Instituto de Tecnologia Química e Biológica António Xavier, Universidade Nova de Lisboa, Oeiras, Portugal.
Institute for Bioengineering and Biosciences and Institute for Health and Bioeconomy, Instituto Superior Técnico, University of Lisbon, Lisbon, Portugal.
Microbiol Spectr. 2023 Aug 17;11(4):e0066723. doi: 10.1128/spectrum.00667-23. Epub 2023 Jun 7.
Organic pollutants are omnipresent and can penetrate all environmental niches. We evaluated the hypothesis that short-term (acute) exposure to aromatic hydrocarbon pollutants could increase the potential for fungal virulence. Specifically, we analyzed whether pentachlorophenol and triclosan pollution results in the production of airborne fungal spores with greater virulence than those derived from an unpolluted (Control) condition. Each pollutant altered the composition of the community of airborne spores compared to the control, favoring an increase in strains with infection capacity (the wax moth Galleria mellonella was used as an infection model). Fungi subsisting inside larvae at 72 h postinjection with airborne spore inocula collected in polluted and unpolluted conditions exhibited comparable diversity (mainly within Aspergillus fumigatus). Several virulent Aspergillus strains were isolated from larvae infected with the airborne spores produced in a polluted environment. Meanwhile, strains isolated from larvae injected with spores from the control, including one A. fumigatus strain, showed no virulence. Potential pathogenicity increased when two Aspergillus virulent strains were assembled, suggesting the existence of synergisms that impact pathogenicity. None of the observed taxonomic or functional traits could separate the virulent from the avirulent strains. Our study emphasizes pollution stress as a possible driver of phenotypic adaptations that increase Aspergillus pathogenicity, as well as the need to better understand the interplay between pollution and fungal virulence. Fungi colonizing soil and organic pollutants often meet. The consequences of this encounter constitute an outstanding question. We scrutinized the potential for virulence of airborne fungal spores produced under unpolluted and polluted scenarios. The airborne spores showed increased diversity of strains with higher infection capacity in Galleria mellonella whenever pollution is present. Inside the larvae injected with either airborne spore community, the surviving fungi demonstrated a similar diversity, mainly within Aspergillus fumigatus. However, the isolated Aspergillus strains greatly differ since virulence was only observed for those associated with a polluted environment. The interplay between pollution and fungal virulence still hides many unresolved questions, but the encounter is costly: pollution stress promotes phenotypic adaptations that may increase Aspergillus pathogenicity.
有机污染物无处不在,可以渗透到所有的环境生态位中。我们评估了一个假设,即短期(急性)暴露于芳香烃污染物会增加真菌毒力的可能性。具体来说,我们分析了五氯苯酚和三氯生污染是否会导致产生比未受污染(对照)条件下产生的空气传播真菌孢子更具毒性的真菌孢子。与对照相比,每种污染物都改变了空气中孢子群落的组成,有利于增加具有感染能力的菌株(蜡蛾 Galleria mellonella 被用作感染模型)。在注射了空气中孢子接种物的幼虫中,真菌在 72 小时后存活下来,这些孢子是在污染和未污染的条件下收集的,表现出相似的多样性(主要是在烟曲霉内)。从感染了在污染环境中产生的空气传播孢子的幼虫中分离出了几种毒力很强的烟曲霉菌株。同时,从注射对照条件下孢子的幼虫中分离出的菌株,包括一株烟曲霉菌株,均无毒性。当两种毒力很强的烟曲霉菌株组装在一起时,潜在的致病性增加,这表明存在影响致病性的协同作用。没有观察到的分类或功能特征可以将毒力菌株与非毒力菌株区分开来。我们的研究强调了污染应激作为增加烟曲霉致病性的表型适应的可能驱动因素,以及更好地理解污染和真菌毒力之间相互作用的必要性。 土壤和有机污染物中常能发现真菌的踪迹。这种相遇的后果是一个悬而未决的问题。我们仔细研究了在未受污染和受污染的情况下空气中真菌孢子的潜在毒力。只要存在污染,在金蝇(Galleria mellonella)中,空气中的孢子显示出具有更高感染能力的菌株多样性增加。在注射了任何一种空气传播孢子群落的幼虫中,存活下来的真菌在烟曲霉内表现出相似的多样性。然而,分离出的烟曲霉菌株有很大的不同,因为只有与污染环境有关的菌株才表现出毒性。污染和真菌毒力之间的相互作用仍然隐藏着许多未解决的问题,但这种相遇是有代价的:污染应激促进了可能增加烟曲霉致病性的表型适应。
