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High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer
Biological nanoparticles, including viruses and extracellular vesicles (EVs), are of interest to many fields of medicine as biomarkers and mediators of or treatments for disease. However, exosomes and small viruses fall below the detection limits of conventional flow cytometers due to the overlap of...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Taylor & Francis
2019
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6586126/ https://www.ncbi.nlm.nih.gov/pubmed/31258878 http://dx.doi.org/10.1080/20013078.2019.1597603 |
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| author | Morales-Kastresana, Aizea Musich, Thomas A. Welsh, Joshua A. Telford, William Demberg, Thorsten Wood, James C. S. Bigos, Marty Ross, Carley D. Kachynski, Aliaksander Dean, Alan Felton, Edward J. Van Dyke, Jonathan Tigges, John Toxavidis, Vasilis Parks, David R. Overton, W. Roy Kesarwala, Aparna H. Freeman, Gordon J. Rosner, Ariel Perfetto, Stephen P. Pasquet, Lise Terabe, Masaki McKinnon, Katherine Kapoor, Veena Trepel, Jane B. Puri, Anu Kobayashi, Hisataka Yung, Bryant Chen, Xiaoyuan Guion, Peter Choyke, Peter Knox, Susan J. Ghiran, Ionita Robert-Guroff, Marjorie Berzofsky, Jay A. Jones, Jennifer C. |
| author_facet | Morales-Kastresana, Aizea Musich, Thomas A. Welsh, Joshua A. Telford, William Demberg, Thorsten Wood, James C. S. Bigos, Marty Ross, Carley D. Kachynski, Aliaksander Dean, Alan Felton, Edward J. Van Dyke, Jonathan Tigges, John Toxavidis, Vasilis Parks, David R. Overton, W. Roy Kesarwala, Aparna H. Freeman, Gordon J. Rosner, Ariel Perfetto, Stephen P. Pasquet, Lise Terabe, Masaki McKinnon, Katherine Kapoor, Veena Trepel, Jane B. Puri, Anu Kobayashi, Hisataka Yung, Bryant Chen, Xiaoyuan Guion, Peter Choyke, Peter Knox, Susan J. Ghiran, Ionita Robert-Guroff, Marjorie Berzofsky, Jay A. Jones, Jennifer C. |
| author_sort | Morales-Kastresana, Aizea |
| collection | PubMed |
| description | Biological nanoparticles, including viruses and extracellular vesicles (EVs), are of interest to many fields of medicine as biomarkers and mediators of or treatments for disease. However, exosomes and small viruses fall below the detection limits of conventional flow cytometers due to the overlap of particle-associated scattered light signals with the detection of background instrument noise from diffusely scattered light. To identify, sort, and study distinct subsets of EVs and other nanoparticles, as individual particles, we developed nanoscale Fluorescence Analysis and Cytometric Sorting (nanoFACS) methods to maximise information and material that can be obtained with high speed, high resolution flow cytometers. This nanoFACS method requires analysis of the instrument background noise (herein defined as the “reference noise”). With these methods, we demonstrate detection of tumour cell-derived EVs with specific tumour antigens using both fluorescence and scattered light parameters. We further validated the performance of nanoFACS by sorting two distinct HIV strains to >95% purity and confirmed the viability (infectivity) and molecular specificity (specific cell tropism) of biological nanomaterials sorted with nanoFACS. This nanoFACS method provides a unique way to analyse and sort functional EV- and viral-subsets with preservation of vesicular structure, surface protein specificity and RNA cargo activity. |
| format | Online Article Text |
| id | pubmed-6586126 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2019 |
