Rho GTPases 在 A549 和 Caco-2 细胞中主导不同形态纳米碳的内吞途径。

Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies.

机构信息

School of Pharmacy, Shenyang Pharmaceutical University, Shenyang 110016, China,

Beijing Key Laboratory of Molecular Pharmaceutics and the State Key Laboratory of Natural and Biomimetic Drugs, Peking University, Beijing 100191, China,

出版信息

Int J Nanomedicine. 2018 Jul 27;13:4391-4404. doi: 10.2147/IJN.S164866. eCollection 2018.

DOI:10.2147/IJN.S164866

PMID:30100722

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6067611/

Abstract

INTRODUCTION

Endocytosis of nanomaterials is the first step of nano-bio interaction and current regulation is mostly by nanomaterials but seldom by intracellular signaling proteins.

MATERIALS AND METHODS

Herein, we synthesized tubular nanocarbon (oxMWCNT) and lamellar-like nanocarbon (oxGRAPHENE) and formulated their aqueous dispersion. A549 and Caco-2 cells were selected as the models of tumor and intestinal epithelial cells, respectively. After knocking down three members of Rho GTPases (Cdc42, Rac1, RhoA) in these two cell lines, their silencing effects on the uptake pathways of nanomaterials with different morphologies were investigated.

RESULTS

An unexpected finding was that the knock-down led to opposite uptake trends in different types of cells. The endocytosis of carbon nanomaterials increased in Caco-2 cells when Rho GTPases were inactivated, while that in A549 cells decreased. For nanomaterials with different shapes, the involved GTPase member of Rho family, or regulating protein molecule, was different. Concretely, Cdc42 and Rac1 were involved in oxMWCNT endocytosis, while all three GTPases participated in oxGRAPHENE internalization. More interestingly, such difference induced different uptake pathways, namely, the cellular uptake of oxMWCNT was clathrin-mediated and oxGRAPHENE was caveolin-modulated, both with the involvement of dynamin.

CONCLUSION

In conclusion, this study provides new insights for the potential intervention in nano-bio interplay.

摘要

简介

纳米材料的内吞作用是纳米生物相互作用的第一步，目前的调控大多是通过纳米材料，而很少通过细胞内信号蛋白。

材料与方法

本文合成了管状纳米碳（oxMWCNT）和层状纳米碳（oxGRAPHENE），并配制了它们的水相分散体。A549 和 Caco-2 细胞分别被选为肿瘤和肠上皮细胞的模型。在这两种细胞系中敲低三种 Rho GTPases（Cdc42、Rac1、RhoA）后，研究了它们对具有不同形态的纳米材料摄取途径的沉默作用。

结果

一个意想不到的发现是，敲低导致了不同类型细胞中摄取趋势的相反。当 Rho GTPases 失活时，Caco-2 细胞中碳纳米材料的内吞作用增加，而 A549 细胞中的内吞作用减少。对于具有不同形状的纳米材料，涉及的 Rho 家族 GTPase 成员或调节蛋白分子是不同的。具体来说，Cdc42 和 Rac1 参与了 oxMWCNT 的内吞作用，而所有三种 GTPases 都参与了 oxGRAPHENE 的内化。更有趣的是，这种差异诱导了不同的摄取途径，即 oxMWCNT 的细胞摄取是网格蛋白介导的，而 oxGRAPHENE 是网格蛋白调节的，两者都涉及到动力蛋白。

结论

总之，本研究为纳米生物相互作用的潜在干预提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c2b/6067611/19a96d397a9f/ijn-13-4391Fig1.jpg

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Rho GTPases 在 A549 和 Caco-2 细胞中主导不同形态纳米碳的内吞途径。

Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies.

机构信息

出版信息

INTRODUCTION

MATERIALS AND METHODS

RESULTS

CONCLUSION

简介

材料与方法

结果

结论

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