Dynamic changes of the gut microbial colonization in preterm infants with different time points after birth

Khan, Anzar; Mi, Hongying; Gao, Fei; Hu, Qi; Gu, Xia; Ma, Fang; Qu, LiuHong; Li, Sitao; Dai, Yiheng; Hu, Hao

doi:10.3389/fmicb.2023.1078426

Cited by 3 publications

(1 citation statement)

References 38 publications

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“…Therefore, despite only one bacterial genus being over-represented at the low-AQI site ( Exiguobacterium , Figure 3 B), its high abundance seems to generate a crucial impact on the distinctive biological functions of the community. In fact, this genus has members implicated in all the imputed functions over-represented at the low-AQI site, such as phototrophy [ 58 ], chemoheterotrophy [ 59 ], aromatic compound degradation [ 60 ], animal parasites or symbionts [ 61 , 62 ], and human-associated [ 63 ]. Regarding the fungal cultivable community, imputed functions were over-represented in both gaseous differential conditions (six at the high-AQI site and five at the low-AQI site; Figure 3 D).…”

Section: Discussionmentioning

confidence: 99%

The Impact of Environmental Gaseous Pollutants on the Cultivable Bacterial and Fungal Communities of the Aerobiome

Mejías,

Madrid,

Díaz

et al. 2024

Microorganisms

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Understanding air microbial content, especially in highly polluted urban areas, is crucial for assessing its effect on human health and ecosystems. In this context, the impact of gaseous pollutants on the aerobiome remains inconclusive due to a lack of studies separating this factor from other contaminants or environmental factors. In this study, we aimed to experimentally assess the influence of contrasting concentrations of atmospheric gaseous pollutants as isolated variables on the composition of the aerobiome. Our study sites were contrasting Air Quality Index (AQI) sites of the Metropolitan Region of Chile, where nitric oxide (NO) was significantly lower at the low-AQI site than at the high-AQI site, while ozone (O3) was significantly higher. Cultivable aerobiome communities from the low-AQI site were exposed to their own pollutants or those from the high-AQI site and characterized using high-throughput sequencing (HTS), which allowed comparisons between the entire cultivable communities. The results showed increased alpha diversity in bacterial and fungal communities exposed to the high-AQI site compared to the low-AQI site. Beta diversity and compositional hierarchical clustering analyses revealed a clear separation based on NO and O3 concentrations. At the phylum level, four bacterial and three fungal phyla were identified, revealing an over-representation of Actinobacteriota and Basidiomycota in the samples transferred to the high-AQI site, while Proteobacteria were more abundant in the community maintained at the low-AQI site. At the functional level, bacterial imputed functions were over-represented only in samples maintained at the low-AQI site, while fungal functions were affected in both conditions. Overall, our results highlight the impact of NO and/or O3 on both taxonomic and functional compositions of the cultivable aerobiome. This study provides, for the first time, insights into the influence of contrasting pollutant gases on entire bacterial and fungal cultivable communities through a controlled environmental intervention.

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Section: Discussionmentioning

confidence: 99%

The Impact of Environmental Gaseous Pollutants on the Cultivable Bacterial and Fungal Communities of the Aerobiome

Mejías,

Madrid,

Díaz

et al. 2024

Microorganisms

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Dynamic impact of delivery modes on gut microbiota in preterm infants hospitalized during the initial 4 weeks of life

Wu,

Guo,

Fan

et al. 2024

International Journal of Medical Microbiology

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Role of probiotics in managing various human diseases, from oral pathology to cancer and gastrointestinal diseases

Petrariu,

Barbu,

Niculescu

et al. 2024

Front. Microbiol.

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The imbalance of microbial composition and diversity in favor of pathogenic microorganisms combined with a loss of beneficial gut microbiota taxa results from factors such as age, diet, antimicrobial administration for different infections, other underlying medical conditions, etc. Probiotics are known for their capacity to improve health by stimulating the indigenous gut microbiota, enhancing host immunity resistance to infection, helping digestion, and carrying out various other functions. Concurrently, the metabolites produced by these microorganisms, termed postbiotics, which include compounds like bacteriocins, lactic acid, and hydrogen peroxide, contribute to inhibiting a wide range of pathogenic bacteria. This review presents an update on using probiotics in managing and treating various human diseases, including complications that may emerge during or after a COVID-19 infection.

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Dynamic changes of the gut microbial colonization in preterm infants with different time points after birth

Cited by 3 publications

References 38 publications

The Impact of Environmental Gaseous Pollutants on the Cultivable Bacterial and Fungal Communities of the Aerobiome

The Impact of Environmental Gaseous Pollutants on the Cultivable Bacterial and Fungal Communities of the Aerobiome

Dynamic impact of delivery modes on gut microbiota in preterm infants hospitalized during the initial 4 weeks of life

Role of probiotics in managing various human diseases, from oral pathology to cancer and gastrointestinal diseases

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