Biocontrol in built environments to reduce pathogen exposure and infection risk

Gottel, Neil R; Hill, Megan S; Neal, Maxwell J; Allard, Sarah M; Zengler, Karsten; Gilbert, Jack A

doi:10.1093/ismejo/wrad024

The ISME Journal

2024

DOI: 10.1093/ismejo/wrad024

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Biocontrol in built environments to reduce pathogen exposure and infection risk

Neil R Gottel,

Megan S Hill,

Maxwell J Neal

et al.

Abstract: The microbiome of the built environment comprises bacterial, archaeal, fungal, and viral communities associated with human-made structures. Even though most of these microbes are benign, antibiotic-resistant pathogens can colonise and emerge indoors, creating infection risk through surface transmission or inhalation. Several studies have catalogued the microbial composition and ecology in different built environment types. These have informed in vitro studies that seek to replicate the physicochemical features… Show more

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Cited by 4 publications

References 107 publications

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Structural characteristics of pathogenic bacteria in split-type air conditioners and environmental factors related to their pathogenicity

Liu,

Wang,

et al. 2024

Building and Environment

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Structural characteristics of pathogenic bacteria in split-type air conditioners and environmental factors related to their pathogenicity

Liu,

Wang,

et al. 2024

Building and Environment

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DipR, a GntR/FadR-family transcriptional repressor: regulatory mechanism and widespread distribution of the dip cluster for dipicolinic acid catabolism in bacteria

Jiang,

Wang,

et al. 2024

Nucleic Acids Research

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Dipicolinic acid is an essential component of bacterial spores for stress resistance, which is released into the environment after spore germination. In a previous study, a dip gene cluster was found to be responsible for the catabolism of dipicolinic acid in Alcaligenes faecalis JQ135. However, the transcriptional regulatory mechanism remains unclear. The present study characterized the new GntR/FadR family transcriptional factor DipR, showing that the dip cluster is transcribed as the six transcriptional units, dipR, dipA, dipBC, dipDEFG, dipH and dipJKLM. The purified DipR protein has six binding sites sharing the 6-bp conserved motif sequence 5′-GWATAC-3′. Site-directed mutations indicated that these motif sequences are essential for DipR binding. Moreover, the four key amino acid residues R63, R67, H196 and H218 of DipR, examined by site-directed mutagenesis, played crucial roles in DipR regulation. Bioinformatics analysis showed that dip clusters including dipR genes are widely distributed in bacteria, are taxon-related, and co-evolved with their hosts. This paper provides new insights into the transcriptional regulatory mechanism of dipicolinic acid degradation by DipR in bacteria.

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Tackling transmission of infectious diseases: A probiotic‐based system as a remedy for the spread of pathogenic and resistant microbes

D'Accolti,

Soffritti,

Bini

et al. 2024

Microbial Biotechnology

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Built environments (BEs) currently represent the areas in which human beings spend most of their life. Consistently, microbes populating BEs mostly derive from human occupants and can be easily transferred from BE to occupants. The hospital microbiome is a paradigmatic example, representing a reservoir for harmful pathogens that can be transmitted to susceptible patients, causing the healthcare‐associated infections (HAIs). Environmental cleaning is a crucial pillar in controlling BE pathogens and preventing related infections, and chemical disinfectants have been largely used so far towards this aim. However, despite their immediate effect, chemical‐based disinfection is unable to prevent recontamination, has a high environmental impact, and can select/increase antimicrobial resistance (AMR) in treated microbes. To overcome these limitations, probiotic‐based sanitation (PBS) strategies were recently proposed, built on the use of detergents added with selected probiotics able to displace surrounding pathogens by competitive exclusion. PBS was reported as an effective and low‐impact alternative to chemical disinfection, providing stable rebalance of the BE microbiome and significantly reducing pathogens and HAIs compared to disinfectants, without exacerbating AMR and pollution concerns. This minireview summarizes the most significant results obtained by applying PBS in sanitary and non‐sanitary settings, which overall suggest that PBS may effectively tackle the infectious risk meanwhile preventing the further spread of pathogenic and resistant microbes.

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Biocontrol in built environments to reduce pathogen exposure and infection risk

Cited by 4 publications

References 107 publications

Structural characteristics of pathogenic bacteria in split-type air conditioners and environmental factors related to their pathogenicity

Structural characteristics of pathogenic bacteria in split-type air conditioners and environmental factors related to their pathogenicity

DipR, a GntR/FadR-family transcriptional repressor: regulatory mechanism and widespread distribution of the dip cluster for dipicolinic acid catabolism in bacteria

Tackling transmission of infectious diseases: A probiotic‐based system as a remedy for the spread of pathogenic and resistant microbes

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