The transport pathways of polymer nanoparticles in MDCK epithelial cells

内吞作用 细胞生物学 跨细胞 胞吐 脂筏 胞饮病 钙磷酸蛋白C 蛋白激酶C 高尔基体 内体 激酶 生物 信号转导 细胞内 细胞 生物化学 内质网
作者
Bing He,Zengrong Jia,Wenwen Du,Chao Yu,Yu‐Chen Fan,Wenbing Dai,Lan Yuan,Hua Zhang,Xueqing Wang,Jiancheng Wang,Xuan Zhang,Qiang Zhang
出处
期刊:Biomaterials [Elsevier BV]
卷期号:34 (17): 4309-4326 被引量:97
标识
DOI:10.1016/j.biomaterials.2013.01.100
摘要

Epithelial cell membranes as the typical biological barrier constitute the prime obstacle for the transport of therapeutic agents including nanomedicines. The previous studies on the interaction between nanomedicines and cells are mostly emphasized on cellular uptake and intracellular trafficking, but seldom on epithelial cells, although more and more oral nanomedicines are available now. In an attempt to clarify the transport pathways of nanomedicines in epithelial cells, the different molecular mechanisms among endocytosis, exocytosis and transcytosis processes were carefully studied and compared here using a kind of polymer nanoparticles (PNs) and MDCK epithelial cells as models. As the result, their similarity and difference were demonstrated. The similarities among all the three processes included the mediation of lipid rafts, the involvement of some protein kinases such as protein tyrosine kinase (PTK), protein kinase C (PKC) and phosphatidylinositol 3-kinase (PI3K), and the existence of multiple pathways. However, the difference among these processes was very significant, including different pathways, and especially the disparate effects of lipid rafts and protein kinases for different processes. The endocytosis involved both lipid raft and clathrin mechanisms but no macropinocytosis, via the invagination of membrane but no pore formation, the exocytosis contained ER/Golgi and Golgi/PM pathways, and transcytosis included AEE/CE/BSE and Golgi/BSE pathways. The roles of lipid rafts on endocytosis were positive but that on exocytosis and transcytosis was negative. The impacts of PTK and PKC on endocytosis were positive, while the influences of PTK, PKC and P13K on AEE/CE/BSE, as well as PTK and P13K on Golgi/BSE transcytosis pathways were negative. Moreover, the discrepancy between inward and outward transport of PNs elucidated an interesting fact that the endocytosis was rather easy and outward transport including exocytosis and transcytosis was rather difficult. Finally, it was indicated by comparison with previous reports that the molecular mechanisms between PNs and macromolecules such as proteins were also dissimilar.

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