Insights into the mechanism by which atropine inhibits myopia: evidence against cholinergic hyperactivity and modulation of dopamine release
| dc.contributor.author | Thomson, Kate | |
| dc.contributor.author | Kelly, Tamsin | |
| dc.contributor.author | Karouta, Cindy | |
| dc.contributor.author | Morgan, Ian | |
| dc.contributor.author | Ashby, Regan | |
| dc.date.accessioned | 2023-04-12T23:19:10Z | |
| dc.date.available | 2023-04-12T23:19:10Z | |
| dc.date.issued | 2021 | |
| dc.date.updated | 2022-01-23T07:18:34Z | |
| dc.description.abstract | Background and Purpose: The ability of the muscarinic cholinergic antagonist atropine to inhibit myopia development in humans and animal models would suggest that cholinergic hyperactivity may underlie myopic growth. To test this, we investigated whether cholinergic agonists accelerate ocular growth rates in chickens. Furthermore, we investigated whether atropine alters ocular growth by downstream modulation of dopamine levels, a mechanism postulated to underlie its antimyopic effects. Experimental Approach: Muscarinic (muscarine and pilocarpine), nicotinic (nicotine) and non-specific (oxotremorine and carbachol) cholinergic agonists were administered to chicks developing form-deprivation myopia (FDM) or chicks that were otherwise untreated. Vitreal levels of dopamine and its primary metabolite 3,4-dihydroxyphenylacetic acid (DOPAC) were examined using mass spectrometry MS in form-deprived chicks treated with atropine (360, 15 or 0.15 nmol). Further, we investigated whether dopamine antagonists block atropine's antimyopic effects. Key Results: Unexpectedly, administration of each cholinergic agonist inhibited FDM but did not affect normal ocular development. Atropine only affected dopamine and DOPAC levels at its highest dose. Dopamine antagonists did not alter the antimyopia effects of atropine. Conclusion and Implications: Muscarinic, nicotinic and non-specific cholinergic agonists inhibited FDM development. This indicates that cholinergic hyperactivity does not underlie myopic growth and questions whether atropine inhibits myopia via cholinergic antagonism. This study also demonstrates that changes in retinal dopamine release are not required for atropine's antimyopic effects. Finally, nicotinic agonists may represent a novel and more targeted approach for the cholinergic control of myopia as they are unlikely to cause the anterior segment side effects associated with muscarinic treatment. | en_AU |
| dc.description.sponsorship | This work was partly funded by ANU Connect Ventures through a Discovery Translation Fund grant (Project ID DTF311) | en_AU |
| dc.format.mimetype | application/pdf | en_AU |
| dc.identifier.issn | 0007-1188 | en_AU |
| dc.identifier.uri | http://hdl.handle.net/1885/289170 | |
| dc.language.iso | en_AU | en_AU |
| dc.provenance | This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in anymedium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made.© 2021 The Authors.British Journal of Pharmacologypublished by John Wiley & Sons Ltd on behalf of British Pharmacological Society | en_AU |
| dc.publisher | Wiley | en_AU |
| dc.rights | © 2021 The Authors.British Journal of Pharmacologypublished by John Wiley & Sons Ltd on behalf of British Pharmacological Society. | en_AU |
| dc.rights.license | Creative Commons Attribution-NonCommercial-NoDerivs License | en_AU |
| dc.rights.uri | https://creativecommons.org/licenses/by-nc-nd/4.0/ | en_AU |
| dc.source | British Journal of Pharmacology | en_AU |
| dc.subject | ACh | en_AU |
| dc.subject | atropine | en_AU |
| dc.subject | dopamine | en_AU |
| dc.subject | myopia | en_AU |
| dc.subject | refractive development | en_AU |
| dc.title | Insights into the mechanism by which atropine inhibits myopia: evidence against cholinergic hyperactivity and modulation of dopamine release | en_AU |
| dc.type | Journal article | en_AU |
| dcterms.accessRights | Open Access | en_AU |
| local.bibliographicCitation.issue | 22 | en_AU |
| local.bibliographicCitation.lastpage | 4517 | en_AU |
| local.bibliographicCitation.startpage | 4501 | en_AU |
| local.contributor.affiliation | Thomson, Kate, University of Canberra | en_AU |
| local.contributor.affiliation | Kelly, Tamsin, University of Canberra | en_AU |
| local.contributor.affiliation | Karouta, Cindy, University of Canberra | en_AU |
| local.contributor.affiliation | Morgan, Ian, College of Science, ANU | en_AU |
| local.contributor.affiliation | Ashby, Regan, College of Science, ANU | en_AU |
| local.contributor.authoruid | Morgan, Ian, u7401805 | en_AU |
| local.contributor.authoruid | Ashby, Regan, u2532493 | en_AU |
| local.description.notes | Imported from ARIES | en_AU |
| local.identifier.absfor | 321203 - Optometry | en_AU |
| local.identifier.absfor | 321201 - Ophthalmology | en_AU |
| local.identifier.absseo | 200412 - Preventive medicine | en_AU |
| local.identifier.ariespublication | a383154xPUB22633 | en_AU |
| local.identifier.citationvolume | 178 | en_AU |
| local.identifier.doi | 10.1111/bph.15629 | en_AU |
| local.identifier.scopusID | 2-s2.0-85113561065 | |
| local.publisher.url | https://www.wiley.com/en-gb | en_AU |
| local.type.status | Published Version | en_AU |
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