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Microfluidic-based capture and release of cancer-derived exosomes <i>via</i> peptide–nanowire hybrid interface

Thanawat Suwatthanarak, Ivan Adiyasa Thiodorus, Masayoshi Tanaka, Taisuke Shimada, Daiki Takeshita, Takao Yasui, Yoshinobu Baba, Mina Okochi

2020Lab on a Chip96 citationsDOI

Abstract

Cancer-derived circulating exosomes or nanoscale extracellular vesicles are emerging biomarkers for disease detection and treatment because of their cell-specific constituents and unique intercellular pathways. For efficient exosome isolation from bio-fluids, the design of high-affinity nanointerfaces is of great importance in the development of miniaturized systems for the collection of exosomes. Herein, we report peptide-functionalized nanowires as a biorecognition interface for the capture and release of cancer-derived exosomes within a microfluidic channel. Based on the amino-acid sequence of EWI-2 protein, a partial peptide that bound to the CD9 exosome marker and thus targeted cancer exosomes was screened. Linkage of the exosome-targeting peptide with a ZnO-binding sequence allowed one-step and reagent-free peptide modification of the ZnO nanowire array. As a result of peptide functionalization, the exosome-capturing ability of ZnO nanowires was significantly improved. Furthermore, the captured exosomes could be subsequently released from the nanowires under a neutral salt condition for downstream applications. This engineered surface that enhances the nanowires' efficiency in selective and controllable collection of cancer-derived exosomes provides an alternative foundation for developing microfluidic platforms for exosome-based diagnostics and therapeutics.

Topics & Concepts

MicrovesiclesNanowireInterface (matter)PeptideMicrofluidicsNanotechnologyMaterials scienceNanoparticleCancer cellCancerChemistryBiophysicsBiochemistryBiologyPulmonary surfactantmicroRNAGeneGeneticsGibbs isothermExtracellular vesicles in diseaseRNA Interference and Gene DeliveryPolymer Surface Interaction Studies
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