Comparative genome analysis of IncHI2 VIM-1 carbapenemase-encoding plasmids of Escherichia coli and Salmonella enterica isolated from a livestock farm in Germany.

Carbapenem-resistant Enterobacteriaceae are not any more isolated only from human settings, but also from livestock. We reported for the first time the presence of VIM-1 carbapenemases in a livestock farm in Germany. The VIM-1 resistance gene found in these farms was located on IncHI2 plasmids. In order to be able to analyse these plasmids in more detail, two different plasmids from a single farm (pRH-R27 from Salmonella enterica and pRH-R178 from Escherichia coli) were completely sequenced and analysed for the presence of antibiotic and heavy metal resistances. The plasmids showed to harbour blaVIM-1, aacA4, aadA1, sul1, qacEΔ (encoded in an In110 class 1 integron), as well as blaACC-1, strA/strB, and catA1 genes together with resistance to heavy metals (ter-, mer-, sil-, ars-, rcn-, and pco). Comparison with other IncHI2 plasmid revealed that while pRH-R27 is a mosaic IncHI2 plasmid with both high homology to the plasmid pSTm-A54650 and R478, both isolated from humans, pRH-R178 is a deletion derivative of pRH-R27, presumably caused by several IS-mediated deletions indicating genetic evolution of plasmids in this environment.

Spread and persistence of VIM-1 Carbapenemase-producing Enterobacteriaceae in three German swine farms in 2011 and 2012.

The occurrence of carbapenemase-producing Enterobacteriaceae in livestock is considered as a threat for public health. In Germany, VIM-1-producing Escherichia (E.) coli sequence type (ST) 88 and Salmonella Infantis isolates harbouring blaVIM-1IncHI2 plasmids have been isolated from swine and poultry farms. A retrospective study was performed to determine if there was a broader distribution of VIM-1-positive isolates in any of the carbapenemase-positive swine farms. Selective incubation (carbapenem-containing broth) of 249 conserved cultures collected in three farms (2011-2012), allowed the detection of 40 blaVIM-1-positive isolates. Apart from the already known non-motile Salmonella Infantis isolate R25 (farm S1) and R27 (S2), a third isolate was recovered from farm S3. For E. coli, additional to isolates R29 and R178 (S2), 35 new isolates were identified in the same farm during all the sampling periods (three dates, 2011) and in samples from different animals, farm environment, manure and flies. The newly identified E. coli and Salmonella isolates showed similar genetic and phenotypic characteristics (XbaI-PFGE profiles, antimicrobial resistance patterns, plasmid content, phylogroups, antigenic formula) to those in the previously described strains, suggesting microevolution within the clonal lines within one fattening period. The study shows that persistence of carbapenemase-producing clonal lines in livestock farms is possible, and underlines the need for harmonised monitoring and surveillance studies to follow up the occurrence of such bacteria in European livestock.

Diversity of STs, plasmids and ESBL genes among Escherichia coli from humans, animals and food in Germany, the Netherlands and the UK.

OBJECTIVES: This study aimed to compare ESBL-producing Escherichia coli causing infections in humans with infecting or commensal isolates from animals and isolates from food of animal origin in terms of the strain types, the ESBL gene present and the plasmids that carry the respective ESBL genes. METHODS: A collection of 353 ESBL-positive E. coli isolates from the UK, the Netherlands and Germany were studied by MLST and ESBL genes were identified. Characterization of ESBL gene-carrying plasmids was performed using PCR-based replicon typing. Moreover, IncI1-Iγ and IncN plasmids were characterized by plasmid MLST. RESULTS: The ESBL-producing E. coli represented 158 different STs with ST131, ST10 and ST88 being the most common. Overall, blaCTX-M-1 was the most frequently detected ESBL gene, followed by blaCTX-M-15, which was the most common ESBL gene in the human isolates. The most common plasmid replicon type overall was IncI1-Iγ followed by multiple IncF replicons. CONCLUSIONS: ESBL genes were present in a wide variety of E. coli STs. IncI1-Iγ plasmids that carried the blaCTX-M-1 gene were widely disseminated amongst STs in isolates from animals and humans, whereas other plasmids and STs appeared to be more restricted to isolates from specific hosts.

Characterization of illegal food items and identification of foodborne pathogens brought into the European Union via two major German airports.

