Pak-Ting Hau, Anson Shiu, Emily Wan-Ting Tam, Eddie Chung-Ting Chau, Michaela Murillo, Eva Humer, Wai-Wai Po, Ray Chun-Wai Yu, Joshua Fung, Sai-Wang Seto, Chi-Ching Tsang, Franklin Wang-Ngai Chow
{"title":"中国香港红树林中酵母菌的多样性和抗真菌敏感性--一个健康角度。","authors":"Pak-Ting Hau, Anson Shiu, Emily Wan-Ting Tam, Eddie Chung-Ting Chau, Michaela Murillo, Eva Humer, Wai-Wai Po, Ray Chun-Wai Yu, Joshua Fung, Sai-Wang Seto, Chi-Ching Tsang, Franklin Wang-Ngai Chow","doi":"10.3390/jof10100728","DOIUrl":null,"url":null,"abstract":"<p><p>While mangrove ecosystems are rich in biodiversity, they are increasingly impacted by climate change and urban pollutants. The current study provides first insights into the emergence of potentially pathogenic yeasts in Hong Kong's mangroves. Sediment and water samples were collected from ten urban and rural mangroves sites. Initial CHROMagar<sup>TM</sup> Candida Plus screening, representing the first application of this differential medium for water and soil samples collected from a non-clinical environment, enabled the rapid, preliminary phenotypic identification of yeast isolates from mangroves. Subsequent molecular profiling (ITS and/or 28S nrDNA sequencing) and antifungal drug susceptibility tests were conducted to further elucidate yeast diversity and drug resistance. A diversity of yeasts, including 45 isolates of 18 distinct species across 13 genera/clades, was isolated from sediments and waters from Hong Kong mangroves. Molecular profiling revealed a dominance of the <i>Candida</i>/<i>Lodderomyces</i> clade (44.4%), a group of notorious opportunistic pathogens. The findings also reveal a rich biodiversity of non-<i>Candida</i>/<i>Lodderomyces</i> yeasts in mangroves, including the first reported presence of <i>Apiotrichum domesticum</i> and <i>Crinitomyces flavificans</i>. A potentially novel <i>Yamadazyma</i> species was also discovered. Remarkably, 14.3% of the ubiquitous <i>Candida parapsilosis</i> isolates displayed resistance to multiple antifungal drugs, suggesting that mangroves may be reservoirs of multi-drug resistance. Wildlife, especially migratory birds, may disseminate these hidden threats. With significant knowledge gaps regarding the environmental origins, drug resistance, and public health impacts of pathogenic yeasts, urgent surveillance is needed from a One Health perspective. This study provides an early warning that unrestrained urbanization can unleash resistant pathogens from coastal ecosystems globally. It underscores the necessity for enhanced surveillance studies and interdisciplinary collaboration between clinicians, ornithologists, and environmental microbiologists to effectively monitor and manage this environmental health risk, ensuring the maintenance of 'One Health'.</p>","PeriodicalId":15878,"journal":{"name":"Journal of Fungi","volume":"10 10","pages":""},"PeriodicalIF":4.2000,"publicationDate":"2024-10-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11508678/pdf/","citationCount":"0","resultStr":"{\"title\":\"Diversity and Antifungal Susceptibilities of Yeasts from Mangroves in Hong Kong, China-A One Health Aspect.\",\"authors\":\"Pak-Ting Hau, Anson Shiu, Emily Wan-Ting Tam, Eddie Chung-Ting Chau, Michaela Murillo, Eva Humer, Wai-Wai Po, Ray Chun-Wai Yu, Joshua Fung, Sai-Wang Seto, Chi-Ching Tsang, Franklin Wang-Ngai Chow\",\"doi\":\"10.3390/jof10100728\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>While mangrove ecosystems are rich in biodiversity, they are increasingly impacted by climate change and urban pollutants. The current study provides first insights into the emergence of potentially pathogenic yeasts in Hong Kong's mangroves. Sediment and water samples were collected from ten urban and rural mangroves sites. Initial CHROMagar<sup>TM</sup> Candida Plus screening, representing the first application of this differential medium for water and soil samples collected from a non-clinical environment, enabled the rapid, preliminary phenotypic identification of yeast isolates from mangroves. Subsequent molecular profiling (ITS and/or 28S nrDNA sequencing) and antifungal