Identification and Characterization of an
            <i>Acinetobacter baumannii</i>
            Biofilm-Associated Protein

Loehfelm, Thomas W.; Luke, Nicole R.; Campagnari, Anthony A.

doi:10.1128/jb.01416-07

Cited by 222 publications

(224 citation statements)

References 48 publications

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“…Loehfelm et al (6) identified a staphylococcal homologue of biofilm-associated protein (Bap), and after generating a transposon-mediated bap mutant in a contemporary A. baumannii clinical strain (307-0294), it was shown that the mutant produced \50% of the biofilm thickness produced by the parent strain. Bap is a surface exposed protein and, rather than being involved in bacterial cell attachment, appears to be important in maintaining mature biofilm architecture (6). Interestingly, antibodies directed to Bap bound to 93% of the four most common strain types from a clinical outbreak, as determined by MLST, whereas they bound to only 28% of the 35 less common strain types (6).…”

Section: Biofilm Formation and Use Of In Vitro Abiotic Models To Studmentioning

confidence: 99%

“…Bap is a surface exposed protein and, rather than being involved in bacterial cell attachment, appears to be important in maintaining mature biofilm architecture (6). Interestingly, antibodies directed to Bap bound to 93% of the four most common strain types from a clinical outbreak, as determined by MLST, whereas they bound to only 28% of the 35 less common strain types (6). The significance of this observation is unclear, but further research into the clinical importance of Bap in A. baumannii is clearly warranted.…”

Section: Biofilm Formation and Use Of In Vitro Abiotic Models To Studmentioning

confidence: 99%

“…medical devices and environmental surfaces (3)(4)(5)(6); (ii) its ability to adhere to, colonize and invade human epithelial cells (7,8); (iii) its repertoire of antibiotic resistance mechanisms that are able to be promptly up-regulated as required; and (iv) its ability to acquire foreign genetic material through lateral gene transfer to promote its own survival under antibiotic and host selection pressures (9,10). Specific virulence mechanisms identified to date are summarized in Table 1.…”

Section: Introductionmentioning

confidence: 99%

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Insights into Acinetobacter baumannii pathogenicity

2011

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SummaryAcinetobacter spp. have justifiably received significant attention from the public, scientific, and medical communities. Over recent years, Acinetobacter, particularly Acinetobacter baumannii, has become a ''red-alert'' human pathogen, primarily because of its exceptional ability to develop resistance to all currently available antibiotics. This characteristic is compounded by its unique abilities to survive in a diverse range of environments, including those within healthcare institutions, leading to problematic outbreaks. Historically, the virulence of the organism has been questioned, but recent clinical reports suggest that Acinetobacter can cause serious, life-threatening infections. Furthermore, its metabolic adaptability gives it a selective advantage in harsh hospital environments. This review focuses on current understanding of A. baumannii pathogenesis and the model systems used to study this interesting organism.

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Section: Biofilm Formation and Use Of In Vitro Abiotic Models To Studmentioning

confidence: 99%

Section: Biofilm Formation and Use Of In Vitro Abiotic Models To Studmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Insights into Acinetobacter baumannii pathogenicity

2011

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“…The expression level of csu operon is regulated by the two-component system -BfmS/BfmR, comprising a sensor kinase and a response regulator [39]. Biofilm-associated protein (Bap), expressed on the surface of the bacterial cells, is implicated in cell-to-cell adhesion providing biofilm development and maturation on different substrata [40]. Furthermore, one of the most important components of exopolysaccharides constituting biofilm matrix was polysaccharide polymer poly--beta-1,6-N-acetylglucosamine (PNAG) that is crucial for maintaining the integrity of A. baumannii biofilm under nutrient limitation and other environmental stresses [41].…”

Section: Virulence Factorsmentioning

confidence: 99%

Acinetobacter baumannii: biology and drug resistance — role of carbapenemases

Nowak

Paluchowska

2015

Folia Histochem Cytobiol.

100

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Acinetobacter baumannii is a Gram-negative, glucose-non-fermenting, oxidase-negative coccobacillus, most commonly associated with the hospital settings. The ability to survive in adverse environmental conditions as well as high level of natural and acquired antimicrobial resistance make A. baumannii one of the most important nosocomial pathogens. While carbapenems have long been considered as antimicrobials of last-resort, the rates of clinical A. baumannii strains resistant to these antibiotics are increasing worldwide. Carbapenem resistance among A. baumannii is conferred by coexisting mechanisms including: decrease in permeability of the outer membrane, efflux pumps, production of beta-lactamases, and modification of penicillin-binding proteins. The most prevalent mechanism of carbapenem resistance among A. baumannii is associated with carbapenem-hydrolysing enzymes that belong to Ambler class D and B beta-lactamases. In addition, there have also been reports of resistance mediated by selected Ambler class A carbapenemases among A. baumannii strains. Resistance determinants in A. baumannii are located on chromosome and plasmids, while acquisition of new mechanisms can be mediated by insertion sequences, integrons, transposons, and plasmids. Clinical relevance of carbapenem resistance among strains isolated from infected patients, carriers and hospital environment underlines the need for carbapenemase screening. Currently available methods vary in principle, accuracy and efficiency. The techniques that deserve particular attention belong to both easily accessible unsophisticated methods as well as advanced techniques based on mass spectrometry or molecular biology. While carbapenemases limit the therapeutic options in A. baumannii infections, studies concerning novel beta-lactamase inhibitors offer a new insight into effective therapy.

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“…This kit provides a two dye fluorescence assay based on membrane integrity with extensive use in various microorganisms in the literature as Acinetobacter baumanni (Loehfelm et al, 2008), Mycoplasma putrefaciens (McAuliffe et al, 2006), Escherichia coli, and Micrococcus luteus (Ali et al, 2018). In Figure 3, it is possible to observe the visualization of the microorganisms with the kit which allows to distinguish between live and dead (Loehfelm et al, 2008;McAuliffe et al, 2006;Ali et al, 2018).…”

Section: Visualization Of Membrane Damage Of Prokaryotes By Fluorescementioning

confidence: 99%