baumannii infection, pneumonia and septicemia, includes the dissemination of the organism to visceral organs learn more via the circulatory system (Munoz-Price & Weinstein, 2008). Accordingly, we and others have begun defining the factors that contribute to the organism’s ability to survive and/or proliferate in human serum. Collectively, our work and related studies have revealed that outer membrane protein A, PBP-7/8, phospholipase D, lipopolysaccharide, and capsule all contribute to A. baumannii’s ability to survive in human serum and to cause pathogenesis in infected animals (Kim et al., 2009; Russo et al., 2009, 2010; Jacobs et al., 2010; Luke et al.,
2010). In the current study, we initially set out to comprehensively assess the expression properties of exponential- and stationary-phase A. baumannii, with the expectation that doing so may provide an important step toward identifying A. baumannii virulence factors that are regulated in a cell density-dependent manner and simultaneously provide researchers with a reference database of the organism’s expression properties during laboratory culture conditions. Accordingly, custom-made Affymetrix GeneChips® were developed and used to
compare the expression properties of two genetically diverse A. baumannii strains, ATCC 17978 and 98-37-09 during exponential and stationary phase of growth in laboratory culture medium. Results revealed that, in addition to expected growth phase-associated metabolic changes, biological systems ostensibly associated with biofilm formation and tolerance to desiccation were
upregulated Cell Cycle inhibitor during stationary phase and may constitute A. baumannii virulence factors. Further, using these data as a baseline, microarray studies were expanded to define the expression profile of A. baumannii selleck screening library grown in human serum. A comparison of the transcriptomes of cells cultured in laboratory media versus serum revealed that many biological processes are commonly employed during growth in both substrates. However, growth in serum also dramatically upregulated A. baumannii iron acquisition systems, genes associated with epithelial cell adherence and DNA acquisition, as well as numerous putative drug efflux pumps. As a preliminary validation of those observations, reverse-transcriptase polymerase chain reaction (RT-PCR) verified the expression levels of genes associated with the aforementioned cellular processes, and antibiotic susceptibility testing confirmed that the organism exhibits increased antibiotic tolerance when cultured in human serum, as compared to laboratory medium. Taken together, results of these studies provide a reference for A. baumannii’s expression properties in laboratory medium and serum, as well as identify biological processes that may contribute to the organism’s ability to tolerate desiccation, form biofilms on abiotic surfaces, and resist antimicrobial agents.
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