Dan Luo
1 Department of Medical Experimental Center, Affiliated Dongfeng Hospital of Hubei University of Medicine, Shiyan 442008, Hubei, China;2 College of Pharmacy, Hubei University of Medicine, Shiyan 442000, Hubei, ChinaFengying Ran
1 Department of Medical Experimental Center, Affiliated Dongfeng Hospital of Hubei University of Medicine, Shiyan 442008, Hubei, ChinaLun Wu
1 Department of Medical Experimental Center, Affiliated Dongfeng Hospital of Hubei University of Medicine, Shiyan 442008, Hubei, ChinaJuan Zhang
4 College of Chemistry and Environmental Engineering, Wuhan Institute of Technology, Wuhan 430205, Hubei, ChinaFangling Ren
1 Department of Medical Experimental Center, Affiliated Dongfeng Hospital of Hubei University of Medicine, Shiyan 442008, Hubei, China;2 College of Pharmacy, Hubei University of Medicine, Shiyan 442000, Hubei, ChinaJingjian Liu
1 Department of Medical Experimental Center, Affiliated Dongfeng Hospital of Hubei University of Medicine, Shiyan 442008, Hubei, China;2 College of Pharmacy, Hubei University of Medicine, Shiyan 442000, Hubei, ChinaBinqiang Zhang
1 Department of Medical Experimental Center, Affiliated Dongfeng Hospital of Hubei University of Medicine, Shiyan 442008, Hubei, ChinaQinhua Chen
1 Department of Medical Experimental Center, Affiliated Dongfeng Hospital of Hubei University of Medicine, Shiyan 442008, Hubei, China;3 Department of Pharmacy, Shenzhen Baoan Authentic TCM Therapy Hospital, Shenzhen 518102, Guangdong, ChinaNational Natural Science Foundation of China (No. 81872509), Hubei Province Health and Family Planning Scientific Research Project (No. WJ2019M054), the Free Exploration Project of Hubei University of Medicine (No. FDFR201804), the Scientific and Technology Project of Shiyan City of Hubei Province (No. 19Y93), the Innovative Research Program for Graduates of Hubei University of Medicine (No. YC2019021).
We developed a high-efficiency microfluidic chip for extracting exosomes from human plasma. We collected peripheral blood from normal human, designed and fabricated a microfluidic chip based on nanoporous membrane and agarose gel electrophoresis to isolate exosomes. The extracted exosomes were characterized by transmission electron microscopy, nanosight and Western blotting, the morphology, concentration and particle size of exosomes were identified and analyzed. Meanwhile, we used ultracentrifugation and microfluidic chip to isolate exosomes separately. The particle size and concentration of the exosomes extracted by two methods were compared and analyzed, and their respective extraction efficiency was discussed. Finally, the expression level of miRNA-21 in exosomes was analyzed by RT-PCR. The microfluidic chip isolated (in 1 hour) high-purity exosomes with size ranging from 30–200 nm directly from human plasma, allowing downstream exosomal miRNA analysis. By comparing with ultracentrifugation, the isolation yield of microfluidic chip was 3.80 times higher than ultracentrifugation when the volume of plasma sample less than 100 μL. The optimized parameters for exosome isolation by gel electrophoresis microfluidic chip were: voltage: 100 V; concentration of agarose gel: 1.0%; flow rate of injection pump: 0.1 mL/h. The gel electrophoresis microfluidic chips could rapidly and efficiently isolate the exosomes, showing great potential in the research of exosomes and cancer biomarkers.
罗丹,冉凤英,武伦,张娟,任芳玲,刘经健,张斌强,陈琴华. 凝胶电泳微流控芯片提取外泌体及对人血浆外泌体中miRNA-21的测定[J]. Chinese Journal of Biotechnology, 2021, 37(2): 663-672
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