Urinary exosomal mRNA detection using novel isothermal gene amplification method based on three-way junction

Jeong Moon; Jaewoo Lim; Seoyoung Lee; Hye Young Son; Hyun Wook Rho; Hongki Kim; Hyunju Kang; Jinyoung Jeong; Eun Kyung Lim; Juyeon Jung; Yong Min Huh; Hyun Gyu Park; Taejoon Kang

doi:10.1016/j.bios.2020.112474

Urinary exosomal mRNA detection using novel isothermal gene amplification method based on three-way junction

Jeong Moon, Jaewoo Lim, Seoyoung Lee, Hye Young Son, Hyun Wook Rho, Hongki Kim, Hyunju Kang, Jinyoung Jeong, Eun Kyung Lim, Juyeon Jung, Yong Min Huh, Hyun Gyu Park, Taejoon Kang

Department of Radiology

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

12 Citations (Scopus)

Abstract

Exosomal messenger RNA (mRNA) has emerged as a valuable biomarker for liquid biopsy-based disease diagnosis and prognosis due to its stability in body fluids and its biological regulatory function. Here, we report a rapid one-step isothermal gene amplification reaction based on three-way junction (3WJ) formation and the successful detection of urinary exosomal mRNA from tumor-bearing mice. The 3WJ structure can be formed by the association of 3WJ probes (3WJ-template and 3WJ-primer) in the presence of target RNA. After 3WJ structure formation, the 3WJ primer is repeatedly extended and cleaved by a combination of DNA polymerase and nicking endonuclease, producing multiple signal primers. Subsequently, the signal primers promote a specially designed network reaction pathway to produce G-quadruplex probes under isothermal conditions. Finally, G-quadruplex structure produces highly enhanced fluorescence signal upon binding to thioflavin T. This method provides a detection limit of 1.23 pM (24.6 amol) with high selectivity for the target RNA. More importantly, this method can be useful for the sensing of various kinds of mRNA, including breast cancer cellular mRNA, breast cancer exosomal mRNA, and even urinary exosomal mRNA from breast cancer mice. We anticipate that the developed RNA detection assay can be used for various biomedical applications, such as disease diagnosis, prognosis, and treatment monitoring.

Original language	English
Article number	112474
Journal	Biosensors and Bioelectronics
Volume	167
DOIs	https://doi.org/10.1016/j.bios.2020.112474
Publication status	Published - 2020 Nov 1

Bibliographical note

Funding Information:
This research was supported by the Center for BioNano Health-Guard funded by the Ministry of Science and ICT of Korea ( MSIT ) as Global Frontier Project (H-GUARD_2013M3A6B2078950 and H-GUARD_2014-M3A6B2060507), the Bio & Medical Technology Development Program of the National Research Foundation of Korea (NRF) funded by MSIT ( NRF-2018M3A9E2022821 ), the Basic Science Research Program of NRF funded by MSIT ( NRF-2019R1C1C1006867 ), the midcareer Researcher Support Program of NRF funded by MSIT ( NRF-2018R1A2A1A05022355 ), and KRIBB Research initiative Program. J. Moon is the recipient of Global Ph.D. Fellowship ( NRF-2019H1A2A1073468 ).

Funding Information:
This research was supported by the Center for BioNano Health-Guard funded by the Ministry of Science and ICT of Korea (MSIT) as Global Frontier Project (H-GUARD_2013M3A6B2078950 and H-GUARD_2014-M3A6B2060507), the Bio & Medical Technology Development Program of the National Research Foundation of Korea (NRF) funded by MSIT (NRF-2018M3A9E2022821), the Basic Science Research Program of NRF funded by MSIT (NRF-2019R1C1C1006867), the midcareer Researcher Support Program of NRF funded by MSIT (NRF-2018R1A2A1A05022355), and KRIBB Research initiative Program. J. Moon is the recipient of Global Ph.D. Fellowship (NRF-2019H1A2A1073468).

Publisher Copyright:
© 2020 Elsevier B.V.

