Ingo Klare

A potential virulence gene, hylEfm, predominates in Enterococcus faecium of clinical origin.

An open reading frame (hyl(Efm)) with homologies to previously described hyaluronidase genes has been identified in nonstool isolates of Enterococcus faecium. E. faecium isolates (n=577) from diverse sources were screened for the presence of hyl(Efm) and esp(Efm), a putative virulence gene associated with epidemic E. faecium strains. The presence of esp(Efm) was roughly twice that of hyl(Efm), but both were found primarily in vancomycin-resistant E. faecium isolates in nonstool cultures obtained from patients hospitalized in the United States. These data suggest that specific E. faecium strains may be enriched in determinants that make them more likely to cause clinical infections. Differences in the prevalence of these strains may help explain variations in the clinical importance of multiresistant E. faecium across different continents.

Occurrence and spread of antibiotic resistances in Enterococcus faecium

Enterococci are the second to third most important bacterial genus in hospital infections. Especially Enterococcus (E.) faecium possesses a broad spectrum of natural and acquired antibiotic resistances which are presented in detail in this paper. From medical point of view, the transferable resistances to glycopeptides (e.g., vancomycin, VAN, or teicoplanin, TPL) and streptogramins (e.g., quinupristin/dalfopristin, Q/D) in enterococci are of special interest. The VanA type of enterococcal glycopeptide resistance is the most important one (VAN-r, TPL-r); its main reservoir is E. faecium. Glycopeptide-resistant E. faecium (GREF) can be found in hospitals and outside of them, namely in European commercial animal husbandry in which the glycopeptide avoparcin (AVO) was used as growth promoter in the past. There are identical types of the vanA gene clusters in enterococci from different ecological origins (faecal samples of animals, animal feed, patients in hospitals, persons in the community, waste water samples). Obviously, across the food chain (by GREF-contaminated meat products), these multiple-resistant bacteria or their vanA gene clusters can reach humans. In hospital infections, widespread epidemic-virulent E. faecium isolates of the same clone with or without glycopeptide resistance can occur; these strains often harbour different plasmids and the esp gene. This indicates that hospital-adapted epidemic-virulent E. faecium strains have picked up the vanA gene cluster after they were already widely spread. The streptogramin virginiamycin was also used as feed additive in commercial animal husbandry in Europe for more than 20 years, and it created reservoirs for streptogramin-resistant E. faecium (SREF). In 1998/1999, SREF could be isolated in Germany from waste water of sewage treatment plants, from faecal samples and meat products of animals that were fed virginiamycin (cross resistance to Q/D), from stools of humans in the community, and from clinical samples. These isolations of SREF occurred in a time before the streptogramin combination Q/D was introduced for therapeutic purposes in German hospitals in May 2000, while other streptogramins were not used in German clinics. This seems to indicate that the origin of these SREF or their streptogramin resistance gene(s) originated from other sources outside the hospitals, probably from commercial animal husbandry. In order to prevent the dissemination of multiple antibiotic-resistant enterococci or their transferable resistance genes, a prudent use of antibiotics is necessary in human and veterinary medicine, and in animal husbandry.

Evaluation of new broth media for microdilution antibiotic susceptibility testing of lactobacilli, pediococci, lactococci, and bifidobacteria

ABSTRACT Nine pure or mixed broth media were evaluated for their suitabilities to determine MICs in a microdilution test of 19 antibacterial agents for lactic acid bacteria (LAB) of the genera Lactobacillus, Pediococcus, Lactococcus, and Bifidobacterium. A mixed formulation of Iso-Sensitest broth (90%) and deMan-Rogosa-Sharpe broth (10%) with or without supplementation with l-cysteine, referred to as the LAB susceptibility test medium, provided the most optimal medium basis in terms of growth support of nonenterococcal LAB and correct indication of MICs of international control strains.

Spread of ampicillin/vancomycin-resistant Enterococcus faecium of the epidemic-virulent clonal complex-17 carrying the genes esp and hyl in German hospitals.

