Characterization of predominant bacteria isolates from clean rooms in a pharmaceutical production unit

Wu, Guangjun; Liu, Xiaohua

doi:10.1631/jzus.2007.b0666

Cited by 29 publications

(13 citation statements)

References 13 publications

(13 reference statements)

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“…However, the implications of sulfonamide metabolizing coryneform bacteria must not be underestimated. Both Arthrobacter and Microbacterium have shown extreme resistance to UV sterilization, leading to their isolation even from clean rooms of a pharmaceutical production and NASA experimentation sites, respectively 50 , 51 . We were able to prove, that Microbacterium sp.…”

Section: Resultsmentioning

confidence: 99%

FMNH2-dependent monooxygenases initiate catabolism of sulfonamides in Microbacterium sp. strain BR1 subsisting on sulfonamide antibiotics

Ricken

Kolvenbach

Bergesch

et al. 2017

Sci Rep

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We report a cluster of genes encoding two monooxygenases (SadA and SadB) and one FMN reductase (SadC) that enable Microbacterium sp. strain BR1 and other Actinomycetes to inactivate sulfonamide antibiotics. Our results show that SadA and SadC are responsible for the initial attack of sulfonamide molecules resulting in the release of 4-aminophenol. The latter is further transformed into 1,2,4-trihydroxybenzene by SadB and SadC prior to mineralization and concomitant production of biomass. As the degradation products lack antibiotic activity, the presence of SadA will result in an alleviated bacteriostatic effect of sulfonamides. In addition to the relief from antibiotic stress this bacterium gains access to an additional carbon source when this gene cluster is expressed. As degradation of sulfonamides was also observed when Microbacterium sp. strain BR1 was grown on artificial urine medium, colonization with such strains may impede common sulfonamide treatment during co-infections with pathogens of the urinary tract. This case of biodegradation exemplifies the evolving catabolic capacity of bacteria, given that sulfonamide bacteriostatic are purely of synthetic origin. The wide distribution of this cluster in Actinomycetes and the presence of traA encoding a relaxase in its vicinity suggest that this cluster is mobile and that is rather alarming.

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Section: Resultsmentioning

confidence: 99%

FMNH2-dependent monooxygenases initiate catabolism of sulfonamides in Microbacterium sp. strain BR1 subsisting on sulfonamide antibiotics

Ricken

Kolvenbach

Bergesch

et al. 2017

Sci Rep

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“…Several authors discussed the effectivity of microbiological methods and analytical tools to assess the risk of typical microbial contaminants, such as Staphylococcus , Microbacterium and Bacillus ( Wu and Liu, 2007 ) during pharmaceutical production ( Whyte and Eaton, 2004a , b ) or in aseptic processing cleanrooms ( Hussong and Madsen, 2004 ). Thomas et al concluded that the aseptic techniques applied by the personnel were more critical in avoiding contamination, than the general level of cleanliness of the environment (e.g., a cleanroom) for compounding drugs ( Thomas et al, 2005 ).…”

Section: Cleanroomsmentioning

confidence: 99%

Microorganisms in Confined Habitats: Microbial Monitoring and Control of Intensive Care Units, Operating Rooms, Cleanrooms and the International Space Station

et al. 2016

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Indoor environments, where people spend most of their time, are characterized by a specific microbial community, the indoor microbiome. Most indoor environments are connected to the natural environment by high ventilation, but some habitats are more confined: intensive care units, operating rooms, cleanrooms and the international space station (ISS) are extraordinary living and working areas for humans, with a limited exchange with the environment. The purposes for confinement are different: a patient has to be protected from infections (intensive care unit, operating room), product quality has to be assured (cleanrooms), or confinement is necessary due to extreme, health-threatening outer conditions, as on the ISS. The ISS represents the most secluded man-made habitat, constantly inhabited by humans since November 2000 – and, inevitably, also by microorganisms. All of these man-made confined habitats need to be microbiologically monitored and controlled, by e.g., microbial cleaning and disinfection. However, these measures apply constant selective pressures, which support microbes with resistance capacities against antibiotics or chemical and physical stresses and thus facilitate the rise of survival specialists and multi-resistant strains. In this article, we summarize the available data on the microbiome of aforementioned confined habitats. By comparing the different operating, maintenance and monitoring procedures as well as microbial communities therein, we emphasize the importance to properly understand the effects of confinement on the microbial diversity, the possible risks represented by some of these microorganisms and by the evolution of (antibiotic) resistances in such environments – and the need to reassess the current hygiene standards.

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“…The more frequently detected bacterial and fungal contaminants in the pharmaceutical cleanroom environment tend towards Gram‐positive micro‐organisms and fungi, including species of Staphylococcus , Micrococcus , Bacillus , Penicillium , Cladosporium and Aspergillus (Hyde ; Utescher et al . ; Wu and Liu ; Sandle ).…”

Section: Introductionmentioning

confidence: 99%

In vitro fungicidal activity of biocides against pharmaceutical environmental fungal isolates

et al. 2014

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Characterization of predominant bacteria isolates from clean rooms in a pharmaceutical production unit

Cited by 29 publications

References 13 publications

FMNH2-dependent monooxygenases initiate catabolism of sulfonamides in Microbacterium sp. strain BR1 subsisting on sulfonamide antibiotics

FMNH2-dependent monooxygenases initiate catabolism of sulfonamides in Microbacterium sp. strain BR1 subsisting on sulfonamide antibiotics

Microorganisms in Confined Habitats: Microbial Monitoring and Control of Intensive Care Units, Operating Rooms, Cleanrooms and the International Space Station

In vitro fungicidal activity of biocides against pharmaceutical environmental fungal isolates

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