Analysis of the tellurite resistance determinant on the pNT3B derivative of the pTE53 plasmid from uropathogenic Escherichia coli

We have found and sequenced a significant part of the previously described tellurite resistance determinant on mini-Mu derivative pPR46, named pNT3B, originally cloned from a large conjugative plasmid pTE53, found in Escherichia coli. This plasmid contains genes essential for tellurite resistance, together with the protective region bearing genes terX, Y, W, and the conserved spacing region bearing several ORFs of unknown function. Computer analysis of obtained sequence revealed a close similarity to the formerly described ter operons found on the Serratia marcescens plasmid R478 and the chromosome of Escherichia coli O157:H7. This finding confirms the presence of a whole region on the large conjugative plasmid that pTE53 originated from a uropathogenic E. coli strain, and suggests its possible role in horizontal gene transfer, resulting in the development of new pathogenic E. coli strains.     

Prevalence and diversity of class 1 integrons and resistance genes in antimicrobial-resistant Escherichia coli originating from beef cattle administered subtherapeutic antimicrobials

Aims: To characterize class 1 integrons and resistance genes in tetracycline‐resistant Escherichia coli originating from beef cattle subtherapeutically administered chlortetracycline (A44), chlortetracycline and sulfamethazine (AS700), or no antimicrobials (control). Methods and Results: Tetracycline‐resistant E. coli (control, n = 111; AS700, n = 53; A44, n = 40) were studied. Class 1 integrons, inserted gene cassettes and the presence of other antimicrobial resistance genes, as well as phylogenetic analysis, were performed by PCR, restriction enzyme analysis and sequencing. Susceptibilities to 11 antimicrobials were conducted on all isolates. Prevalence of class 1 integrase was higher (P < 0·001) in isolates from AS700 (33%) and A44 (28%) steers as compared to control (7%). Most integron gene cassettes belonged to the aad or dfr families. Correlations were found between the tet(A) gene and the genetic elements sul1 (r = 0·44), aadA1 (r = 0·61), cat (r = 0·58) and intI1(r = 0·37). Both closely and distantly related isolates harboured integrons with identical gene cassette arrays. Conclusions: Subtherapeutic administration of chlorotetracycline alone or in combination with sulfamethazine may select for class 1 integrons in bovine tetracycline‐resistant E. coli isolates. Vertical spread and horizontal transfer are responsible for the dissemination of a particular type of class 1 integron, but this study could not differentiate if this phenomenon occurred within or outside of the feedlot. Tetracycline‐resistant E. coli strains with sul1 and tet(A) genes were more likely to harbour class 1 integrons. Significance and Impact of the Study: Subtherapeutic use of chlortetracycline and sulfamethazine may promote the presence of class 1 integrons in tetracycline‐resistant E. coli isolated from feedlot cattle.     

一株污水源多重耐药大肠杆菌的耐药性检测及全基因组测序分析

【背景】水体环境分布广、流动性强,是耐药菌和耐药基因传播的主要媒介。【目的】了解北方污水厂大肠杆菌携带的耐药基因及可移动遗传元件情况。【方法】从北方污水厂筛选出一株多重耐药大肠杆菌,通过药敏试验进行耐药性检验,采用96孔板法测定菌株的最小抑菌浓度,利用酶标仪探究亚抑菌浓度抗生素对菌株生长的影响,并对菌株进行全基因组测序,对其携带的耐药基因及可移动遗传元件进行预测。【结果】大肠杆菌WEC对四环素、环丙沙星、诺氟沙星和红霉素具有耐药性,亚抑菌浓度的四环素、环丙沙星和诺氟沙星能够延缓或抑制菌株的生长。WEC菌株的基因组中包含一条大小为4 782 114 bp的环状染色体和2个大小分别为60 306 bp (pWEC-1)和92 065 bp (pWEC-2)的环状质粒。菌株共携带129个耐药基因,其中128个位于染色体上,在染色体上预测到原噬菌体、基因岛及插入序列的存在,部分可移动遗传元件携带有耐药基因。质粒pWEC-1中无耐药基因,pWEC-2含有1个耐药基因,在质粒基因组中预测到原噬菌体和插入序列。【结论】污水源大肠杆菌WEC是一株多重耐药菌株,其基因组中携带耐药基因和多种可移动遗传元件...     

