长期接触多环芳烃会改变皮肤病毒组的组成和病毒与宿主的相互作用

Shicong Du, Xinzhao Tong, Marcus H Y Leung, Richard J Betts, Anthony C Woo, Philippe Bastien, Namita Misra, Luc Aguilar, Cécile Clavaud, Patrick K H Lee
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摘要

暴露于污染空气中的多环芳烃(PAHs)会影响皮肤微生物组的组成,进而与皮肤表型的改变有关。然而,多环芳烃暴露与病毒组之间的相互作用尚不清楚。本研究旨在阐明多环芳烃暴露如何影响皮肤病毒的组成和功能、它们在塑造细菌宿主新陈代谢中的作用以及随后对皮肤表型的影响。我们分析了之前研究中从 124 名中国女性颊部皮肤拭子中采集的元基因组,发现在暴露于 PAH 后,与两种微生物组切型相关的病毒具有不同的多样性、组成、功能和生活方式。此外,暴露于高浓度多环芳烃大大增加了病毒与某些生物降解细菌之间的相互作用。在高PAH暴露条件下,病毒具有丰富的异生物降解功能,有证据表明,将噬菌体编码的辅助代谢基因插入宿主体内有助于生物降解。在低 PAH 暴露条件下,相互作用遵循 "捎带赢家 "模式,痤疮棒状杆菌是 "赢家",而在高 PAH 暴露条件下,相互作用遵循 "捎带持久 "模式,生物降解细菌是 "持久"。这些发现凸显了空气污染物对皮肤细菌和病毒的影响、它们之间的相互作用以及它们对皮肤健康的调节作用。了解这些错综复杂的关系可以为制定有针对性的策略提供见解,从而在污染环境中保持皮肤健康,这也强调了减少污染物暴露和利用病毒潜力帮助抵消不利影响的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chronic exposure to polycyclic aromatic hydrocarbons alters skin virome composition and virus–host interactions
Exposure to polycyclic aromatic hydrocarbons (PAHs) in polluted air influences the composition of the skin microbiome, which in turn is associated with altered skin phenotypes. However, the interactions between PAH exposure and viromes are unclear. This study aims to elucidate how PAH exposure affects the composition and function of skin viruses, their role in shaping the metabolism of bacterial hosts, and the subsequent effects on skin phenotype. We analyzed metagenomes from cheek skin swabs collected from 124 Chinese women in our previous study and found that the viruses associated with the two microbiome cutotypes had distinct diversities, compositions, functions, and lifestyles following PAH exposure. Moreover, exposure to high concentrations of PAHs substantially increased interactions between viruses and certain biodegrading bacteria. Under high-PAH exposure, the viruses were enriched in xenobiotic degradation functions, and there was evidence suggesting that the insertion of bacteriophage-encoded auxiliary metabolic genes into hosts aids biodegradation. Under low-PAH exposure conditions, the interactions followed the “Piggyback-the-Winner” model, with Cutibacterium acnes being “winners,” whereas under high-PAH exposure, they followed the “Piggyback-the-Persistent” model, with biodegradation bacteria being “persistent.” These findings highlight the impact of air pollutants on skin bacteria and viruses, their interactions, and their modulation of skin health. Understanding these intricate relationships could provide insights for developing targeted strategies to maintain skin health in polluted environments, emphasizing the importance of mitigating pollutant exposure and harnessing the potential of viruses to help counteract the adverse effects.
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