Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection

Tumor-derived extracellular vesicles (T-EVs) represent valuable markers for tumor diagnosis and treatment guidance. However, nanoscale sizes and the low abundance of marker proteins of T-EVs restrict interfacial affinity reaction, leading to low isolation efficiency and detection sensitivity. Here,...

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Autores principales: Niu, Qi, Gao, Jiafeng, Zhao, Kaifeng, Chen, Xiaofeng, Lin, Xiaolin, Huang, Chen, An, Yu, Xiao, Xiuying, Wu, Qiaoyi, Cui, Liang, Zhang, Peng, Wu, Lingling, Yang, Chaoyong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2022
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9636968/
https://www.ncbi.nlm.nih.gov/pubmed/36306324
http://dx.doi.org/10.1073/pnas.2213236119
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author Niu, Qi
Gao, Jiafeng
Zhao, Kaifeng
Chen, Xiaofeng
Lin, Xiaolin
Huang, Chen
An, Yu
Xiao, Xiuying
Wu, Qiaoyi
Cui, Liang
Zhang, Peng
Wu, Lingling
Yang, Chaoyong
author_facet Niu, Qi
Gao, Jiafeng
Zhao, Kaifeng
Chen, Xiaofeng
Lin, Xiaolin
Huang, Chen
An, Yu
Xiao, Xiuying
Wu, Qiaoyi
Cui, Liang
Zhang, Peng
Wu, Lingling
Yang, Chaoyong
author_sort Niu, Qi
collection PubMed
description Tumor-derived extracellular vesicles (T-EVs) represent valuable markers for tumor diagnosis and treatment guidance. However, nanoscale sizes and the low abundance of marker proteins of T-EVs restrict interfacial affinity reaction, leading to low isolation efficiency and detection sensitivity. Here, we engineer a fluid nanoporous microinterface (FluidporeFace) in a microfluidic chip by decorating supported lipid bilayers (SLBs) on nanoporous herringbone microstructures with a multiscale-enhanced affinity reaction for efficient isolation of T-EVs. At the microscale level, the herringbone micropattern promotes the mass transfer of T-EVs to the surface. At the nanoscale level, nanoporousity can overcome boundary effects for close contact between T-EVs and the interface. At the molecular level, fluid SLBs afford clustering of recognition molecules at the binding site, enabling multivalent binding with an ∼83-fold increase of affinity compared with the nonfluid interface. With the synergetic enhanced mass transfer, interface contact, and binding affinity, FluidporeFace affords ultrasensitive detection of T-EVs with a limit of detection of 10 T-EVs μL(−1), whose PD-L1 expression levels successfully distinguish cancer patients from healthy donors. We expect this multiscale enhanced interfacial reaction strategy will inspire the biosensor design and expand liquid biopsy applications, especially for low-abundant targets in clinical samples.
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spelling pubmed-96369682023-04-28 Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection Niu, Qi Gao, Jiafeng Zhao, Kaifeng Chen, Xiaofeng Lin, Xiaolin Huang, Chen An, Yu Xiao, Xiuying Wu, Qiaoyi Cui, Liang Zhang, Peng Wu, Lingling Yang, Chaoyong Proc Natl Acad Sci U S A Biological Sciences Tumor-derived extracellular vesicles (T-EVs) represent valuable markers for tumor diagnosis and treatment guidance. However, nanoscale sizes and the low abundance of marker proteins of T-EVs restrict interfacial affinity reaction, leading to low isolation efficiency and detection sensitivity. Here, we engineer a fluid nanoporous microinterface (FluidporeFace) in a microfluidic chip by decorating supported lipid bilayers (SLBs) on nanoporous herringbone microstructures with a multiscale-enhanced affinity reaction for efficient isolation of T-EVs. At the microscale level, the herringbone micropattern promotes the mass transfer of T-EVs to the surface. At the nanoscale level, nanoporousity can overcome boundary effects for close contact between T-EVs and the interface. At the molecular level, fluid SLBs afford clustering of recognition molecules at the binding site, enabling multivalent binding with an ∼83-fold increase of affinity compared with the nonfluid interface. With the synergetic enhanced mass transfer, interface contact, and binding affinity, FluidporeFace affords ultrasensitive detection of T-EVs with a limit of detection of 10 T-EVs μL(−1), whose PD-L1 expression levels successfully distinguish cancer patients from healthy donors. We expect this multiscale enhanced interfacial reaction strategy will inspire the biosensor design and expand liquid biopsy applications, especially for low-abundant targets in clinical samples. National Academy of Sciences 2022-10-28 2022-11-01 /pmc/articles/PMC9636968/ /pubmed/36306324 http://dx.doi.org/10.1073/pnas.2213236119 Text en Copyright © 2022 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Niu, Qi
Gao, Jiafeng
Zhao, Kaifeng
Chen, Xiaofeng
Lin, Xiaolin
Huang, Chen
An, Yu
Xiao, Xiuying
Wu, Qiaoyi
Cui, Liang
Zhang, Peng
Wu, Lingling
Yang, Chaoyong
Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection
title Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection
title_full Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection
title_fullStr Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection
title_full_unstemmed Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection
title_short Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection
title_sort fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9636968/
https://www.ncbi.nlm.nih.gov/pubmed/36306324
http://dx.doi.org/10.1073/pnas.2213236119
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