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Tracing Tumor‐Derived Exosomal PD‐L1 by Dual‐Aptamer Activated Proximity‐Induced Droplet Digital PCR
Author(s) -
Lin Bingqian,
Tian Tian,
Lu Yinzhu,
Liu Dan,
Huang Mengjiao,
Zhu Lin,
Zhu Zhi,
Song Yanling,
Yang Chaoyong
Publication year - 2021
Publication title -
angewandte chemie international edition
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.831
H-Index - 550
eISSN - 1521-3773
pISSN - 1433-7851
DOI - 10.1002/anie.202015628
Subject(s) - aptamer , microvesicles , exosome , chemistry , tumor microenvironment , cancer research , tumor cells , computational biology , biophysics , microbiology and biotechnology , microrna , biology , biochemistry , gene
Abstract Tumor‐derived exosomal proteins have emerged as promising biomarkers for cancer diagnosis, but the quantitation accuracy is hindered by large numbers of normal cell‐derived exosomes. Herein, we developed a dual‐ t arget‐specific aptamer r ecognition a ctivated in situ c onnection system on e xosome membrane combined with droplet digital PC R (ddPCR) (TRACER) for quantitation of tumor‐derived exosomal PD‐L1 (Exo‐ PD‐L1 ). Leveraging the high binding affinity of aptamers, excellent selectivity of dual‐aptamer recognition, and the high sensitivity of ddPCR, this method exhibits significant sensitivity and selectivity for tracing tumor‐derived Exo‐ PD‐L1 in a wash‐free manner. Due to the excellent sensitivity, the level of tumor‐derived Exo‐ PD‐L1 detected by TRACER can distinguish cancer patients from healthy donors, and for the first time was identified as a more reliable tumor diagnostic marker than total Exo‐ PD‐L1 . The TRACER strategy holds great potential for converting exosomes into reliable clinical indicators and exploring the biological functions of exosomes.