金属有机框架（MOF）颗粒作为潜在的模仿细菌的传染病递送系统：在肺泡巨噬细胞中的表征及细胞内化

Metal Organic Framework (MOF) Particles as Potential Bacteria-Mimicking Delivery Systems for Infectious Diseases: Characterization and Cellular Internalization in Alveolar Macrophages.

作者信息

Guo Ailin, Durymanov Mikhail, Permyakova Anastasia, Sene Saad, Serre Christian, Reineke Joshua

机构信息

Department of Pharmaceutical Sciences, College of Pharmacy and Allied Health Professions, South Dakota State University, 1055 Campanile Avenue, Avera Health Science Building, Brookings, SD, 57007, USA.

Institut des Matériaux Poreux de Paris, FRE 2000 CNRS Ecole Normale Supérieure Ecole Supérieure de Physique et de Chimie Industrielles de Paris, PSL Research University, 75005, Paris, France.

出版信息

Pharm Res. 2019 Feb 21;36(4):53. doi: 10.1007/s11095-019-2589-4.

DOI:10.1007/s11095-019-2589-4

PMID:30790066

Abstract

PURPOSE

Intramacrophagic bacteria pose a great challenge for the treatment of infectious diseases despite many macrophage targeted drug delivery approaches explored. The use of biomimetic approaches for treating infectious diseases is promising, but not studied extensively. The study purpose is to evaluate iron-based metal-organic frameworks (MOF) as a potential bacteria-mimicking delivery system for infectious diseases.

METHODS

Two types of carboxylated MOFs, MIL-88A(Fe) and MIL-100(Fe) were developed as "pathogen-like" particles by surface coating with mannose. MOF morphology, cellular uptake kinetics, and endocytic mechanisms in 3D4/21 alveolar macrophages were characterized.

RESULTS

MIL-88A(Fe) is rod-shape (aspect ratio 1:5) with a long-axis size of 3628 ± 573 nm and MIL-100(Fe) is spherical with diameter of 103.9 ± 7.2 nm. Cellular uptake kinetics of MOFs showed that MIL-100(Fe) nanoparticles were internalized at a faster rate and higher extent compared to MIL-88A(Fe) microparticles. Mannosylation did not improve the uptake of MIL-100(Fe) particles, whereas it highly increased MIL-88A(Fe) cellular uptake and number of cells involved in internalization. Cell uptake inhibition studies indicated that macropinocytosis/phagocytosis was the main endocytic pathway for internalization of MOFs. Accumulation of MOF particles in acidic compartments was clearly observed.

CONCLUSIONS

The successfully synthesized "pathogen-like" particles provide a novel application of MOF-based particles as biomimetic delivery system for intramacrophagic-based infections.

摘要

目的

尽管已经探索了许多针对巨噬细胞的药物递送方法，但巨噬细胞内的细菌对传染病治疗构成了巨大挑战。使用仿生方法治疗传染病很有前景，但尚未得到广泛研究。本研究的目的是评估铁基金属有机框架（MOF）作为一种潜在的模仿细菌的传染病递送系统。

方法

通过用甘露糖进行表面包覆，将两种类型的羧基化MOF，即MIL-88A(Fe)和MIL-100(Fe)开发为“病原体样”颗粒。对3D4/21肺泡巨噬细胞中的MOF形态、细胞摄取动力学和内吞机制进行了表征。

结果

MIL-88A(Fe)呈棒状（长宽比为1:5），长轴尺寸为3628±573nm，MIL-100(Fe)呈球形，直径为103.9±7.2nm。MOF的细胞摄取动力学表明，与MIL-88A(Fe)微粒相比，MIL-100(Fe)纳米颗粒的内化速率更快、程度更高。甘露糖化并没有提高MIL-100(Fe)颗粒的摄取，而它显著增加了MIL-88A(Fe)的细胞摄取以及参与内化的细胞数量。细胞摄取抑制研究表明，巨胞饮作用/吞噬作用是MOF内化的主要内吞途径。明显观察到MOF颗粒在酸性区室中的积累。

结论

成功合成的“病原体样”颗粒为基于MOF的颗粒作为巨噬细胞内感染的仿生递送系统提供了新的应用。

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金属有机框架（MOF）颗粒作为潜在的模仿细菌的传染病递送系统：在肺泡巨噬细胞中的表征及细胞内化

Metal Organic Framework (MOF) Particles as Potential Bacteria-Mimicking Delivery Systems for Infectious Diseases: Characterization and Cellular Internalization in Alveolar Macrophages.

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