drug susceptibility tests were conducted to further elucidate yeast diversity and drug resistance. A diversity of yeasts, including 45 isolates of 18 distinct species across 13 genera/clades, was isolated from sediments and waters from Hong Kong mangroves. Molecular profiling revealed a dominance of the <i>Candida</i>/<i>Lodderomyces</i> clade (44.4%), a group of notorious opportunistic pathogens. The findings also reveal a rich biodiversity of non-<i>Candida</i>/<i>Lodderomyces</i> yeasts in mangroves, including the first reported presence of <i>Apiotrichum domesticum</i> and <i>Crinitomyces flavificans</i>. A potentially novel <i>Yamadazyma</i> species was also discovered. Remarkably, 14.3% of the ubiquitous <i>Candida parapsilosis</i> isolates displayed resistance to multiple antifungal drugs, suggesting that mangroves may be reservoirs of multi-drug resistance. Wildlife, especially migratory birds, may disseminate these hidden threats. With significant knowledge gaps regarding the environmental origins, drug resistance, and public health impacts of pathogenic yeasts, urgent surveillance is needed from a One Health perspective. This study provides an early warning that unrestrained urbanization can unleash resistant pathogens from coastal ecosystems globally. 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Diversity and Antifungal Susceptibilities of Yeasts from Mangroves in Hong Kong, China-A One Health Aspect.
While mangrove ecosystems are rich in biodiversity, they are increasingly impacted by climate change and urban pollutants. The current study provides first insights into the emergence of potentially pathogenic yeasts in Hong Kong's mangroves. Sediment and water samples were collected from ten urban and rural mangroves sites. Initial CHROMagarTM Candida Plus screening, representing the first application of this differential medium for water and soil samples collected from a non-clinical environment, enabled the rapid, preliminary phenotypic identification of yeast isolates from mangroves. Subsequent molecular profiling (ITS and/or 28S nrDNA sequencing) and antifungal drug susceptibility tests were conducted to further elucidate yeast diversity and drug resistance. A diversity of yeasts, including 45 isolates of 18 distinct species across 13 genera/clades, was isolated from sediments and waters from Hong Kong mangroves. Molecular profiling revealed a dominance of the Candida/Lodderomyces clade (44.4%), a group of notorious opportunistic pathogens. The findings also reveal a rich biodiversity of non-Candida/Lodderomyces yeasts in mangroves, including the first reported presence of Apiotrichum domesticum and Crinitomyces flavificans. A potentially novel Yamadazyma species was also discovered. Remarkably, 14.3% of the ubiquitous Candida parapsilosis isolates displayed resistance to multiple antifungal drugs, suggesting that mangroves may be reservoirs of multi-drug resistance. Wildlife, especially migratory birds, may disseminate these hidden threats. With significant knowledge gaps regarding the environmental origins, drug resistance, and public health impacts of pathogenic yeasts, urgent surveillance is needed from a One Health perspective. This study provides an early warning that unrestrained urbanization can unleash resistant pathogens from coastal ecosystems globally. It underscores the necessity for enhanced surveillance studies and interdisciplinary collaboration between clinicians, ornithologists, and environmental microbiologists to effectively monitor and manage this environmental health risk, ensuring the maintenance of 'One Health'.
期刊介绍:
Journal of Fungi (ISSN 2309-608X) is an international, peer-reviewed scientific open access journal that provides an advanced forum for studies related to pathogenic fungi, fungal biology, and all other aspects of fungal research. The journal publishes reviews, regular research papers, and communications in quarterly issues. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on paper length. Full experimental details must be provided so that the results can be reproduced.