Transfer of ampicillin resistance from Salmonella Typhimurium DT104 to Escherichia coli K12 in food

Aims: To investigate the transfer of antibiotic resistance from a donor Salmonella Typhimurium DT104 strain to a recipient Escherichia coli K12 strain. Methods and Results: Mating experiments were conducted in broth, milk and ground meat (beef) at incubation temperatures of 4, 15, 25 and 37°C for 18 and 36 h. Ampicillin‐resistance transfer was observed at similar frequencies in all transfer media at 25 and 37°C (10^?4 to 10^?5 log₁₀ CFU ml g^?1, transconjugants per recipient) for 18 h. At 15°C, transfer was observed in ground meat in the recipient strain (10^?6, log₁₀ CFU g^?1, transconjugants per recipient), but not in broth or milk. At 4°C, transfer did not occur in any of the examined mediums. Further analysis of the E. coli K12 nal^R transconjugant strain revealed the presence of a newly acquired plasmid (21 kbp) bearing the β‐lactamase gene bla_TEM. Transconjugants isolated on the basis of resistance to ampicillin did not acquire any other resistant markers. Conclusion: This study demonstrates the transfer of antibiotic resistance in food matrices at mid‐range temperatures. Significance and Impact of the Study: It highlights the involvement of food matrices in the dissemination of antibiotic‐resistant genes and the evolution of antibiotic‐resistant bacteria.     

污水厂产超广谱β内酰胺酶大肠杆菌通过接合水平传递耐药性

【目的】研究废水中产超广谱β-内酰胺酶大肠杆菌中可移动质粒在耐药基因水平传播机制中的作用。【方法】对污水厂分离所得的50株产ESBLs大肠杆菌进行接合试验,并对所得的接合子采用纸片扩散法测定其对15种常见药物的耐药表型,针对质粒介导的产ESBLs菌株的耐药基因设计7对特异性引物对接合子进行PCR扩增。【结果】研究结果显示,80份水样分离得50株产ESBLs大肠杆菌,共接合成功35株细菌,接合成功率高达70%。接合子与供体菌相比,均发生耐药谱型的改变,且存在丢失一种或几种药物耐药性且产生另一种或几种药物耐药性的现象。PCR扩增结果显示,接合子与供体菌相比,耐药基因型有所减少或不变,bla_(TEM)、bla_(CTX-M)基因全部接合成功,bla_(SHV)基因仅1株未接合成功,耐氟喹诺酮类基因未发生转移。【结论】本研究表明,不同的耐药基因可能位于不同的可移动质粒上,可移动质粒在大肠杆菌耐药性水平传播的过程中起到了十分重要的作用。     

Multiplex PCR for detection of Escherichia coli O157:H7 in foods

Escherichia coli O157:H7 is well known enterohemorrhagic pathogen responsible for infections among animals including a man. The main source of this bacterium is cattle, that is mostly asymptomatic and through that E. coli O157:H7 can simple transfer to food products. Therefore, there is a need for rapid, sensitive and specific detection method. The present work is focused on its detection by a heptaplex polymerase chain reaction, which targets genes from known virulent regions of E. coli O157:H7. According to obtained results this approach is able to reach the detection sensitivity of 4 colony-forming units (CFU) from a culture and 6 and 8 CFU from milk and meat samples, respectively, independently of tested sample volume.     

The contribution of tellurite resistance genes to the fitness of Escherichia coli uropathogenic strains

The presence of tellurite resistance gene operons has been reported in several human pathogens despite the fact that tellurium, as well as its soluble salts, are both rare in nature and are no longer in use as antimicrobial agents. We have introduced the cloned terWZA-F genes from an uropathogenic Escherichia coli isolate into another clinical E. coli isolate that was shown to be ter-gene free. The presence of the introduced genes increased the level of potassium tellurite resistance, as well as the level of resistance to oxidative stress mediated by hydrogen peroxide; and prolonged the ability of particular strains to survive in macrophages. We therefore propose that the contribution of tellurite resistance genes to oxidative stress resistance in bacteria is at least one reason for their presence in the genomes of a broad range of pathogenic microorganisms.     

Incidence of antimicrobial resistance among Enterobacteriaceae isolated in Riyadh

The antimicrobial resistance of 1,018 isolates of Enterobacteriaceae isolated from fecal specimens of the urban population of Riyadh, Saudi Arabia, was studied. Resistance to 1 or more of 10 antimicrobial agents was encountered in 50.2% of the isolates. Of the isolates tested,Escherichia coli (0.8%) andKlebsiella species (1.6%) were found resistant to seven antimicrobial agents simultaneously: ampicillin, chloramphenicol, kanamycin, colistin, streptomycin, tetracycline, and carbenicillin. Resistance to nalidixic acid was encountered in only 0.68% of theE. coli isolates. No isolate was found to be resistant to gentamicin. Eighty-six of the resistant strains were tested for their ability to transfer their resistance. Forty percent were able to do so withE. coli K-12.     