Foods of animal origin brought illegally from third party countries into the European Community pose a risk for the introduction of diseases. This can lead to animal disease outbreaks with significant economic and social costs and subsequent severe trade restrictions. Further, disease outbreaks in humans due to illegally imported foods of animal origin have been described, yet, there are very few studies examining the potential human health impact. Passenger baggage is the most likely route by which illegal products enter a country. Therefore, the volume and geographic origin of foods of animal origin introduced illegally into Germany via the Frankfurt International Airport and Berlin-Schönefeld Airport by passenger luggage were characterized. Further, the occurrence of foodborne zoonotic bacteria such as Salmonella spp., Listeria spp., Campylobacter spp., Yersinia spp., Verocytotoxin-producing Escherichia coli (VTEC) and Brucella spp. and the microbial quality of the foods were analysed by total bacterial count. Between 2012 and 2013, a total of 663 food items were seized from 296 passengers arriving in Germany from 35 different departure countries. The majority of confiscates (51%) originated from Turkey and Russia. A selection of 474 samples was subjected to microbiological analyses. Twenty-three food products tested positive for at least one of the pathogens analysed. The majority of the contaminated foods were meat (33%) or meat products (42%), and milk products (21%). Considering that only a small fraction of arriving passengers is subjected to airport custom controls and only a small number of confiscated foods could be analysed during this study, further investigations are needed to understand the public health risks posed by illegally introduced food items.

Subgrouping of ESBL-producing Escherichia coli from animal and human sources: an approach to quantify the distribution of ESBL types between different reservoirs.

Escherichia (E.) coli producing extended-spectrum beta-lactamases (ESBLs) are an increasing problem for public health. The success of ESBLs may be due to spread of ESBL-producing bacterial clones, transfer of ESBL gene-carrying plasmids or exchange of ESBL encoding genes on mobile elements. This makes it difficult to identify transmission routes and sources for ESBL-producing bacteria. The objectives of this study were to compare the distribution of genotypic and phenotypic properties of E. coli isolates from different animal and human sources collected in studies in the scope of the national research project RESET. ESBL-producing E. coli from two longitudinal and four cross-sectional studies in broiler, swine and cattle farms, a cross-sectional and a case-control study in humans and diagnostic isolates from humans and animals were used. In the RESET consortium, all laboratories followed harmonized methodologies for antimicrobial susceptibility testing, confirmation of the ESBL phenotype, specific PCR assays for the detection of bla(TEM), bla(CTX), and bla(SHV) genes and sequence analysis of the complete ESBL gene as well as a multiplex PCR for the detection of the four major phylogenetic groups of E. coli. Most ESBL genes were found in both, human and non-human populations but quantitative differences for distinct ESBL-types were detectable. The enzymes CTX-M-1 (63.3% of all animal isolates, 29.3% of all human isolates), CTX-M-15 (17.7% vs. 48.0%) and CTX-M-14 (5.3% vs. 8.7%) were the most common ones. More than 70% of the animal isolates and more than 50% of the human isolates contained the broadly distributed ESBL genes bla(CTX-M-1), bla(CTX-M-15), or the combinations bla(SHV-12)+bla(TEM) or bla(CTX-M-1)+bla(TEM). While the majority of animal isolates carried bla(CTX-M-1) (37.5%) or the combination bla(CTX-M-1)+bla(TEM) (25.8%), this was the case for only 16.7% and 12.6%, respectively, of the human isolates. In contrast, 28.2% of the human isolates carried bla(CTX-M-15) compared to 10.8% of the animal isolates. When grouping data by ESBL types and phylogroups bla(CTX-M-1) genes, mostly combined with phylogroup A or B1, were detected frequently in all settings. In contrast, bla(CTX-M-15) genes common in human and animal populations were mainly combined with phylogroup A, but not with the more virulent phylogroup B2 with the exception of companion animals, where a few isolates were detectable. When E. coli subtype definition included ESBL types, phylogenetic grouping and antimicrobial susceptibility data, the proportion of isolates allocated to common clusters was markedly reduced. Nevertheless, relevant proportions of same subtypes were detected in isolates from the human and livestock and companion animal populations included in this study, suggesting exchange of bacteria or bacterial genes between these populations or a common reservoir. In addition, these results clearly showed that there is some similarity between ESBL genes, and bacterial properties in isolates from the different populations. Finally, our current approach provides good insight into common and population-specific clusters, which can be used as a basis for the selection of ESBL-producing isolates from interesting clusters for further detailed characterizations, e.g. by whole genome sequencing.

blaCTX-M-15-carrying Escherichia coli and Salmonella isolates from livestock and food in Germany.

