皮肤微生物组在接触多环芳烃后会分化为具有独特代谢功能的不同亚型。

Skin microbiome differentiates into distinct cutotypes with unique metabolic functions upon exposure to polycyclic aromatic hydrocarbons.

机构信息

School of Energy and Environment, City University of Hong Kong, Hong Kong SAR, China.

Department of Biological Sciences, School of Science, Xi'an Jiaotong-Liverpool University, Suzhou, China.

出版信息

Microbiome. 2023 Jun 1;11(1):124. doi: 10.1186/s40168-023-01564-4.

DOI:10.1186/s40168-023-01564-4

PMID:37264459

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10233911/

Abstract

BACKGROUND

The effects of air pollutants, particularly polycyclic aromatic hydrocarbons (PAHs), on the skin microbiome remain poorly understood. Thus, to better understand the interplay between air pollutants, microbiomes, and skin conditions, we applied metagenomics and metabolomics to analyze the effects of PAHs in air pollution on the skin microbiomes of over 120 subjects residing in two cities in China with different levels of air pollution.

RESULTS

The skin microbiomes differentiated into two cutotypes (termed 1 and 2) with distinct taxonomic, functional, resistome, and metabolite compositions as well as skin phenotypes that transcended geography and host factors. High PAH exposure was linked to dry skin and cutotype 2, which was enriched with species with potential biodegradation functions and had reduced correlation network structure integrity. The positive correlations identified between dominant taxa, key functional genes, and metabolites in the arginine biosynthesis pathway in cutotype 1 suggest that arginine from bacteria contributes to the synthesis of filaggrin-derived natural moisturizing factors (NMFs), which provide hydration for the skin, and could explain the normal skin phenotype observed. In contrast, no correlation with the arginine biosynthesis pathway was observed in cutotype 2, which indicates the limited hydration functions of NMFs and explains the observed dry skin phenotype. In addition to dryness, skin associated with cutotype 2 appeared prone to other adverse conditions such as inflammation.

CONCLUSIONS

This study revealed the roles of PAHs in driving skin microbiome differentiation into cutotypes that vary extensively in taxonomy and metabolic functions and may subsequently lead to variations in skin-microbe interactions that affect host skin health. An improved understanding of the roles of microbiomes on skin exposed to air pollutants can aid the development of strategies that harness microbes to prevent undesirable skin conditions. Video Abstract.

摘要

背景

空气污染物，尤其是多环芳烃（PAHs）对皮肤微生物组的影响仍知之甚少。因此，为了更好地了解空气污染物、微生物组和皮肤状况之间的相互作用，我们应用宏基因组学和代谢组学分析了在中国两个空气污染程度不同的城市中，空气中的 PAHs 对 120 多名受试者皮肤微生物组的影响。

结果

皮肤微生物组分为两种皮肤表型（称为 1 型和 2 型），具有不同的分类、功能、抗性组和代谢产物组成，以及超越地理和宿主因素的皮肤表型。高 PAH 暴露与皮肤干燥和 2 型皮肤表型相关，后者富含具有潜在生物降解功能的物种，且相关网络结构完整性降低。在 1 型中，与精氨酸生物合成途径中的优势分类群、关键功能基因和代谢物之间存在正相关关系，这表明细菌来源的精氨酸有助于源自角蛋白丝聚合蛋白的天然保湿因子（NMFs）的合成，为皮肤提供水分，并解释了观察到的正常皮肤表型。相比之下，在 2 型中没有观察到与精氨酸生物合成途径的相关性，这表明 NMFs 的保湿功能有限，并解释了观察到的皮肤干燥表型。除了干燥之外，与 2 型相关的皮肤似乎容易出现其他不良状况，如炎症。

结论

本研究揭示了 PAHs 在驱动皮肤微生物组分化为具有广泛分类和代谢功能差异的皮肤表型中的作用，并且可能随后导致影响宿主皮肤健康的皮肤-微生物相互作用的变化。对暴露于空气污染物的皮肤微生物组作用的深入了解，可以帮助制定利用微生物来预防不良皮肤状况的策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/07cb/10233911/e9c77d1edf53/40168_2023_1564_Fig1_HTML.jpg

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皮肤微生物组在接触多环芳烃后会分化为具有独特代谢功能的不同亚型。

Skin microbiome differentiates into distinct cutotypes with unique metabolic functions upon exposure to polycyclic aromatic hydrocarbons.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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