complete degradation and a subsequent formation of storage organelles as early as 15 min. Inhibition of lysosomal acid lipase did not block lipid droplet formation, but rather resulted in accumulation of lipid droplets within lysosomes. This suggests that other cellular lipases already degrade acylglycerols before they reach lysosomes. Chloroquine co-treatment allowed visualization of nanocarriers inside endosomal vesicles, multivesicular bodies, and lysosomes.

Graphical Abstract

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高分辨率电子显微镜下脂质纳米载体的细胞摄取和运输

脂质纳米载体是一种常用的药物递送系统，其货物范围从小分子到复杂的rna为基础的治疗。关于这些载体如何进入细胞，它们驻留在细胞器中，以及它们如何穿过或逃离内溶酶体系统，有几种假设。为了提供更多的见解，以脂质纳米载体和巨噬细胞样培养细胞（J774A）为例，可视化了细胞-纳米载体的相互作用。1个细胞)使用高分辨率电子显微镜。纳米载体在J774A中的摄取。1个细胞在15分钟后通过细胞内积聚的电子致密物质检测到。这些积累被鉴定为溶酶体和脂滴，表明早在15分钟内就完全降解并随后形成储存细胞器。抑制溶酶体酸性脂肪酶不会阻止脂滴的形成，而是导致脂滴在溶酶体内积累。这表明其他细胞脂肪酶在酰基甘油到达溶酶体之前就已经降解了。氯喹共处理可以可视化内体囊泡、多囊体和溶酶体内的纳米载体。图形抽象

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来源期刊

AAPS PharmSciTech 医学-药学

CiteScore

6.80

自引率

3.00%

发文量

264

审稿时长

2.4 months

期刊介绍： AAPS PharmSciTech is a peer-reviewed, online-only journal committed to serving those pharmaceutical scientists and engineers interested in the research, development, and evaluation of pharmaceutical dosage forms and delivery systems, including drugs derived from biotechnology and the manufacturing science pertaining to the commercialization of such dosage forms. Because of its electronic nature, AAPS PharmSciTech aspires to utilize evolving electronic technology to enable faster and diverse mechanisms of information delivery to its readership. Submission of uninvited expert reviews and research articles are welcomed.