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

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)...

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Autores principales: Song, Siyang, Fu, Hongzhe, He, Bing, Wang, Dan, Qin, Mengmeng, Yang, Dan, Liu, Dechun, Song, Ge, Shi, Yujie, Zhang, Hua, Wang, Xueqing, Dai, Wenbing, Zhang, Qiang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Dove Medical Press 2018
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Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6067611/
https://www.ncbi.nlm.nih.gov/pubmed/30100722
http://dx.doi.org/10.2147/IJN.S164866
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author Song, Siyang
Fu, Hongzhe
He, Bing
Wang, Dan
Qin, Mengmeng
Yang, Dan
Liu, Dechun
Song, Ge
Shi, Yujie
Zhang, Hua
Wang, Xueqing
Dai, Wenbing
Zhang, Qiang
author_facet Song, Siyang
Fu, Hongzhe
He, Bing
Wang, Dan
Qin, Mengmeng
Yang, Dan
Liu, Dechun
Song, Ge
Shi, Yujie
Zhang, Hua
Wang, Xueqing
Dai, Wenbing
Zhang, Qiang
author_sort Song, Siyang
collection PubMed
description 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.
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spelling pubmed-60676112018-08-10 Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies Song, Siyang Fu, Hongzhe He, Bing Wang, Dan Qin, Mengmeng Yang, Dan Liu, Dechun Song, Ge Shi, Yujie Zhang, Hua Wang, Xueqing Dai, Wenbing Zhang, Qiang Int J Nanomedicine Original Research 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. Dove Medical Press 2018-07-27 /pmc/articles/PMC6067611/ /pubmed/30100722 http://dx.doi.org/10.2147/IJN.S164866 Text en © 2018 Song et al. This work is published and licensed by Dove Medical Press Limited The full terms of this license are available at https://www.dovepress.com/terms.php and incorporate the Creative Commons Attribution – Non Commercial (unported, v3.0) License (http://creativecommons.org/licenses/by-nc/3.0/). By accessing the work you hereby accept the Terms. Non-commercial uses of the work are permitted without any further permission from Dove Medical Press Limited, provided the work is properly attributed.
spellingShingle Original Research
Song, Siyang
Fu, Hongzhe
He, Bing
Wang, Dan
Qin, Mengmeng
Yang, Dan
Liu, Dechun
Song, Ge
Shi, Yujie
Zhang, Hua
Wang, Xueqing
Dai, Wenbing
Zhang, Qiang
Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies
title Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies
title_full Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies
title_fullStr Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies
title_full_unstemmed Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies
title_short Rho GTPases in A549 and Caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies
title_sort rho gtpases in a549 and caco-2 cells dominating the endocytic pathways of nanocarbons with different morphologies
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6067611/
https://www.ncbi.nlm.nih.gov/pubmed/30100722
http://dx.doi.org/10.2147/IJN.S164866
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