OBJECTIVES: The characterization of CTX-M-15 ß-lactamase-producing Escherichia coli and Salmonella isolates originating mainly from German livestock and food. METHODS: E. coli (526, mainly commensals) and Salmonella (151) non-human isolates resistant to third-generation cephalosporins, originating from routine and monitoring submissions (2003-12) to the Federal Institute for Risk Assessment and different national targeted studies (2011-12), were examined for the presence of blaCTX-M-15 genes by PCR amplification/sequencing. Additional resistance and virulence genes were screened by DNA microarray and PCR amplification. E. coli isolates with blaCTX-M-15 were characterized by phylogenetic grouping, PFGE and multilocus sequence typing (MLST). The blaCTX-M-15 plasmids were analysed by replicon typing, plasmid MLST, S1 nuclease PFGE and Southern blot hybridization experiments. RESULTS: Twenty-one E. coli (livestock, food and a toy; 4.0%) and two Salmonella (horse and swine; 1.3%) isolates were CTX-M-15 producers. E. coli isolates were mainly ascribed to three clonal lineages of sequence types ST678 (German outbreak with enteroaggregative Shiga-toxin-producing E. coli O104:H4; salmon, cucumber and a toy), ST410 (poultry, swine and cattle farms) and ST167/617 (swine farms and turkey meat). The blaCTX-M-15 genes were located on IncI1 and multireplicon IncF plasmids or on the chromosome of E. coli ST410 isolates. CONCLUSIONS: The prevalence of CTX-M-15-producing isolates from non-human sources in Germany is still low. The blaCTX-M-15 gene is, however, present in multidrug-resistant E. coli clones with pathogenic potential in livestock and food. The maintenance of the blaCTX-M-15 gene due to chromosomal carriage is noteworthy. The possibility of an exchange of CTX-M-15-producing isolates or plasmids between livestock and humans (in both directions) deserves continuous surveillance.

Diversity of plasmids encoding virulence and resistance functions in Salmonella enterica subsp. enterica serovar Typhimurium monophasic variant 4,[5],12:i:- strains circulating in Europe.

Plasmids encoding resistance and virulence properties in multidrug resistant (MDR) Salmonella enterica (S.) serovar Typhimurium monophasic variant 4,[5],12:i:- isolates recovered from pigs and humans (2006-2008) in Europe were characterised. The isolates were selected based on the detection by PCR-amplification of S. Typhimurium virulence plasmid pSLT genes and were analysed by multi-locus sequence typing (MLST). The resistance genes present in the isolates and the association of these genes with integrons, transposons and insertion sequences were characterised by PCR-sequencing, and their plasmid location was determined by alkaline lysis and by S1-nuclease pulsed-field gel electrophoresis (PFGE) Southern-blot hybridisation. Plasmids were further analysed by replicon typing, plasmid MLST and conjugation experiments. The 10 S. 4,[5],12,i:- selected isolates belonged to ST19. Each isolate carried a large plasmid in which MDR with pSLT-associated virulence genes were located. After analysis, eight different plasmids of three incompatibility groups (IncA/C, IncR and IncF) were detected. Two IncA/C plasmids represented novel variants within the plasmid family of the S. 4,[5],12:i:- Spanish clone, and carried an empty class 1 integron with a conventional qacEΔ1-sul1 3' conserved segment or an In-sul3 type III with estX-psp-aadA2-cmlA1-aadA1-qacH variable region linked to tnpA440-sul3, part of Tn2, Tn21 and Tn1721 transposons, and ISCR2. Four newly described IncR plasmids contained the resistance genes within In-sul3 type I (dfrA12-orfF-aadA2-cmlA1-aadA1-qacH/tnpA440-sul3) and part of Tn10 [tet(B)]. Two pSLT-derivatives with FIIs-ST1+FIB-ST17 replicons carried cmlA1-[aadA1-aadA2]-sul3-dfrA12 and blaTEM-1 genes linked to an In-sul3 type I integron and to Tn2, respectively. In conclusion, three emerging European clones of S. 4,[5],12:i:- harboured MDR plasmids encoding additional virulence functions that could contribute significantly to their evolutionary success.