The incidence of vancomycin-resistant Enterococcus faecium isolation was low (≤5%) in German hospitals before 2003. Within the second half of 2003 and the first half of 2004, however, increasing frequencies of up to 14% were noticed in several hospitals in southwestern Germany. This increase was attributed mainly to the occurrence and spread of epidemic-virulent ampicillin/vancomycin-resistant, vanA- and vanB-positive E. faecium clones, most of which exhibited the virulence factors enterococcal surface protein (esp) and bacteriocin activity and some which exhibited hyaluronidase (hyl). E. faecium possessing hyaluronidase was initially found in U.S. hospitals and recently detected in several European hospitals and, subsequently, in German hospitals as well. Ampicillin/vancomycin-resistant E. faecium clones originating mainly from southwestern German hospitals were characterized by multilocus sequence typing since different sequence types (STs) belonging to the clonal complex-17 are currently disseminated worldwide. Multilocus sequence typing revealed that, in 1998 and 1999, ampicillin/vancomycin-resistant E. faecium clone ST-117 was prevalent in various German hospitals, while in 2003 and 2004, clone ST-203 dominated in several hospitals located in southwestern Germany. Both sequence types display single-locus variants of ST-78, which was frequently recorded in various Italian hospitals between 2000 and 2003, and all of these STs belong to the clonal complex-17. Expression of linezolid resistance was observed in ampicillin/glycopeptide-resistant E. faecium strains (VanA type) from two tertiary hospitals in southwestern Germany due to mutations in domain V of the 23S rDNA (G2576T). While in one hospital the resistance emerged during linezolid therapy, in the other hospital resistance was caused by transfer of an identical linezolid/ampicillin/glycopeptide-resistant E. faecium strain. In conclusion, it is very important to monitor the occurrence of epidemic-virulent clonal complex-17 strains of E. faecium to prevent their spread in hospitals, especially if they are resistant to glycopeptides and linezolid.

How many infections are caused by patient-to-patient transmission in intensive care units?*

Objective:The proportion of intensive care unit (ICU)-acquired infections that are a consequence of nosocomial cross-transmission between patients in tertiary ICUs is unknown. Such information would be useful for the implementation of appropriate infection control measures. Design:A prospective cohort study during 18 months. Setting:Five ICUs from two university hospitals. Patients:All patients admitted for ≥48 hrs. Measurement:ICU-acquired infections were ascertained during daily bedside patient and chart reviews. Episodes of potential cross-transmission were identified by highly discriminating genetic typing of all clinical and surveillance isolates of the ten bacterial species most frequently associated with nosocomial infections in ICUs. Isolation of indistinguishable isolates in two or more patients defined potential transmission episodes. Main Results:During 28,498 patient days, 431 ICU-acquired infections and 141 episodes of nosocomial transmissions were identified. A total of 278 infections were caused by the ten species that were genotyped, and 41 of these (14.5%) could be associated with transmissions between patients. Conclusion:Infections acquired during treatment in modern tertiary ICUs are common, but a causative role of direct patient-to-patient transmission can only be ascertained for a minority of these infections on the basis of routine microbiological investigations.

Emergence and spread of antibiotic-resistant Gram-positive bacterial pathogens

Development of multiple resistances to antibiotics in staphylococci, enterococci and pneumococci became a health threat during the past 20 years, not only with respect to nosocomial infections. This resistance development is based on acquisition of resistance genes by predominant epidemic subpopulations (clonal complexes). Although emergence and spread of methicillin-resistant Staphylococcus aureus is associated with a limited number of epidemic clones which have been widely disseminated, acquisition of SCCmec elements by susceptible ancestors has taken place at different times and at different locations. Among Staphylococcus epidermidis and Enterococcus faecium, one clonal complex, which had acquired resistance genes at several occasions, is widely disseminated in hospitals. Also in Streptococcus pneumoniae, antibiotic resistance is preferentially associated with clonal lineages which have a capacity for spreading. They became, however, more rare after introduction of the 7-valent conjugate vaccine.

Tigecycline-resistant Enterococcus faecalis strain isolated from a German intensive care unit patient

Institute for LaboratoryMedicine, Vinzenz von Paul Clinics, MarienhospitalStuttgart, Bo¨heimstr. 37, D-70199 Stuttgart, GermanyKeywords: reserpine, omeprazole, glycylcyclines, tetX*Corresponding author. Tel: þ49-3943-679210; Fax: þ49-3943-679207; E-mail: wernerg@rki.de†Present address. Centre for Diagnostic Medicine, Robert BoschHospital Stuttgart, Auerbachstr. 110, D-70376 Stuttgart,Germany.Sir,Tigecycline is a member of the new group of glycylcyclines anda promising new antibiotic of last resort, active against manybacteria including Enterococcus spp.

