Antibiotic Resistance Profile, Outer Membrane Proteins, Virulence Factors and Genome Sequence Analysis Reveal Clinical Isolates of Enterobacter Are Potential Pathogens Compared to Environmental Isolates

Outer membrane proteins (OMPs) of gram-negative bacteria play an important role in mediating antibacterial resistance, bacterial virulence and thus affect pathogenic ability of the bacteria. Over the years, prevalence of environmental antibiotic resistant organisms, their transmission to clinics and...

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Bibliographic Details
Published in:Frontiers in cellular and infection microbiology 2020-02, Vol.10, p.54-54
Main Authors: Mishra, Mitali, Panda, Sasmita, Barik, Susmita, Sarkar, Arup, Singh, Durg Vijai, Mohapatra, Harapriya
Format: Article
Language:English
Subjects:
antibiotic resistance
aquatic environment
association
Cellular and Infection Microbiology
Enterobacter spp
outer membrane proteins (OMPs)
virulence
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Summary:Outer membrane proteins (OMPs) of gram-negative bacteria play an important role in mediating antibacterial resistance, bacterial virulence and thus affect pathogenic ability of the bacteria. Over the years, prevalence of environmental antibiotic resistant organisms, their transmission to clinics and ability to transfer resistance genes, have been studied extensively. Nevertheless, how successful environmental bacteria can be in establishing as pathogenic bacteria under clinical setting, is less addressed. In the present study, we utilized an integrated approach of investigating the antibiotic resistance profile, presence of outer membrane proteins and virulence factors to understand extent of threat posed due to multidrug resistant environmental isolates. Also, we investigated clinical isolates and compared the results thereof. Results of the study showed that multidrug resistant environmental isolates lacked OmpC, lacked cell invasion abilities and exhibited low reactive oxygen species (ROS) production in neutrophils. In contrast, clinical isolates possessed OmpF, exhibited high invasive and adhesive property and produced higher amounts of ROS in neutrophils. These attributes indicated limited pathogenic potential of environmental isolates. Informations obtained from whole genome sequence of two representative bacterial isolates from environment (DL4.3) and clinical sources (EspIMS6) corroborated well with the observed results. Findings of the present study are significant as it highlights limited fitness of multidrug resistant environmental isolates.
ISSN:2235-2988
2235-2988
DOI:10.3389/fcimb.2020.00054