An emerging public health problem: acquired carbapenemase-producing microorganisms are present in food-producing animals, their environment, companion animals and wild birds.

Worldwide, the emergence and global spread of microorganisms with acquired carbapenemases is of great concern. The reservoirs for such organisms are increasing, not only in hospitals, but also in the community and environment. A new and important development is the presence of such organisms in livestock, companion animals and wildlife. During the last three years, carbapenemase-producing Escherichia coli, Salmonella spp. (VIM-1 producers) and Acinetobacter spp. (producing OXA-23 and NDM-1) in livestock animals (poultry, cattle and swine) and their environment have been reported. In addition, the isolation of NDM-1-producing E. coli, OXA-48 in E. coli and Klebsiella pneumoniae or OXA-23 in Acinetobacter spp. from companion animals (cats, dogs or horses) has also been observed. Other reports have described the presence of NDM-1-producing Salmonella isolated from wild birds, as well as OXA-23-like-producing Acinetobacter baumannii in ectoparasites. However, until now carbapenemase producers from foods have not been detected. For humans in contrast carbapenem-producing Salmonella isolates are increasingly reported. The real prevalence of carbapenemase-encoding genes in zoonotic bacteria or commensals from animals is unknown. Consequently, there is a need for intensified surveillance on the occurrence of carbapenemase-producing bacteria in the food chain and other animal sources in order to assist in the formulation of measures to prevent their potential spread.

Molecular epidemiology of Salmonella enterica serovar Kottbus isolated in Germany from humans, food and animals.

Salmonella enterica serovar Kottbus has been continuously isolated from poultry and poultry meat, especially from turkey. We investigated by comparative molecular typing 95 S. Kottbus isolates obtained in Germany between 2000 and 2011 from poultry/poultry meat, pig/pork, cattle, reptiles, the environment as well as from human cases to identify potential infection sources for humans, especially the role of poultry and poultry products as vehicle in transmission of S. Kottbus isolates to humans. Multilocus sequence typing analysis detected three main genetic lineages. Most human isolates belonged to lineage 1 represented by sequence types ST212 and ST808. Part of the isolates isolated from cattle and pork were also linked to this lineage. Nevertheless, human isolates and especially isolates from poultry/poultry meat, and with less extend from other livestock, grouped in lineage 2 represented by ST582. Four additional isolates from reptiles and humans belonging to ST1669 represented the third lineage. The three lineages were also reflected by pulsed-field gel electrophoresis typing data and DNA microarray analysis of 102 pathogenicity genes. Antimicrobial resistance especially to nalidixic acid and ciprofloxacin was predominantly observed in isolates assigned to lineage 2, which contains predominantly resistant isolates compared to lineage 1 and 3. Sequencing of the quinolone resistance-determining region of gyrA revealed a point mutation in codon 83 or 87 responsible for nalidixic acid resistance and MIC values for ciprofloxacin between 0.125 and 0.25mg/l. Overall, this study showed that in Germany a specific S. Kottbus lineage (ST582), which is well-established in poultry, can be transmitted to humans by poultry meat and, consequently, poses a risk for human health.

[Increase in antimicrobial resistance of Salmonella from food to fluoroquinolones and cephalosporins--a review of data from ten years]. / Anstieg der Resistenz von Salmonellen aus Lebensmitteln gegenüber Fluorchinolonen und Cephalosporinen--eine Ubersicht uber zehn Jahre.

Animal derived food is a relevant source of human infections with Salmonella enterica. In this paper we analyse the presence of Salmonella in meat with respect to the observed serovars and their resistance to the fluoroquinolone ciprofloxacin and 3rd generation cephalosporins in the years 2003 to 2012. Data originated from 8176 isolates that were isolated from meat, characterized in the National Reference Laboratory for Salmonella and tested for antimicrobial resistance in the National Reference Laboratory for antimicrobial resistance in this time period. The analysis reveals substantial differences in resistance patterns between isolates from different types of meat and different serovars. Frequent serovars were mostly associated with one type of meat, suggesting an additional influence of specific characteristics of the serovars besides the effect of selection pressure excerted by antimicrobial treatments. Results show a clear increase in resistance to fluoroquinolones and 3rd generation cephalosporins that was most prominent in isolates from poultry meat. Although the number of human infections with Salmonella in Germany decreased sharply in recent years, results indicate a substantial exposure of consumers to Salmonella that are resistant to important antimicrobials via meat.

