Kisho Mori scite author profile

Small extracellular vesicles (sEVs) are reliable biomarkers for early cancer detection; however, conventional detection methods such as immune-based assays and microRNA analyses are not very sensitive and require sample pretreatments and long analysis time. Here, we developed a molecular imprintingbased dynamic molding approach to fabricate antibody-conjugated signaling nanocavities capable of size recognition. This enabled the establishment of an easy-to-use, rapid, sensitive, pretreatment-free, and noninvasive sEV detection platform for efficient sEV detection-based cancer diagnosis. An apparent dissociation constant was estimated to be 2.4 × 10 −16 M, which was ∼1000 times higher than that of commercial immunoassays (analysis time, 5 min/sample). We successfully used tears for the first time to detect cancer-related intact sEVs, clearly differentiating between healthy donors and breast cancer patients, as well as between samples collected before and after total mastectomy. Our nanoprocessing strategy can be easily repurposed for the specific detection of other types of cancer by changing the conjugated antibodies, thereby facilitating the establishment of liquid biopsy for early cancer diagnosis.

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A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes

Mori

Hirase

Morishige

et al. 2019

Angew Chem Int Ed

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Exosomes are small (30–100 nm) membrane vesicles that serve as regulatory agents for intercellular communication in cancers. Currently, exosomes are detected by immuno‐based assays with appropriate pretreatments like ultracentrifugation and are time consuming (>12 h). We present a novel pretreatment‐free fluorescence‐based sensing platform for intact exosomes, wherein exchangeable antibodies and fluorescent reporter molecules were aligned inside exosome‐binding cavities. Such antibody‐containing fluorescent reporter‐grafted nanocavities were prepared on a substrate by well‐designed molecular imprinting and post‐imprinting modifications to introduce antibodies and fluorescent reporter molecules only inside the binding nanocavities, enabling sufficiently high sensitivity to detect intact exosomes without pretreatment. The effectiveness of the system was demonstrated by using it to discriminate between normal exosomes and those originating from prostate cancer and analyze exosomes in tear drops.

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A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes

et al. 2019

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Inside Cover: A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes (Angew. Chem. Int. Ed. 6/2019)

et al. 2018

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Innentitelbild: A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes (Angew. Chem. 6/2019)

et al. 2018

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Kisho Mori

Antibody-Conjugated Signaling Nanocavities Fabricated by Dynamic Molding for Detecting Cancers Using Small Extracellular Vesicle Markers from Tears

A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes

A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes

Inside Cover: A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes (Angew. Chem. Int. Ed. 6/2019)

Innentitelbild: A Pretreatment‐Free, Polymer‐Based Platform Prepared by Molecular Imprinting and Post‐Imprinting Modifications for Sensing Intact Exosomes (Angew. Chem. 6/2019)

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