Analysis of extracellular vesicle mRNA derived from plasma using the nCounter platform

Jillian W P Bracht; Ana Gimenez-Capitan; Chung-Ying Huang; Nicolas Potie; Carlos Pedraz-Valdunciel; Sarah Warren; Rafael Rosell; Miguel A Molina-Vila

doi:https://doi.org/10.1038/s41598-021-83132-0

Analysis of extracellular vesicle mRNA derived from plasma using the nCounter platform

Jillian W P Bracht, Ana Gimenez-Capitan, Chung-Ying Huang, Nicolas Potie, Carlos Pedraz-Valdunciel, Sarah Warren, Rafael Rosell, Miguel A Molina-Vila

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Extracellular vesicles (EVs) are double-layered phospholipid membrane vesicles that are released by most cells and can mediate intercellular communication through their RNA cargo. In this study, we tested if the NanoString nCounter platform can be used for the analysis of EV-mRNA. We developed and optimized a methodology for EV enrichment, EV-RNA extraction and nCounter analysis. Then, we demonstrated the validity of our workflow by analyzing EV-RNA profiles from the plasma of 19 cancer patients and 10 controls and developing a gene signature to differentiate cancer versus control samples. TRI reagent outperformed automated RNA extraction and, although lower plasma input is feasible, 500 μL provided highest total counts and number of transcripts detected. A 10-cycle pre-amplification followed by DNase treatment yielded reproducible mRNA target detection. However, appropriate probe design to prevent genomic DNA binding is preferred. A gene signature, created using a bioinformatic algorithm, was able to distinguish between control and cancer EV-mRNA profiles with an area under the ROC curve of 0.99. Hence, the nCounter platform can be used to detect mRNA targets and develop gene signatures from plasma-derived EVs.

Original language	English
Pages (from-to)	3712
Journal	Scientific reports
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41598-021-83132-0
Publication status	Published - 12 Feb 2021
Externally published	Yes

Keywords

Blood Chemical Analysis/instrumentation
Case-Control Studies
Extracellular Vesicles/chemistry
Humans
Neoplasms/metabolism
Proof of Concept Study
RNA, Messenger/analysis

Access to Document

https://doi.org/10.1038/s41598-021-83132-0

Cite this

@article{7ed4864b64364069ba787274374e5051,

title = "Analysis of extracellular vesicle mRNA derived from plasma using the nCounter platform",

abstract = "Extracellular vesicles (EVs) are double-layered phospholipid membrane vesicles that are released by most cells and can mediate intercellular communication through their RNA cargo. In this study, we tested if the NanoString nCounter platform can be used for the analysis of EV-mRNA. We developed and optimized a methodology for EV enrichment, EV-RNA extraction and nCounter analysis. Then, we demonstrated the validity of our workflow by analyzing EV-RNA profiles from the plasma of 19 cancer patients and 10 controls and developing a gene signature to differentiate cancer versus control samples. TRI reagent outperformed automated RNA extraction and, although lower plasma input is feasible, 500 μL provided highest total counts and number of transcripts detected. A 10-cycle pre-amplification followed by DNase treatment yielded reproducible mRNA target detection. However, appropriate probe design to prevent genomic DNA binding is preferred. A gene signature, created using a bioinformatic algorithm, was able to distinguish between control and cancer EV-mRNA profiles with an area under the ROC curve of 0.99. Hence, the nCounter platform can be used to detect mRNA targets and develop gene signatures from plasma-derived EVs.",

keywords = "Blood Chemical Analysis/instrumentation, Case-Control Studies, Extracellular Vesicles/chemistry, Humans, Neoplasms/metabolism, Proof of Concept Study, RNA, Messenger/analysis",

author = "Bracht, {Jillian W P} and Ana Gimenez-Capitan and Chung-Ying Huang and Nicolas Potie and Carlos Pedraz-Valdunciel and Sarah Warren and Rafael Rosell and Molina-Vila, {Miguel A}",

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AU - Bracht, Jillian W P

AU - Gimenez-Capitan, Ana

AU - Huang, Chung-Ying

AU - Potie, Nicolas

AU - Pedraz-Valdunciel, Carlos

AU - Warren, Sarah

AU - Rosell, Rafael

AU - Molina-Vila, Miguel A

PY - 2021/2/12

Y1 - 2021/2/12

N2 - Extracellular vesicles (EVs) are double-layered phospholipid membrane vesicles that are released by most cells and can mediate intercellular communication through their RNA cargo. In this study, we tested if the NanoString nCounter platform can be used for the analysis of EV-mRNA. We developed and optimized a methodology for EV enrichment, EV-RNA extraction and nCounter analysis. Then, we demonstrated the validity of our workflow by analyzing EV-RNA profiles from the plasma of 19 cancer patients and 10 controls and developing a gene signature to differentiate cancer versus control samples. TRI reagent outperformed automated RNA extraction and, although lower plasma input is feasible, 500 μL provided highest total counts and number of transcripts detected. A 10-cycle pre-amplification followed by DNase treatment yielded reproducible mRNA target detection. However, appropriate probe design to prevent genomic DNA binding is preferred. A gene signature, created using a bioinformatic algorithm, was able to distinguish between control and cancer EV-mRNA profiles with an area under the ROC curve of 0.99. Hence, the nCounter platform can be used to detect mRNA targets and develop gene signatures from plasma-derived EVs.

AB - Extracellular vesicles (EVs) are double-layered phospholipid membrane vesicles that are released by most cells and can mediate intercellular communication through their RNA cargo. In this study, we tested if the NanoString nCounter platform can be used for the analysis of EV-mRNA. We developed and optimized a methodology for EV enrichment, EV-RNA extraction and nCounter analysis. Then, we demonstrated the validity of our workflow by analyzing EV-RNA profiles from the plasma of 19 cancer patients and 10 controls and developing a gene signature to differentiate cancer versus control samples. TRI reagent outperformed automated RNA extraction and, although lower plasma input is feasible, 500 μL provided highest total counts and number of transcripts detected. A 10-cycle pre-amplification followed by DNase treatment yielded reproducible mRNA target detection. However, appropriate probe design to prevent genomic DNA binding is preferred. A gene signature, created using a bioinformatic algorithm, was able to distinguish between control and cancer EV-mRNA profiles with an area under the ROC curve of 0.99. Hence, the nCounter platform can be used to detect mRNA targets and develop gene signatures from plasma-derived EVs.

KW - Blood Chemical Analysis/instrumentation

KW - Case-Control Studies

KW - Extracellular Vesicles/chemistry

KW - Humans

KW - Neoplasms/metabolism

KW - Proof of Concept Study

KW - RNA, Messenger/analysis

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DO - https://doi.org/10.1038/s41598-021-83132-0

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