Comparative analysis of ESBL-positive Escherichia coli isolates from animals and humans from the UK, The Netherlands and Germany.

The putative virulence and antimicrobial resistance gene contents of extended spectrum ß-lactamase (ESBL)-positive E. coli (n=629) isolated between 2005 and 2009 from humans, animals and animal food products in Germany, The Netherlands and the UK were compared using a microarray approach to test the suitability of this approach with regard to determining their similarities. A selection of isolates (n=313) were also analysed by multilocus sequence typing (MLST). Isolates harbouring bla(CTX-M-group-1) dominated (66%, n=418) and originated from both animals and cases of human infections in all three countries; 23% (n=144) of all isolates contained both bla(CTX-M-group-1) and bla(OXA-1-like) genes, predominantly from humans (n=127) and UK cattle (n=15). The antimicrobial resistance and virulence gene profiles of this collection of isolates were highly diverse. A substantial number of human isolates (32%, n=87) did not share more than 40% similarity (based on the Jaccard coefficient) with animal isolates. A further 43% of human isolates from the three countries (n=117) were at least 40% similar to each other and to five isolates from UK cattle and one each from Dutch chicken meat and a German dog; the members of this group usually harboured genes such as mph(A), mrx, aac(6')-Ib, catB3, bla(OXA-1-like) and bla(CTX-M-group-1). forty-four per cent of the MLST-typed isolates in this group belonged to ST131 (n=18) and 22% to ST405 (n=9), all from humans. Among animal isolates subjected to MLST (n=258), only 1.2% (n=3) were more than 70% similar to human isolates in gene profiles and shared the same MLST clonal complex with the corresponding human isolates. The results suggest that minimising human-to-human transmission is essential to control the spread of ESBL-positive E. coli in humans.

Salmonella enterica serovar Typhimurium virulence-resistance plasmids derived from the pSLT carrying nonconventional class 1 integrons with dfrA12 gene in their variable region and sul3 in the 3' conserved segment.

Drug-resistant derivatives of serovar-specific virulence plasmids, such as pSLT, in clinically-relevant Salmonella enterica serovar Typhimurium strains, represent a threat for human health. We have analysed 14 S. Typhimurium isolates recovered in Italy and the United Kingdom from swine and from cases of human infection for the presence of virulence-resistance (VR) plasmids. They were negative for the multidrug resistance (MDR) region of the Salmonella genomic island 1 (SGI1), but expressed resistance to ampicillin, chloramphenicol, streptomycin/spectinomycin, sulfamethoxazole, and tetracyclines. The isolates were characterised by XbaI pulsed-field gel electrophoresis, multilocus sequence typing, and detection of resistance and virulence determinants (PCR/sequencing). Identification of VR plasmids was accomplished by PCR detection of bla genes (encoding ampicillin resistance), class 1 integrons and the pSLT virulence gene spvC. Plasmid analyses were performed by alkaline lysis, S1-nuclease digestion, replicon typing, conjugation, restriction analyses, and Southern blot/hybridization. Two blaOXA-1 positive isolates contained pSLT-derived plasmids related to pUO-StVR2. In nine isolates, eight from swine and one from a patient, MDR-conferring-IncFII-VR plasmids were detected. They contained the blaTEM-1 gene as well as a nonconventional class 1 integron with dfrA12-aadA2 gene cassettes in its variable region, and a sul3 gene in the 3' conserved segment. Restriction analysis suggested a novel pSLT variant. The results obtained underline the role of swine as a potential reservoir for the blaTEM-1-IncFII-plasmids. The occurrence and spread of virulence- and MDR-conferring plasmids should be considered as a potential public health problem.

Population structure of Salmonella enterica serovar 4,[5],12:b:- strains and likely sources of human infection.