| publisher | Taylor & Francis |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-65861262019-06-28 High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer Morales-Kastresana, Aizea Musich, Thomas A. Welsh, Joshua A. Telford, William Demberg, Thorsten Wood, James C. S. Bigos, Marty Ross, Carley D. Kachynski, Aliaksander Dean, Alan Felton, Edward J. Van Dyke, Jonathan Tigges, John Toxavidis, Vasilis Parks, David R. Overton, W. Roy Kesarwala, Aparna H. Freeman, Gordon J. Rosner, Ariel Perfetto, Stephen P. Pasquet, Lise Terabe, Masaki McKinnon, Katherine Kapoor, Veena Trepel, Jane B. Puri, Anu Kobayashi, Hisataka Yung, Bryant Chen, Xiaoyuan Guion, Peter Choyke, Peter Knox, Susan J. Ghiran, Ionita Robert-Guroff, Marjorie Berzofsky, Jay A. Jones, Jennifer C. J Extracell Vesicles Research Article Biological nanoparticles, including viruses and extracellular vesicles (EVs), are of interest to many fields of medicine as biomarkers and mediators of or treatments for disease. However, exosomes and small viruses fall below the detection limits of conventional flow cytometers due to the overlap of particle-associated scattered light signals with the detection of background instrument noise from diffusely scattered light. To identify, sort, and study distinct subsets of EVs and other nanoparticles, as individual particles, we developed nanoscale Fluorescence Analysis and Cytometric Sorting (nanoFACS) methods to maximise information and material that can be obtained with high speed, high resolution flow cytometers. This nanoFACS method requires analysis of the instrument background noise (herein defined as the “reference noise”). With these methods, we demonstrate detection of tumour cell-derived EVs with specific tumour antigens using both fluorescence and scattered light parameters. We further validated the performance of nanoFACS by sorting two distinct HIV strains to >95% purity and confirmed the viability (infectivity) and molecular specificity (specific cell tropism) of biological nanomaterials sorted with nanoFACS. This nanoFACS method provides a unique way to analyse and sort functional EV- and viral-subsets with preservation of vesicular structure, surface protein specificity and RNA cargo activity. Taylor & Francis 2019-06-19 /pmc/articles/PMC6586126/ /pubmed/31258878 http://dx.doi.org/10.1080/20013078.2019.1597603 Text en This work was authored as part of the Contributor’s official duties as an Employee of the United States Government and is therefore a work of the United States Government. In accordance with 17 U.S.C. 105, no copyright protection is available for such works under U.S. Law. http://creativecommons.org/licenses/by-nc/4.0/ This is an Open Access article that has been identified as being free of known restrictions under copyright law, including all related and neighboring rights (https://creativecommons.org/publicdomain/mark/1.0/). You can copy, modify, distribute and perform the work, even for commercial purposes, all without asking permission. |
| spellingShingle | Research Article Morales-Kastresana, Aizea Musich, Thomas A. Welsh, Joshua A. Telford, William Demberg, Thorsten Wood, James C. S. Bigos, Marty Ross, Carley D. Kachynski, Aliaksander Dean, Alan Felton, Edward J. Van Dyke, Jonathan Tigges, John Toxavidis, Vasilis Parks, David R. Overton, W. Roy Kesarwala, Aparna H. Freeman, Gordon J. Rosner, Ariel Perfetto, Stephen P. Pasquet, Lise Terabe, Masaki McKinnon, Katherine Kapoor, Veena Trepel, Jane B. Puri, Anu Kobayashi, Hisataka Yung, Bryant Chen, Xiaoyuan Guion, Peter Choyke, Peter Knox, Susan J. Ghiran, Ionita Robert-Guroff, Marjorie Berzofsky, Jay A. Jones, Jennifer C. High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer |
| title | High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer |
| title_full | High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer |
| title_fullStr | High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer |
| title_full_unstemmed | High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer |
| title_short | High-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer |
| title_sort | high-fidelity detection and sorting of nanoscale vesicles in viral disease and cancer |
| topic | Research Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6586126/ https://www.ncbi.nlm.nih.gov/pubmed/31258878 http://dx.doi.org/10.1080/20013078.2019.1597603 |
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