A GPCR-based yeast biosensor for biomedical, biotechnological, and point-of-use cannabinoid determination-Reference-Cited by-同舟云学术

A GPCR-based yeast biosensor for biomedical, biotechnological, and point-of-use cannabinoid determination

Published:2022-06-27 Issue:1 Volume:13 Page:
ISSN:2041-1723
Container-title:Nature Communications
language:en
Short-container-title:Nat Commun

Author:

Miettinen Karel^ORCID,Leelahakorn Nattawat^ORCID,Almeida Aldo^ORCID,Zhao Yong^ORCID,Hansen Lukas R.^ORCID,Nikolajsen Iben E.^ORCID,Andersen Jens B.^ORCID,Givskov Michael^ORCID,Staerk Dan^ORCID,Bak Søren^ORCID,Kampranis Sotirios C.^ORCID

Abstract

AbstractEukaryotic cells use G-protein coupled receptors to sense diverse signals, ranging from chemical compounds to light. Here, we exploit the remarkable sensing capacity of G-protein coupled receptors to construct yeast-based biosensors for real-life applications. To establish proof-of-concept, we focus on cannabinoids because of their neuromodulatory and immunomodulatory activities. We construct a CB2 receptor-based biosensor, optimize it to achieve high sensitivity and dynamic range, and prove its effectiveness in three applications of increasing difficulty. First, we screen a compound library to discover agonists and antagonists. Second, we analyze 54 plants to discover a new phytocannabinoid, dugesialactone. Finally, we develop a robust portable device, analyze body-fluid samples, and confidently detect designer drugs like JWH-018. These examples demonstrate the potential of yeast-based biosensors to enable diverse applications that can be implemented by non-specialists. Taking advantage of the extensive sensing repertoire of G-protein coupled receptors, this technology can be extended to detect numerous compounds.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary

Link

https://www.nature.com/articles/s41467-022-31357-6.pdf

Reference67 articles.

1. Lagerstrom, M. C. & Schioth, H. B. Structural diversity of G protein-coupled receptors and significance for drug discovery. Nat. Rev. Drug Discov. 7, 339–357 (2008).

2. Brown, A. J. et al. Pharmacology of GPR55 in yeast and identification of GSK494581A as a mixed-activity glycine transporter subtype 1 inhibitor and GPR55 agonist. J. Pharm. Exp. Ther. 337, 236–246 (2011).

3. Brown, A. J. et al. Functional coupling of mammalian receptors to the yeast mating pathway using novel yeast/mammalian G protein alpha-subunit chimeras. Yeast 16, 11–22 (2000).

4. Dowell, S. J. & Brown, A. J. Yeast assays for G protein-coupled receptors. Methods Mol. Biol. 552, 213–229 (2009).

5. Shaw, W. M. et al. Engineering a model cell for rational tuning of GPCR signaling. Cell 177, 782–796 e727 (2019).

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