Salmonella enterica serovar 4,[5],12:b:- is a monophasic serovar not able to express the second-phase flagellar antigen (H2 antigen). In Germany, the serovar is occasionally isolated from poultry, reptiles, fish, food, and humans. In this study, a selection of 67 epidemiologically unrelated Salmonella enterica serovar 4,[5],12:b:- strains isolated in Germany between 2000 and 2011 from the environment, animal, food, and humans was investigated by phenotypic and genotypic methods to better understand the population structure and to identify potential sources of human infections. Strains of this monophasic serovar were highly diverse. Within the 67 strains analyzed, we identified 52 different pulsed-field gel electrophoresis XbaI profiles, 12 different multilocus sequence types (STs), and 18 different pathogenicity array types. The relatedness of strains based on the pathogenicity gene repertoire (102 markers tested) was in good agreement with grouping by MLST. S. enterica serovar 4,[5],12:b:- is distributed across multiple unrelated eBurst groups and consequently is highly polyphyletic. Two sequence types (ST88 and ST127) were linked to S. enterica serovar Paratyphi B (d-tartrate positive), two single-locus variants of ST1583 were linked to S. enterica serovar Abony, and one sequence type (ST1484) was associated with S. enterica serovar Mygdal, a recently defined, new serovar. From the characterization of clinical isolates and those of nonhuman origin, it can be concluded that the potential sources of sporadic human infections with S. enterica serovar 4,[5],12:b:- most likely are mushrooms, shellfish/fish, and poultry.

Characterisation of plasmids implicated in the mobilisation of extended-spectrum and AmpC ß-lactamase genes in clinical Salmonella enterica isolates and temporal stability of the resistance genotype.

Plasmids implicated in the mobilisation of ß-lactamase genes in extended-spectrum ß-lactamase (ESBL)- and AmpC-producing Salmonella enterica isolates recovered from three Spanish hospitals were characterised. The temporal stability of these plasmids and of the resistance phenotype without antimicrobial pressure was also assessed in the laboratory setting. The resistance determinants and their genetic environments were characterised by PCR sequencing, and their genomic location was analysed by S1 nuclease pulsed-field gel electrophoresis (PFGE) and I-CeuI PFGE, followed by Southern blot hybridisation. The 11 S. enterica studied strains carried blaCTX-M-9 (serovar Virchow, 2 isolates), blaCTX-M-10 (Virchow, 2), blaCTX-M-14 (Enteritidis, 1), blaCTX-M-15 (Gnesta and S. enterica group C, 2), blaSHV-2 (Livingstone, 1), blaSHV-12 (Enteritidis, 1) and blaCMY-2 (Bredeney, 2). The ISEcp1-blaCTX-M-14-IS903 and ISEcp1-blaCTX-M-15-orf477 genetic structures were detected. IncI1 and IncA/C plasmids carried blaCTX-M-14, blaCTX-M-15, blaSHV-2, blaSHV-12 and blaCMY-2 genes. blaCTX-M-9 included in an In60 complex integron and blaCTX-M-10 linked to a phage-related element were found in non-typeable plasmids. Conjugation and temporal stability experiments were performed in vitro through daily passages (100 days) in the absence of antimicrobial pressure. In the stability experiments, 5 of the 11 tested isolates lost the ESBL or AmpC plasmidic genes and this was associated with concomitant loss of the whole or partial plasmid. In conclusion, successful plasmids belonging to different Inc groups mobilise ESBL- and AmpC-encoding genes in S. enterica. Loss of ESBL/AmpC genes in the absence of antimicrobial pressure might explain the low prevalence of these ß-lactamases among Salmonella isolates.

pMdT1, a small ColE1-like plasmid mobilizing a new variant of the aac(6')-Ib-cr gene in Salmonella enterica serovar Typhimurium.

