Research Topic: agricultural fungicides

Ploidy plasticity drives fungal resistance to azoles used in agriculture and clinics

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Agricultural fungicides called azoles can cause fungi to change their genetic makeup in ways that make them resistant to medical antifungal drugs. Researchers found that when Candida tropicalis (a fungal pathogen) is exposed to tebuconazole, an agricultural fungicide, it can transform into a haploid form (with half the normal chromosomes) that is resistant to both agricultural and clinical azoles. This discovery helps explain why fungal infections are becoming harder to treat in hospitals.

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Exposure to Tebuconazole Drives Cross-Resistance to Clinical Triazoles in Aspergillus fumigatus

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When farmers use antifungal pesticides called triazoles to protect crops, the fungi can develop resistance to these chemicals. This study found that when the fungus Aspergillus fumigatus is exposed to the agricultural triazole tebuconazole, it can become resistant not only to that pesticide but also to clinical triazole drugs used to treat human fungal infections. The resistant fungi maintain this resistance even when the pesticide is removed, suggesting that environmental pesticide use may threaten the effectiveness of medical antifungal treatments.

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Azole fungicides and Aspergillus resistance, five EU agency report highlights the problem for the first time using a One Health approach

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A major European health agency report warns that widely-used fungicides sprayed on crops to prevent plant diseases may be creating resistant fungi that can infect humans and make medical treatments ineffective. The study found that about 10,000 tonnes of these azole fungicides are used in Europe annually, and their residues accumulate in the environment where they can cause harmful fungi to become resistant to the same medicines doctors use to treat patients. The report calls for urgent action to better monitor this problem and prevent resistance through smarter use and regulation of agricultural fungicides.

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Moving beyond multi-triazole to multi-fungicide resistance: Broader selection of drug resistance in the human fungal pathogen Aspergillus fumigatus

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Aspergillus fumigatus is a dangerous fungal infection treated with triazole drugs, but the fungus is developing resistance to multiple antifungal medications. This resistance appears to be selected in agricultural settings where fungicides are used on crops, and resistant strains then spread to humans through the air. The problem is worse because agricultural fungicides are selecting for strains resistant to multiple drug classes at once, making infections harder to treat. Addressing this issue requires reducing fungicide use in agriculture and better strategies for managing antifungal resistance.

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