All Science Journal Classification (ASJC) codes

Biotechnology
Biophysics
Biomedical Engineering
Electrochemistry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.bios.2020.112474

Cite this

@article{1da2273dfbf74a59b0f8023e792d980b,

title = "Urinary exosomal mRNA detection using novel isothermal gene amplification method based on three-way junction",

abstract = "Exosomal messenger RNA (mRNA) has emerged as a valuable biomarker for liquid biopsy-based disease diagnosis and prognosis due to its stability in body fluids and its biological regulatory function. Here, we report a rapid one-step isothermal gene amplification reaction based on three-way junction (3WJ) formation and the successful detection of urinary exosomal mRNA from tumor-bearing mice. The 3WJ structure can be formed by the association of 3WJ probes (3WJ-template and 3WJ-primer) in the presence of target RNA. After 3WJ structure formation, the 3WJ primer is repeatedly extended and cleaved by a combination of DNA polymerase and nicking endonuclease, producing multiple signal primers. Subsequently, the signal primers promote a specially designed network reaction pathway to produce G-quadruplex probes under isothermal conditions. Finally, G-quadruplex structure produces highly enhanced fluorescence signal upon binding to thioflavin T. This method provides a detection limit of 1.23 pM (24.6 amol) with high selectivity for the target RNA. More importantly, this method can be useful for the sensing of various kinds of mRNA, including breast cancer cellular mRNA, breast cancer exosomal mRNA, and even urinary exosomal mRNA from breast cancer mice. We anticipate that the developed RNA detection assay can be used for various biomedical applications, such as disease diagnosis, prognosis, and treatment monitoring.",

author = "Jeong Moon and Jaewoo Lim and Seoyoung Lee and Son, {Hye Young} and Rho, {Hyun Wook} and Hongki Kim and Hyunju Kang and Jinyoung Jeong and Lim, {Eun Kyung} and Juyeon Jung and Huh, {Yong Min} and Park, {Hyun Gyu} and Taejoon Kang",

note = "Funding Information: This research was supported by the Center for BioNano Health-Guard funded by the Ministry of Science and ICT of Korea ( MSIT ) as Global Frontier Project (H-GUARD_2013M3A6B2078950 and H-GUARD_2014-M3A6B2060507), the Bio & Medical Technology Development Program of the National Research Foundation of Korea (NRF) funded by MSIT ( NRF-2018M3A9E2022821 ), the Basic Science Research Program of NRF funded by MSIT ( NRF-2019R1C1C1006867 ), the midcareer Researcher Support Program of NRF funded by MSIT ( NRF-2018R1A2A1A05022355 ), and KRIBB Research initiative Program. J. Moon is the recipient of Global Ph.D. Fellowship ( NRF-2019H1A2A1073468 ). Funding Information: This research was supported by the Center for BioNano Health-Guard funded by the Ministry of Science and ICT of Korea (MSIT) as Global Frontier Project (H-GUARD_2013M3A6B2078950 and H-GUARD_2014-M3A6B2060507), the Bio & Medical Technology Development Program of the National Research Foundation of Korea (NRF) funded by MSIT (NRF-2018M3A9E2022821), the Basic Science Research Program of NRF funded by MSIT (NRF-2019R1C1C1006867), the midcareer Researcher Support Program of NRF funded by MSIT (NRF-2018R1A2A1A05022355), and KRIBB Research initiative Program. J. Moon is the recipient of Global Ph.D. Fellowship (NRF-2019H1A2A1073468). Publisher Copyright: {\textcopyright} 2020 Elsevier B.V.",

year = "2020",

month = nov,

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doi = "10.1016/j.bios.2020.112474",

language = "English",

volume = "167",

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T1 - Urinary exosomal mRNA detection using novel isothermal gene amplification method based on three-way junction

