Muhammad Imran Khan, Arshia Amin, Muhammad Tariq Khan, Hafsa Jabeen, Shafqat Rasul Chaudhry
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PM can create conditions conducive to bacterial survival and growth in the respiratory system due to inflammation and immune suppression. PM2. 5 and PM10 have been associated with several respiratory system ailments due to their capability to penetrate inner areas. Moreover, PM can serve as a carrier for ARGs and other microbial components, aiding in their spread. This interaction may accelerate the development and spread of AMR. It is imperative to further unleash the mechanisms adopted by microbial extracellular DNA associated with the PM to envisage the potential health and environmental hazards. eDNA, for example, has been shown to contribute to the diversity and composition of microbiota associated with PM, such as bacteria, fungi, and viruses. This review focuses on PM, ARGs, and microbial eDNA as emerging environmental contaminants. A comprehensive analysis is conducted of the mechanisms and circumstances that contribute to its spread in diverse settings. 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引用次数: 0
摘要
烟雾是一种由烟和雾组成的污染形式。它是全球许多城市地区的主要环境和公共卫生问题之一。耐人寻味的是,最近的证据揭示了烟雾与抗菌药耐药性(AMR)之间的潜在联系。雾霾会通过一系列复杂而多方面的机制导致抗菌药物耐药性的产生,这些机制包括雾霾中的微粒物质(PM)、抗菌药物耐药性微生物和基因的介导运输、呼吸道微生物组的破坏以及宿主免疫反应的调节。由于可吸入颗粒物能深入肺部并携带抗生素耐药基因(ARGs),因此应考虑到可吸入颗粒物会导致呼吸道感染和其他感染的急性呼吸道感染。由于炎症和免疫抑制,可吸入颗粒物会为细菌在呼吸系统中的生存和生长创造有利条件。PM2.5 和 PM10 由于能够穿透内部区域,因此与多种呼吸系统疾病有关。此外,可吸入颗粒物可作为 ARGs 和其他微生物成分的载体,帮助它们扩散。这种相互作用可能会加速 AMR 的发展和传播。当务之急是进一步揭示与可吸入颗粒物相关的微生物胞外DNA所采用的机制,以设想潜在的健康和环境危害。例如,eDNA已被证明有助于提高与可吸入颗粒物相关的微生物群(如细菌、真菌和病毒)的多样性和组成。本综述侧重于作为新兴环境污染物的可吸入颗粒物、ARGs 和微生物 eDNA。文章全面分析了导致可吸入颗粒物在不同环境中扩散的机制和情况。考虑到目前微生物对抗生素的耐药性呈爆炸性增长,这也需要揭示烟雾对 AMR 产生影响的根本原因,并制定有效的策略来减轻烟雾对健康和环境的有害影响。
Unveiling the hidden hazards of smog: health implications and antibiotic resistance in perspective
Smog is a form of pollution composed of smoke and fog. It is one of the major environmental and public health problems in many urban areas around the world. Intriguingly, recent evidences have unveiled the potential link between smog and antimicrobial resistance (AMR). Smog can contribute to AMR through a complex and multifaceted set of mechanisms, including particulate matter (PM) which is found in smog, mediated transport of AMR microorganisms and genes, disruption of the respiratory microbiome, and modulation of host immune responses. Since the PM can lodge deeper in the lungs and harbors antibiotic resistance genes (ARGs), it should be considered that PM contributes to AMR toward the respiratory tract infections and other infections. PM can create conditions conducive to bacterial survival and growth in the respiratory system due to inflammation and immune suppression. PM2. 5 and PM10 have been associated with several respiratory system ailments due to their capability to penetrate inner areas. Moreover, PM can serve as a carrier for ARGs and other microbial components, aiding in their spread. This interaction may accelerate the development and spread of AMR. It is imperative to further unleash the mechanisms adopted by microbial extracellular DNA associated with the PM to envisage the potential health and environmental hazards. eDNA, for example, has been shown to contribute to the diversity and composition of microbiota associated with PM, such as bacteria, fungi, and viruses. This review focuses on PM, ARGs, and microbial eDNA as emerging environmental contaminants. A comprehensive analysis is conducted of the mechanisms and circumstances that contribute to its spread in diverse settings. Considering the current explosive increase in microbial resistance to the antibiotics, this also necessitates uncovering the underpinnings of the smog’s effect on AMR and developing effective strategies for mitigating these deleterious smog effects on health and environment.
期刊介绍:
Associated with the International Association for Aerobiology, Aerobiologia is an international medium for original research and review articles in the interdisciplinary fields of aerobiology and interaction of human, plant and animal systems on the biosphere. Coverage includes bioaerosols, transport mechanisms, biometeorology, climatology, air-sea interaction, land-surface/atmosphere interaction, biological pollution, biological input to global change, microbiology, aeromycology, aeropalynology, arthropod dispersal and environmental policy. Emphasis is placed on respiratory allergology, plant pathology, pest management, biological weathering and biodeterioration, indoor air quality, air-conditioning technology, industrial aerobiology and more.
Aerobiologia serves aerobiologists, and other professionals in medicine, public health, industrial and environmental hygiene, biological sciences, agriculture, atmospheric physics, botany, environmental science and cultural heritage.
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