OBJECTIVES: To characterize a 5.9 kb aac(6')-Ib-cr-harbouring plasmid that was detected in a clinical Salmonella Typhimurium DT104B strain. METHODS: Extraction and purification of plasmid DNA and electrotransformation assays were carried out in order to obtain kanamycin-resistant transformants. MICs of several fluoroquinolones and aminoglycosides were determined. DNA sequencing was performed by primer walking on purified plasmid preparations. The new plasmid nucleotide sequence was analysed and compared with available sequences using bioinformatic tools. RESULTS: pMdT1 is a 5.9 kb mobilizable ColE1-like plasmid that harbours aac(6')-Ib-cr4, a gene encoding a new variant of the AAC(6')-Ib-cr protein (225 amino acids). This active protein conferred resistance to tobramycin and kanamycin, and also decreased susceptibility to ciprofloxacin and norfloxacin in the transformant strain, as MICs demonstrated. The mobilization region, necessary for horizontal transfer and composed of the mobA, mobB, mobC and mobD genes, displayed a high degree of identity with those from representative ColE1-like plasmids. The basis of mobility (bom), oriT and origin of replication regions were also detected. Apart from the acetylase-encoding gene, three other open reading frames (ORFs) were determined. No similarities were found when the ORF1 sequence was compared with the sequences included in GenBank. The deduced ORF2 protein predicted a CopG-like structure characteristic of transcriptional regulators, and the deduced ORF3 protein was identical to macrophage stimulating factors. CONCLUSIONS: The pMdT1 is the smallest mobilizable ColE1-like plasmid containing an aac(6')-Ib-cr gene that has been described so far.

Human infections attributable to the D-tartrate-fermenting variant of Salmonella enterica serovar Paratyphi B in Germany originate in reptiles and, on rare occasions, poultry.

In this study, the population structure, incidence, and potential sources of human infection caused by the d-tartrate-fermenting variant of Salmonella enterica serovar Paratyphi B [S. Paratyphi B (dT+)] was investigated. In Germany, the serovar is frequently isolated from broilers. Therefore, a selection of 108 epidemiologically unrelated S. enterica serovar Paratyphi B (dT+) strains isolated in Germany between 2002 and 2010 especially from humans, poultry/poultry meat, and reptiles was investigated by phenotypic and genotypic methods. Strains isolated from poultry and products thereof were strongly associated with multilocus sequence type ST28 and showed antimicrobial multiresistance profiles. Pulsed-field gel electrophoresis XbaI profiles were highly homogeneous, with only a few minor XbaI profile variants. All strains isolated from reptiles, except one, were strongly associated with ST88, another distantly related type. Most of the strains were susceptible to antimicrobial agents, and XbaI profiles were heterogeneous. Strains isolated from humans yielded seven sequence types (STs) clustering in three distantly related lineages. The first lineage, comprising five STs, represented mainly strains belonging to ST43 and ST149. The other two lineages were represented only by one ST each, ST28 and ST88. The relatedness of strains based on the pathogenicity gene repertoire (102 markers tested) was mostly in agreement with the multilocus sequence type. Because ST28 was frequently isolated from poultry but rarely in humans over the 9-year period investigated, overall, this study indicates that in Germany S. enterica serovar Paratyphi B (dT+) poses a health risk preferentially by contact with reptiles and, to a less extent, by exposure to poultry or poultry meat.

[Highly ciprofloxacin resistant Salmonella enterica serovar Kentucky isolates in turkey meat and a human patient]. / Hoch Ciprofloxacin resistente Salmonella enterico Serovar Kentucky-isolate aus Putenfleisch und einem humanen Patienten.

In recent years in France, England, Wales, Denmark and the USA about 500 human infections occurred, which were caused by multidrug-resistant Salmonella enterica Serovar (S.) Kentucky isolates displaying high-level resistance to fluoroquinolones (ciprofloxacin, MIC > or = 4 mg/l). The responsible clone was referred to as ST198-X1.To determine whether this clone is also present in German S. Kentucky isolates, the National Reference Laboratory for Salmonella (NRL-Salm) at the BfR analyzed the trend of S. Kentucky isolates received over the past years. Since 2010 the first entries of highly ciprofloxacin resistant S. Kentucky isolates, especially from turkey meat products, were recorded. 15 isolates originating from animal or food as well as one human isolate displayed MIC values of > or = 8 mg/l to ciprofloxacin. Molecular biological typing methods showed the in Germany isolated S. Kentucky isolates to be identical to the clone described by Le Hello et al. (2011) and to carry a multidrug resistance conferring region (SGI1). Since fluoroquinolones are considered by the WHO in human and veterinary medicine as drugs of critical importance, this trend demands attention. The implementation of mitigation strategies for this highly resistant clone seems to be required.