AU - Moon, Jeong

AU - Lim, Jaewoo

AU - Lee, Seoyoung

AU - Son, Hye Young

AU - Rho, Hyun Wook

AU - Kim, Hongki

AU - Kang, Hyunju

AU - Jeong, Jinyoung

AU - Lim, Eun Kyung

AU - Jung, Juyeon

AU - Huh, Yong Min

AU - Park, Hyun Gyu

AU - Kang, Taejoon

N1 - Funding Information: This research was supported by the Center for BioNano Health-Guard funded by the Ministry of Science and ICT of Korea ( MSIT ) as Global Frontier Project (H-GUARD_2013M3A6B2078950 and H-GUARD_2014-M3A6B2060507), the Bio & Medical Technology Development Program of the National Research Foundation of Korea (NRF) funded by MSIT ( NRF-2018M3A9E2022821 ), the Basic Science Research Program of NRF funded by MSIT ( NRF-2019R1C1C1006867 ), the midcareer Researcher Support Program of NRF funded by MSIT ( NRF-2018R1A2A1A05022355 ), and KRIBB Research initiative Program. J. Moon is the recipient of Global Ph.D. Fellowship ( NRF-2019H1A2A1073468 ). Funding Information: This research was supported by the Center for BioNano Health-Guard funded by the Ministry of Science and ICT of Korea (MSIT) as Global Frontier Project (H-GUARD_2013M3A6B2078950 and H-GUARD_2014-M3A6B2060507), the Bio & Medical Technology Development Program of the National Research Foundation of Korea (NRF) funded by MSIT (NRF-2018M3A9E2022821), the Basic Science Research Program of NRF funded by MSIT (NRF-2019R1C1C1006867), the midcareer Researcher Support Program of NRF funded by MSIT (NRF-2018R1A2A1A05022355), and KRIBB Research initiative Program. J. Moon is the recipient of Global Ph.D. Fellowship (NRF-2019H1A2A1073468). Publisher Copyright: © 2020 Elsevier B.V.

PY - 2020/11/1

Y1 - 2020/11/1

N2 - Exosomal messenger RNA (mRNA) has emerged as a valuable biomarker for liquid biopsy-based disease diagnosis and prognosis due to its stability in body fluids and its biological regulatory function. Here, we report a rapid one-step isothermal gene amplification reaction based on three-way junction (3WJ) formation and the successful detection of urinary exosomal mRNA from tumor-bearing mice. The 3WJ structure can be formed by the association of 3WJ probes (3WJ-template and 3WJ-primer) in the presence of target RNA. After 3WJ structure formation, the 3WJ primer is repeatedly extended and cleaved by a combination of DNA polymerase and nicking endonuclease, producing multiple signal primers. Subsequently, the signal primers promote a specially designed network reaction pathway to produce G-quadruplex probes under isothermal conditions. Finally, G-quadruplex structure produces highly enhanced fluorescence signal upon binding to thioflavin T. This method provides a detection limit of 1.23 pM (24.6 amol) with high selectivity for the target RNA. More importantly, this method can be useful for the sensing of various kinds of mRNA, including breast cancer cellular mRNA, breast cancer exosomal mRNA, and even urinary exosomal mRNA from breast cancer mice. We anticipate that the developed RNA detection assay can be used for various biomedical applications, such as disease diagnosis, prognosis, and treatment monitoring.

AB - Exosomal messenger RNA (mRNA) has emerged as a valuable biomarker for liquid biopsy-based disease diagnosis and prognosis due to its stability in body fluids and its biological regulatory function. Here, we report a rapid one-step isothermal gene amplification reaction based on three-way junction (3WJ) formation and the successful detection of urinary exosomal mRNA from tumor-bearing mice. The 3WJ structure can be formed by the association of 3WJ probes (3WJ-template and 3WJ-primer) in the presence of target RNA. After 3WJ structure formation, the 3WJ primer is repeatedly extended and cleaved by a combination of DNA polymerase and nicking endonuclease, producing multiple signal primers. Subsequently, the signal primers promote a specially designed network reaction pathway to produce G-quadruplex probes under isothermal conditions. Finally, G-quadruplex structure produces highly enhanced fluorescence signal upon binding to thioflavin T. This method provides a detection limit of 1.23 pM (24.6 amol) with high selectivity for the target RNA. More importantly, this method can be useful for the sensing of various kinds of mRNA, including breast cancer cellular mRNA, breast cancer exosomal mRNA, and even urinary exosomal mRNA from breast cancer mice. We anticipate that the developed RNA detection assay can be used for various biomedical applications, such as disease diagnosis, prognosis, and treatment monitoring.

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Urinary exosomal mRNA detection using novel isothermal gene amplification method based on three-way junction

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

UN SDGs

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