1. Aptamer-Cholesterol-Mediated Proximity Ligation Assay for Accurate Identification of Exosomes
- Author
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Hongmin Zhang, Dongwei Su, Canjun Luo, Yang Luo, Wenqing Zhang, Qiang Mei, Weiling Fu, and Xianxian Zhao
- Subjects
business.industry ,Chemistry ,Aptamer ,010401 analytical chemistry ,Computational biology ,Proximity ligation assay ,Biosensing Techniques ,Aptamers, Nucleotide ,010402 general chemistry ,Exosomes ,01 natural sciences ,Microvesicles ,0104 chemical sciences ,Analytical Chemistry ,Cholesterol ,Rolling circle replication ,A549 Cells ,Limit of Detection ,Molecular Probes ,Humans ,Identification (biology) ,Personalized medicine ,business ,Surface protein ,Signal amplification - Abstract
Accurate identification of exosomes plays an essential role in facilitating disease diagnosis and therapies. Herein, we proposed an Aptamer-cholesterol-mediated Proximity Ligation Assay (AcmPLA) for accurate identification of exosomes in a dual-probe strategy, one aptamer probe for recognition of exosomal innate surface protein CD63 and another cholesterol probe for biolipid layer targeting. By integrating a proximity ligation of probes bound with exosomal biomarkers for specific recognition and a rolling circle amplification (RCA) strategy for signal amplification, we have successfully developed an exosomes-surface approach that can perform "AND" logic analysis of dual biomarkers, which not only could be used for exosomes quantification, but also for exosomes tracing. Besides RCA-initiated signal amplification, CD9 antibody-labeled magnetic beads were used to capture exosomes for isolation and secondary signal enrichment. Our approach can achieve specific exosomes isolation and accurate identification and thus could be exploited for broad applications in biological science, biomedical engineering, and personalized medicine.
- Published
- 2020