Antifungal azoles and azole resistance in the environment: current status and future perspectives—a review

Following their extensive use, azole antifungals may enter the environment through the discharge of domestic, industrial and hospital wastewaters, agricultural runoffs and as leachates in waste-disposal sites. The presence of the azole antifungals poses potential toxicity risks to non-target organis...

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Bibliographic Details
Published in:Reviews in environmental science and biotechnology 2021-12, Vol.20 (4), p.1011-1041
Main Authors: Assress, Hailemariam Abrha, Selvarajan, Ramganesh, Nyoni, Hlengilizwe, Mamba, Bhekie B., Msagati, Titus A. M.
Format: Article
Language:English
Subjects:
Agricultural wastes
Algae
Algal growth
Antifungal agents
Atmospheric Protection/Air Quality Control/Air Pollution
Azoles
Body mass
College campuses
Disposal sites
Drinking water
Drug resistance
Earth and Environmental Science
Endocrine disruptors
Environment
Environmental Engineering/Biotechnology
Epidemiology
Frogs
Fungal infections
Fungi
Fungicides
Gene expression
Growth rate
Health risks
Heterocyclic compounds
Hospital wastes
Household wastes
Laboratories
Leachates
Medical wastes
Microbiology
Molecular modelling
Nontarget organisms
Review Paper
Science
Sex differentiation
Steroidogenesis
Surface water
Toxicity
Trends
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Summary:Following their extensive use, azole antifungals may enter the environment through the discharge of domestic, industrial and hospital wastewaters, agricultural runoffs and as leachates in waste-disposal sites. The presence of the azole antifungals poses potential toxicity risks to non-target organisms and plays a critical role in the evolution and/or selection of azole resistant fungal strains in the environment. Toxicities such as inhibition of algal growth, endocrine disruption in fish, CYP450-effected steroidogenesis, modulating sex differentiation in frogs, and reduction of larval body mass and growth rate have been related to azole antifungals. In addition, the isolation of azole resistant fungi such as Aspergillus fumigatus in both the environment and clinic retaining similar mode of molecular drug resistance mechanism has drawn the attention of many researchers. Therefore, the investigation of the occurrence and distribution of azole antifungals as well as azole resistant environmental isolates of fungi is becoming a trendy research venue. Here we review the occurrence of antifungal azoles and azole resistance in the environment. The major points discussed are (1) an update on the environmental occurrence, distribution and ecological risks of the most commonly used azole antifungals in the environment including surface water and drinking water (2) environmental azole antifungal resistance, predominant molecular mechanisms of azole resistance in the environment, and the implications for human health (3) future trends and perspectives that could help reduce the ecological and human health risks of azoles and tackle the spread of azole resistance in the environment, and hence in the clinic.
ISSN:1569-1705
1572-9826
DOI:10.1007/s11157-021-09594-w