Insight into antimicrobial susceptibility and population structure of contemporary human Enterococcus faecalis isolates from Europe

OBJECTIVES To investigate antimicrobial susceptibility and clonal relatedness of Enterococcus faecalis human isolates recovered recently (2006-09) in six European countries. METHODS Antimicrobial susceptibility of 386 isolates from Denmark, Germany, Norway, Poland, Spain and The Netherlands, from hospital infections (223 isolates), carriage (82 isolates) and from colonization in the community (81 isolates) was determined by the broth microdilution method. Clonal relatedness of isolates was assessed by multilocus sequence typing. RESULTS All isolates were susceptible to benzylpenicillin, ampicillin, linezolid, tigecycline and daptomycin. Non-susceptibility to tetracycline (77.6%), rifampicin (57.3%), ciprofloxacin (51.2%), aminoglycosides (43.3% high-level gentamicin resistance, 40.0% high-level streptomycin resistance) was frequent among hospital isolates, while non-susceptibility to glycopeptides was rare and associated mostly with vanA. Multidrug resistance was found in 59.7% of hospital isolates and 16.1% of community isolates. Isolates were classified into 105 sequence types (STs), of which 21 STs, representing more than half of the collected isolates (53.9%), grouped with 6 large E. faecalis clonal complexes (CCs; CC2, CC16, CC21, CC30, CC40 and CC87). Two of these, CC2 (frequently recovered in Spain and The Netherlands) and CC87 (prevalent in Poland), were found almost exclusively in hospitals and included the highest proportion of multiresistant isolates. CONCLUSIONS While hospital-acquired E. faecalis in Europe remains susceptible to ampicillin and glycopeptides, the high prevalence of strains that are highly resistant to aminoglycosides excludes these antibiotics from combination therapies. Genotyping revealed that nosocomial infections by multiresistant E. faecalis are largely caused by only a few hospital-associated clones.

Rapid emergence of resistance to linezolid during linezolid therapy of an Enterococcus faecium infection

ABSTRACT We report the emergence of linezolid resistance (MICs of 16 to 32 mg/liter) in clonally related vancomycin-susceptible and -resistant Enterococcus faecium isolates from an intensive care unit patient after 12 days of linezolid therapy. Only linezolid-susceptible isolates of the same clone were detected at 28 days after termination of linezolid therapy.

Influence of Transferable Genetic Determinants on the Outcome of Typing Methods Commonly Used for Enterococcus faecium

ABSTRACT A variety of methods is used for a molecular typing of Enterococcus spp. and related gram-positive bacteria including macrorestriction analysis using pulsed-field gel electrophoresis (PFGE), ribotyping, rapid amplification of polymorphic DNA (RAPD), and amplified fragment length polymorphism (AFLP). To test the influence of transferable determinants on the outcome of different typing methods commonly used for enterococci, we established a homogenous strain collection of 24 transconjugants resulting from filter matings with antibiotic-resistant Enterococcus faecium. As expected, AFLP, RAPD, and PFGE all identified our model bacteria as strongly related. However, distinct differences in the resolving and discriminatory power of the tested methods could be clearly addressed. In PFGE, 22 of 24 transconjugants possessed less than a three-band difference to the recipient pattern and would be regarded as strongly related. Three different RAPD PCRs were tested; in two reactions, identical patterns for all transconjugants and the recipient were produced. One RAPD PCR produced an identical pattern for 18 transconjugants and the recipient and a clearly different pattern for the remaining 6 transconjugants due to a newly appearing fragment resulting from acquisition of the tetL gene. AFLP clusters all transconjugants into a group of major relatedness. Percent similarities were highly dependent on the method used for calculating the similarity coefficient (curve-based versus band-based similarity coefficient). Fragment patterns of digested plasmids showed the possession of nonidentical plasmids in most transconjugants. PFGE still could be recommended as the method of choice. Nevertheless, the more-modern AFLP approach produces patterns of comparable discriminatory power while possessing some advantages over PFGE (less-time-consuming internal standards). Plasmid fingerprints can be included to subdifferentiate enterococcal isolates possessing identical macrorestriction and PCR typing patterns.