Thread-Based Bioluminescent Sensor for Detecting Multiple Antibodies in a Single Drop of Whole Blood

Kosuke Tomimuro, Keisuke Tenda, Yan Ni, Yuki Hiruta, Maarten Merkx (Corresponding author), Daniel Citterio (Corresponding author)

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Samenvatting

Antibodies are important biomarkers in clinical diagnostics in addition to being increasingly used for therapeutic purposes. Although numerous methods for their detection and quantification exist, they predominantly require benchtop instruments operated by specialists. To enable the detection of antibodies at point-of-care (POC), the development of simple and rapid assay methods independent of laboratory equipment is of high relevance. In this study, we demonstrate microfluidic thread-based analytical devices (μTADs) as a new platform for antibody detection by means of bioluminescence resonance energy-transfer (BRET) switching sensor proteins. The devices consist of vertically assembled layers including a blood separation membrane and a plastic film with a sewn-in cotton thread, onto which the BRET sensor proteins together with the substrate furimazine have been predeposited. In contrast to intensity-based signaling, the BRET mechanism enables time-independent, ratiometric readout of bioluminescence signals with a digital camera in a darkroom or a smartphone camera with a 3D-printed lens adapter. The device design allows spatially separated deposition of multiple bioluminescent proteins on a single sewn thread, enabling quantification of multiple antibodies in 5 μL of whole blood within 5 min. The bioluminescence response is independent of the applied sample volume within the range of 5-15 μL. Therefore, μTADs in combination with BRET-based sensor proteins represent user-friendly analytical tools for POC quantification of antibodies without any laboratory equipment in a finger prick (5 μL) of whole blood.

Originele taal-2Engels
Pagina's (van-tot)1786-1794
Aantal pagina's9
TijdschriftACS Sensors
Volume5
Nummer van het tijdschrift6
DOI's
StatusGepubliceerd - 26 jun. 2020

Financiering

The authors acknowledge partial financial support by a Japan Society for the Promotion of Science (JSPS) Bilateral Joint Research Projects/Seminars grant, a grant-in-aid for Scientific Research (B) (grant no. 18H02008) from JSPS to D.C. and Y.H., Terumo Life Science Foundation grant to D.C., as well as by an ERC Starting Grant (ERC-2011-StG 280255) and ERC proof-of-concept grants (ERC-2013-PoC 632274 and ERC-2016-PoC 755471) to M.M. The authors appreciate technical support by Guodong Tong of Keio University for designing the 3D-printed case for the smartphone-based detection.

FinanciersFinanciernummer
ERC-2013-PoCERC-2016-PoC 755471
Seventh Framework Programme632274, 280255
Japan Society for the Promotion of Science18H02008
Terumo Foundation for Life Sciences and ArtsERC-2011-StG 280255

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