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Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform

The power of personalized medicine is based on a deep understanding of cellular and molecular processes underlying disease pathogenesis. Accurately characterizing and analyzing connections between these processes is dependent on our ability to access multiple classes of biomarkers (DNA, RNA, and pro...

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Autores principales: Hinestrosa, Juan Pablo, Searson, David J., Lewis, Jean M., Kinana, Alfred, Perrera, Orlando, Dobrovolskaia, Irina, Tran, Kevin, Turner, Robert, Balcer, Heath I., Clark, Iryna, Bodkin, David, Hoon, Dave S. B., Krishnan, Rajaram
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7674311/
https://www.ncbi.nlm.nih.gov/pubmed/33224932
http://dx.doi.org/10.3389/fbioe.2020.581157
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author Hinestrosa, Juan Pablo
Searson, David J.
Lewis, Jean M.
Kinana, Alfred
Perrera, Orlando
Dobrovolskaia, Irina
Tran, Kevin
Turner, Robert
Balcer, Heath I.
Clark, Iryna
Bodkin, David
Hoon, Dave S. B.
Krishnan, Rajaram
author_facet Hinestrosa, Juan Pablo
Searson, David J.
Lewis, Jean M.
Kinana, Alfred
Perrera, Orlando
Dobrovolskaia, Irina
Tran, Kevin
Turner, Robert
Balcer, Heath I.
Clark, Iryna
Bodkin, David
Hoon, Dave S. B.
Krishnan, Rajaram
author_sort Hinestrosa, Juan Pablo
collection PubMed
description The power of personalized medicine is based on a deep understanding of cellular and molecular processes underlying disease pathogenesis. Accurately characterizing and analyzing connections between these processes is dependent on our ability to access multiple classes of biomarkers (DNA, RNA, and proteins)—ideally, in a minimally processed state. Here, we characterize a biomarker isolation platform that enables simultaneous isolation and on-chip detection of cell-free DNA (cfDNA), extracellular vesicle RNA (EV-RNA), and EV-associated proteins in unprocessed biological fluids using AC Electrokinetics (ACE). Human biofluid samples were flowed over the ACE microelectrode array (ACE chip) on the Verita platform while an electrical signal was applied, inducing a field that reversibly captured biomarkers onto the microelectrode array. Isolated cfDNA, EV-RNA, and EV-associated proteins were visualized directly on the chip using DNA and RNA specific dyes or antigen-specific, directly conjugated antibodies (CD63, TSG101, PD-L1, GPC-1), respectively. Isolated material was also eluted off the chip and analyzed downstream by multiple methods, including PCR, RT-PCR, next-generation sequencing (NGS), capillary electrophoresis, and nanoparticle size characterization. The detection workflow confirmed the capture of cfDNA, EV-RNA, and EV-associated proteins from human biofluids on the ACE chip. Tumor specific variants and the mRNAs of housekeeping gene PGK1 were detected in cfDNA and RNA isolated directly from chips in PCR, NGS, and RT-PCR assays, demonstrating that high-quality material can be isolated from donor samples using the isolation workflow. Detection of the luminal membrane protein TSG101 with antibodies depended on membrane permeabilization, consistent with the presence of vesicles on the chip. Protein, morphological, and size characterization revealed that these vesicles had the characteristics of EVs. The results demonstrated that unprocessed cfDNA, EV-RNA, and EV-associated proteins can be isolated and simultaneously fluorescently analyzed on the ACE chip. The compatibility with established downstream technologies may also allow the use of the platform as a sample preparation method for workflows that could benefit from access to unprocessed exosomal, genomic, and proteomic biomarkers.
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spelling pubmed-76743112020-11-19 Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform Hinestrosa, Juan Pablo Searson, David J. Lewis, Jean M. Kinana, Alfred Perrera, Orlando Dobrovolskaia, Irina Tran, Kevin Turner, Robert Balcer, Heath I. Clark, Iryna Bodkin, David Hoon, Dave S. B. Krishnan, Rajaram Front Bioeng Biotechnol Bioengineering and Biotechnology The power of personalized medicine is based on a deep understanding of cellular and molecular processes underlying disease pathogenesis. Accurately characterizing and analyzing connections between these processes is dependent on our ability to access multiple classes of biomarkers (DNA, RNA, and proteins)—ideally, in a minimally processed state. Here, we characterize a biomarker isolation platform that enables simultaneous isolation and on-chip detection of cell-free DNA (cfDNA), extracellular vesicle RNA (EV-RNA), and EV-associated proteins in unprocessed biological fluids using AC Electrokinetics (ACE). Human biofluid samples were flowed over the ACE microelectrode array (ACE chip) on the Verita platform while an electrical signal was applied, inducing a field that reversibly captured biomarkers onto the microelectrode array. Isolated cfDNA, EV-RNA, and EV-associated proteins were visualized directly on the chip using DNA and RNA specific dyes or antigen-specific, directly conjugated antibodies (CD63, TSG101, PD-L1, GPC-1), respectively. Isolated material was also eluted off the chip and analyzed downstream by multiple methods, including PCR, RT-PCR, next-generation sequencing (NGS), capillary electrophoresis, and nanoparticle size characterization. The detection workflow confirmed the capture of cfDNA, EV-RNA, and EV-associated proteins from human biofluids on the ACE chip. Tumor specific variants and the mRNAs of housekeeping gene PGK1 were detected in cfDNA and RNA isolated directly from chips in PCR, NGS, and RT-PCR assays, demonstrating that high-quality material can be isolated from donor samples using the isolation workflow. Detection of the luminal membrane protein TSG101 with antibodies depended on membrane permeabilization, consistent with the presence of vesicles on the chip. Protein, morphological, and size characterization revealed that these vesicles had the characteristics of EVs. The results demonstrated that unprocessed cfDNA, EV-RNA, and EV-associated proteins can be isolated and simultaneously fluorescently analyzed on the ACE chip. The compatibility with established downstream technologies may also allow the use of the platform as a sample preparation method for workflows that could benefit from access to unprocessed exosomal, genomic, and proteomic biomarkers. Frontiers Media S.A. 2020-11-05 /pmc/articles/PMC7674311/ /pubmed/33224932 http://dx.doi.org/10.3389/fbioe.2020.581157 Text en Copyright © 2020 Hinestrosa, Searson, Lewis, Kinana, Perrera, Dobrovolskaia, Tran, Turner, Balcer, Clark, Bodkin, Hoon and Krishnan. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Bioengineering and Biotechnology
Hinestrosa, Juan Pablo
Searson, David J.
Lewis, Jean M.
Kinana, Alfred
Perrera, Orlando
Dobrovolskaia, Irina
Tran, Kevin
Turner, Robert
Balcer, Heath I.
Clark, Iryna
Bodkin, David
Hoon, Dave S. B.
Krishnan, Rajaram
Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform
title Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform
title_full Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform
title_fullStr Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform
title_full_unstemmed Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform
title_short Simultaneous Isolation of Circulating Nucleic Acids and EV-Associated Protein Biomarkers From Unprocessed Plasma Using an AC Electrokinetics-Based Platform
title_sort simultaneous isolation of circulating nucleic acids and ev-associated protein biomarkers from unprocessed plasma using an ac electrokinetics-based platform
topic Bioengineering and Biotechnology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7674311/
https://www.ncbi.nlm.nih.gov/pubmed/33224932
http://dx.doi.org/10.3389/fbioe.2020.581157
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