Brown locusts, Locustana pardalina, host fluconazole-resistant Candidozyma (Candida) auris, closely related to Clade III clinical strains

Abstract The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a subject of speculation, with hypotheses including avian species and marine environments. Interestingly, yeasts related to Candidozyma auris have...

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Vydáno v:	Medical mycology (Oxford) Ročník 63; číslo 8
Hlavní autoři:	Ogundeji, Adepemi, Bello-Akinosho, Maryam, Swart, Vaughn, Featherston, Jonathan, Cason, Errol D, Bolsenbroek, Armand, Beneke, Carel, Musoke, Jolly, Baker, Tyla, Ismail, Arshad, Sebolai, Olihile, Albertyn, Jacobus, Pohl, Carolina
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	England Oxford University Press 05.08.2025
Témata:	Animals Antifungal Agents - pharmacology Candida auris - classification Candida auris - drug effects Candida auris - genetics Candida auris - isolation & purification Drug Resistance, Fungal Fluconazole - pharmacology Genome, Fungal Grasshoppers - microbiology Humans Microbial Sensitivity Tests Original Phylogeny Polymorphism, Single Nucleotide Whole Genome Sequencing fluconazole stress tolerance environmental niche disinfectants ( ) One Health Locustana pardalina Candidozyma (Candida) auris
ISSN:	1369-3786, 1460-2709, 1460-2709
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Abstract	Abstract The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a subject of speculation, with hypotheses including avian species and marine environments. Interestingly, yeasts related to Candidozyma auris have been repeatedly observed associated with various insects. This prompted us to investigate a thermophilic insect, Locustana pardalina, as a possible host for C. auris. Here, we report the isolation and identification of three C. auris strains from the gut of L. pardalina as well as the phenotypic characterisation of one of these isolates. Interestingly, the isolate was able to survive at 50°C and grew at 15% NaCl. In addition, it was susceptible to the tested disinfectants and antifungals, except fluconazole. Genome sequencing and single-nucleotide polymorphism analyses placed the isolate in Clade III, which is common in South African hospitals. This highlights the potential role of thermotolerant insects in the evolution and dissemination of emerging pathogenic yeasts. Lay Summary The study investigates the presence of the pathogenic yeast, Candidozyma auris, in brown locusts. The characterised strain was related to hospital strains previously found in South Africa and was resistant to fluconazole. This highlights the potential role of insects in spreading this pathogen.
AbstractList	Abstract The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a subject of speculation, with hypotheses including avian species and marine environments. Interestingly, yeasts related to Candidozyma auris have been repeatedly observed associated with various insects. This prompted us to investigate a thermophilic insect, Locustana pardalina, as a possible host for C. auris. Here, we report the isolation and identification of three C. auris strains from the gut of L. pardalina as well as the phenotypic characterisation of one of these isolates. Interestingly, the isolate was able to survive at 50°C and grew at 15% NaCl. In addition, it was susceptible to the tested disinfectants and antifungals, except fluconazole. Genome sequencing and single-nucleotide polymorphism analyses placed the isolate in Clade III, which is common in South African hospitals. This highlights the potential role of thermotolerant insects in the evolution and dissemination of emerging pathogenic yeasts. Lay Summary The study investigates the presence of the pathogenic yeast, Candidozyma auris, in brown locusts. The characterised strain was related to hospital strains previously found in South Africa and was resistant to fluconazole. This highlights the potential role of insects in spreading this pathogen. The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a subject of speculation, with hypotheses including avian species and marine environments. Interestingly, yeasts related to Candidozyma auris have been repeatedly observed associated with various insects. This prompted us to investigate a thermophilic insect, Locustana pardalina, as a possible host for C. auris. Here, we report the isolation and identification of three C. auris strains from the gut of L. pardalina as well as the phenotypic characterisation of one of these isolates. Interestingly, the isolate was able to survive at 50°C and grew at 15% NaCl. In addition, it was susceptible to the tested disinfectants and antifungals, except fluconazole. Genome sequencing and single-nucleotide polymorphism analyses placed the isolate in Clade III, which is common in South African hospitals. This highlights the potential role of thermotolerant insects in the evolution and dissemination of emerging pathogenic yeasts. The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a subject of speculation, with hypotheses including avian species and marine environments. Interestingly, yeasts related to Candidozyma auris have been repeatedly observed associated with various insects. This prompted us to investigate a thermophilic insect, Locustana pardalina, as a possible host for C. auris. Here, we report the isolation and identification of three C. auris strains from the gut of L. pardalina as well as the phenotypic characterisation of one of these isolates. Interestingly, the isolate was able to survive at 50°C and grew at 15% NaCl. In addition, it was susceptible to the tested disinfectants and antifungals, except fluconazole. Genome sequencing and single-nucleotide polymorphism analyses placed the isolate in Clade III, which is common in South African hospitals. This highlights the potential role of thermotolerant insects in the evolution and dissemination of emerging pathogenic yeasts.The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a subject of speculation, with hypotheses including avian species and marine environments. Interestingly, yeasts related to Candidozyma auris have been repeatedly observed associated with various insects. This prompted us to investigate a thermophilic insect, Locustana pardalina, as a possible host for C. auris. Here, we report the isolation and identification of three C. auris strains from the gut of L. pardalina as well as the phenotypic characterisation of one of these isolates. Interestingly, the isolate was able to survive at 50°C and grew at 15% NaCl. In addition, it was susceptible to the tested disinfectants and antifungals, except fluconazole. Genome sequencing and single-nucleotide polymorphism analyses placed the isolate in Clade III, which is common in South African hospitals. This highlights the potential role of thermotolerant insects in the evolution and dissemination of emerging pathogenic yeasts.
Author	Swart, Vaughn Ogundeji, Adepemi Baker, Tyla Albertyn, Jacobus Bolsenbroek, Armand Beneke, Carel Cason, Errol D Featherston, Jonathan Musoke, Jolly Pohl, Carolina Ismail, Arshad Sebolai, Olihile Bello-Akinosho, Maryam
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Keywords	fluconazole stress tolerance environmental niche disinfectants ( ) One Health Locustana pardalina Candidozyma (Candida) auris
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Snippet	Abstract The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a... The environmental niche and mode of transmission from the environment to humans of the emerging pathogenic yeast, Candidozyma (Candida) auris is a subject of...
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SubjectTerms	Animals Antifungal Agents - pharmacology Candida auris - classification Candida auris - drug effects Candida auris - genetics Candida auris - isolation & purification Drug Resistance, Fungal Fluconazole - pharmacology Genome, Fungal Grasshoppers - microbiology Humans Microbial Sensitivity Tests Original Phylogeny Polymorphism, Single Nucleotide Whole Genome Sequencing
Title	Brown locusts, Locustana pardalina, host fluconazole-resistant Candidozyma (Candida) auris, closely related to Clade III clinical strains
URI	https://www.ncbi.nlm.nih.gov/pubmed/40705343 https://www.proquest.com/docview/3232760668 https://pubmed.ncbi.nlm.nih.gov/PMC12342545
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