Hui Chen1, Caixia Luo1, Moyu Yang1, Junying Li1, Pei Ma1, Xuedian Zhang1. 1. Shanghai Key Laboratory of Contemporary Optics System, School of Optical-Electrical & Computer Engineering, University of Shanghai for Science & Technology, 200093, Shanghai, PR China.
Abstract
Aim: Exosomes, known as novel biocompatible vesicles, have attracted much interest. This makes it urgent to observe exosomes at the visually cellular or subcellular levels. Methods: Herein, we constructed a new kind of exosome/metal nanohybrid and employed a surface-enhanced Raman scattering technique to study the intracellular behaviors of hybrid exosomes. Results: Experimental results revealed that hybrid exosomes were internalized mainly through clathrin-mediated endocytosis and thereafter transported to lysosomes. The metal nanoparticles in the hybrid were demonstrated to have little effect on exosomal characteristics while serving as surface-enhanced Raman scattering generators. Conclusion: This study is significant for removing the barrier in designing programmable exosome/metal nanohybrids, which will greatly improve the utility of exosomal nanohybrids for therapeutics, such as multifunctional drug-delivery systems.
Aim: Exosomes, known as novel biocompatible vesicles, have attracted much interest. This makes it urgent to observe exosomes at the visually cellular or subcellular levels. Methods: Herein, we constructed a new kind of exosome/metal nanohybrid and employed a surface-enhanced Raman scattering technique to study the intracellular behaviors of hybrid exosomes. Results: Experimental results revealed that hybrid exosomes were internalized mainly through clathrin-mediated endocytosis and thereafter transported to lysosomes. The metal nanoparticles in the hybrid were demonstrated to have little effect on exosomal characteristics while serving as surface-enhanced Raman scattering generators. Conclusion: This study is significant for removing the barrier in designing programmable exosome/metal nanohybrids, which will greatly improve the utility of exosomal nanohybrids for therapeutics, such as multifunctional drug-delivery systems.
Entities:
Keywords:
exosomes; intracellular sensing; metal nanoparticles; nanohybrids; surface-enhanced Raman scattering
Authors: Lip Ket Chin; Taehwang Son; Jae-Sang Hong; Ai-Qun Liu; Johan Skog; Cesar M Castro; Ralph Weissleder; Hakho Lee; Hyungsoon Im Journal: ACS Nano Date: 2020-10-29 Impact factor: 15.881