Mohammad Mahdi Dehshibi
Stimulating fungi Pleurotus ostreatus with hydrocortisone
Dehshibi, Mohammad Mahdi; Chiolerio, Alessandro; Nikolaidou, Anna; Mayne, Richard; Gandia, Antoni; Ashtari-Majlan, Mona; Adamatzky, Andrew
Authors
Alessandro Chiolerio
Anna Nikolaidou Anna.Nikolaidou@uwe.ac.uk
Senior Lecturer in Architecture and Design
Richard Mayne Richard.Mayne@uwe.ac.uk
Lecturer in Maths Supporting Science
Antoni Gandia
Mona Ashtari-Majlan
Andrew Adamatzky Andrew.Adamatzky@uwe.ac.uk
Professor
Abstract
Fungi cells can sense extracellular signals via reception, transduction, and response mechanisms, allowing them to communicate with their host and adapt to their environment. They feature effective regulatory protein expressions that enhance and regulate their response and adaptation to various triggers such as stress, hormones, physical stimuli such as light, and host factors. In our recent studies, we have shown that Pleurotus oyster fungi generate electrical potential impulses in the form of spike events in response to their exposure to environmental, mechanical, and chemical triggers, suggesting that the nature of stimuli may be deduced from the fungal electrical responses. In this study, we explored the communication protocols of fungi as reporters of human chemical secretions such as hormones, addressing whether fungi can sense human signals. We exposed Pleurotus oyster fungi to hydrocortisone, which was directly applied to the surface of a fungal-colonized hemp shavings substrate, and recorded the electrical activity of the fungi. Hydrocortisone is a medicinal hormone replacement that is similar to the natural stress hormone cortisol. Changes in cortisol levels released by the body indicate the presence of disease and can have a detrimental effect on physiological process regulation. The response of fungi to hydrocortisone was also explored further using X-rays to reveal changes in the fungi tissue, where receiving hydrocortisone by the substrate can inhibit the flow of calcium and, as a result, reduce its physiological changes. This research could open the way for future studies on adaptive fungal wearables capable of detecting human physiological states and biosensors built of living fungi.
Journal Article Type | Article |
---|---|
Acceptance Date | Jul 9, 2021 |
Online Publication Date | Jul 26, 2021 |
Publication Date | Aug 9, 2021 |
Deposit Date | Jul 14, 2021 |
Publicly Available Date | Jul 27, 2022 |
Journal | ACS Biomaterials Science and Engineering |
Electronic ISSN | 2373-9878 |
Publisher | American Chemical Society |
Peer Reviewed | Peer Reviewed |
Volume | 7 |
Issue | 8 |
Pages | 3718-3726 |
DOI | https://doi.org/10.1021/acsbiomaterials.1c00752 |
Keywords | fungi; hydrocortisone; biosensor; electrical activity |
Public URL | https://uwe-repository.worktribe.com/output/7527245 |
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Copyright Statement
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Biomaterials Science and Engineering, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acsbiomaterials.1c00752.
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