Biofilm formation is considered an important factor in resistance to stresses and in bacterial colonization and persistence in different environmental niches [11]. It has been reported that ability of A. baumannii to form biofilm in laboratory conditions correlates with resistance to complement-mediated bacterial killing [12]. This observation suggests that biofilm Omipalisib in vitro formation can contribute to A. baumannii survival during host infection, thus representing an important

virulence factor. In contrast, studies addressing possible correlation between biofilm and multidrug resistance have produced conflicting results [13–16]. Ability to form biofilm has been reported for numerous A. baumannii strains [12–16], and several biofilm determinants, i.e., the csu pili [17], and the outer membrane-associated Compound C mw proteins Bap [18] and OmpA [19] have been identified. In this report, we have characterized A. baumannii isolates responsible for nosocomial infections in two hospitals in Italy. We showed that all isolates were genetically related, suggesting

that they originate from a single clone, termed SMAL. A. baumannii SMAL is not clonally related to known multidrug resistant A. baumannii lineages such as European clones I and II [20, 21]. We have studied how growth conditions and exposure of A. baumannii SMAL to subinhibitory concentrations of imipenem affects its ability to form biofilm, a cellular process with important consequences on sensitivity to antimicrobial agents and on microbial persistence in the human host. Results Characterization of Acinetobacter baumannii clinical isolates A total of 73 Acinetobacter baumannii isolates responsible of various infections were collected from patients in different wards of two Hospitals in Pavia, Italy, between 2002 and 2007. 69 out of 73 isolates showed identical multidrug resistant https://www.selleckchem.com/products/arn-509.html phenotype, being resistant to fluoroquinolones, aminoglycosides, and most β-lactams; however, they retained susceptibility to carbapenems,

tetracycline and to ampicillin/sulbactam (Table 1). The remaining 4 isolates showed different antibiotic susceptibility patterns, including resistance to carbapenems and tetracycline (data not shown). The 69 isolates were characterized by an identical β-lactamase pattern, producing 3 distinct β-lactamases, with pI values of 6.1, 7.0, >8.2, compatible Chlormezanone with those of OXA-10, OXA-51-like and AmpC-type enzymes. PCR experiments and direct DNA sequencing using the same primers confirmed the presence of bla OXA-10 and bla OXA-90 genes (Table 1). The β-lactamase pattern shown by the isolates is consistent with their susceptibility to carbapenems: indeed, OXA-51-like β-lactamases only possess slow hydrolytic activity against imipenem and result in very little effect on imipenem sensitivity even when overexpressed [22]. Table 1 Antimicrobial susceptibility, production of β-lactamases, and pulsotype of the 69 isolates of A. baumannii analyzed in this study.