Issue 25, 2016
From the journal:

Nanoscale

Glyco-gold nanoparticle shapes enhance carbohydrate–protein interactions in mammalian cells

Sivakoti Sangabathuni,a   Raghavendra Vasudeva Murthy,a   Preeti Madhukar Chaudhary,a   Manalee Surve,b   Anirban Banerjeeb  and  Raghavendra Kikkeri*a  

* Corresponding authors

a Indian Institute of Science Education and Research, Pashan, Pune 411008, India
E-mail: rkikkeri@iiserpune.ac.in
Fax: +91-20-25899790
Tel: +91-20-25908207

b Indian Institute of Technology, Department of Bioscience and Bioengineering, Bombay-400076, India

Abstract

Advances in shape-dependent nanoparticle (NP) research have prompted a close scrutiny of the behaviour of nanostructures in vitro and in vivo. Data pertaining to cellular uptake and site specific sequestration of different shapes of NPs will undoubtedly assist researchers to design better nano-probes for therapeutic and imaging purposes. Herein, we investigated the shape dependent uptake of glyco-gold nanoparticles (G-AuNPs) in different cancer cell lines. Specifically, we have compared the behaviour of spherical, rod and star AuNPs with mannose and galactose conjugations. In vitro experiments showed that the rod-AuNPs exhibited the highest uptake over that of the star and spherical counterparts. Further, an investigation of the mechanism of the uptake clearly demonstrated clathrin mediated endocytosis of the specific G-AuNPs. These results reveal the benefits of different G-AuNP shapes in carbohydrate-mediated interactions.

Graphical abstract: Glyco-gold nanoparticle shapes enhance carbohydrate–protein interactions in mammalian cells

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Article information

DOI
https://doi.org/10.1039/C6NR03008D
Article type
Paper
Submitted
12 Apr 2016
Accepted
27 May 2016
First published
27 May 2016

Nanoscale, 2016,8, 12729-12735

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Glyco-gold nanoparticle shapes enhance carbohydrate–protein interactions in mammalian cells

S. Sangabathuni, R. Vasudeva Murthy, P. M. Chaudhary, M. Surve, A. Banerjee and R. Kikkeri, Nanoscale, 2016, 8, 12729 DOI: 10.1039/C6NR03008D

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