Investigation of plasmid-mediated resistance in E. coli isolated from healthy and diarrheic sheep and goats

Escherichia coli is zoonotic bacteria and the emergence of antimicrobial-resistant strains becomes a critical issue in both human and animal health globally. This study was therefore aimed to investigate the plasmid-mediated resistance in E. coli strains isolated from healthy and diarrheic sheep and goats. A total of 234 fecal samples were obtained from 157 sheep (99 healthy and 58 diarrheic) and 77 goats (32 healthy and 45 diarrheic) for the isolation and identification of E. coli. Plasmid DNA was extracted using the alkaline lysis method. Phenotypic antibiotic susceptibility profiles were determined against the three classes of antimicrobials, which resistance is mediated by plasmids (Cephalosporins, Fluoroquinolone, and Aminoglycosides) using the disc-diffusion method. The frequency of plasmid-mediated resistance genes was investigated by PCR. A total of 159 E. coli strains harbored plasmids. The isolates antibiogram showed different patterns of resistance in both healthy and diarrheic animals. A total of (82; 51.5%) E. coli strains were multidrug-resistant. rmtB gene was detected in all Aminoglycoside-resistant E. coli, and the ESBL-producing E. coli possessed different CTX-M genes. Similarly, fluoroquinolone-resistant E. coli possessed different qnr genes. On the analysis of the gyrB gene sequence of fluoroquinolone-resistant E. coli, multiple point mutations were revealed. In conclusion, a high prevalence of E. coli with high resistance patterns to antimicrobials was revealed in the current study, in addition to a wide distribution of their resistance determinants. These findings highlight the importance of sheep and goats as reservoirs for the dissemination of MDR E. coli and resistance gene horizontal transfer.     

Repressed multidrug resistance genes in <Emphasis Type="Italic">Streptomyces lividans</Emphasis>

Multidrug resistance (MDR) systems are ubiquitously present in prokaryotes and eukaryotes and defend both types of organisms against toxic compounds in the environment. Four families of MDR systems have been described, each family removing a broad spectrum of compounds by a specific membrane-bound active efflux pump. In the present study, at least four MDR systems were identified genetically in the soil bacterium Streptomyces lividans. The resistance genes of three of these systems were cloned and sequenced. Two of them are accompanied by a repressor gene. These MDR gene sequences are found in most other Streptomyces species investigated. Unlike the constitutively expressed MDR genes in Escherichia coli and other gram-negative bacteria, all of the Streptomyces genes were repressed under laboratory conditions, and resistance arose by mutations in the repressor genes.Abbreviations MDR Multidrug resistance     

Cloning and expression of R-factor mediated arsenate resistance in Escherichia coli

Summary The resistance transfer factor R773 confers inducible arsenate, arsenite and antimony resistance on Escherichia coli. The genes for these resistances were cloned into the EcoRi site of plasmid pBR322 to produce a 33 kilobase plasmid, pUM1. Bacterial strains transformed with pUM1 synthesized a polypeptide of the apparent molecular weight 64,000 daltons when induced with arsenite. This polypeptide could be visualized on sodium dodecyl sulfate polyacrylamide gels stained with Coomassie blue. It was observed both in the membrane and cytosol fractions but not among the periplasmic proteins present in osmotic shock fluid. Minicells isolated from strain JR410(pUM1) incorporated [³⁵S]methionine into an inducible 64,000 dalton polypeptide, as demonstrated on autoradiographs of electrophoresed [³⁵S]-labeled minicell lysates, confirming that this polypeptide is a plasmid gene product. A 4.3 kilobase HindIII fragment of pUM1 was subcloned into the HindIII site of pBR322, producing recombinant plasmid pUM3. This plasmid conferred constitutive resistance to arsenite and arsenate. Extensive synthesis of two polypeptides of 64,000 and 16,000 daltons was observed both in Coomassie stained gels of whole cells and autoradiographs of gels of [³⁵S]methionine-labeled minicells. Synthesis of both polypeptides was constitutive.     

Serotypes,intimin variants and other virulence factors of <Emphasis Type="Italic">eae</Emphasis> positive <Emphasis Type="Italic">Escherichia coli</Emphasis> strains isolated from healthy cattle in Switzerland. Identification of a new intimin variant gene (eae-η2)

Background  

Enteropathogenic Escherichia coli (EPEC) and Shigatoxin-producing Escherichia coli (STEC) share the ability to introduce attaching-and-effacing (A/E) lesions on intestinal cells. The genetic determinants for the production of A/E lesions are located on the locus of enterocyte effacement (LEE), a pathogenicity island that also contains the genes encoding intimin (eae). This study reports information on the occurrence of eae positive E. coli carried by healthy cattle at the point of slaughter, and on serotypes, intimin variants, and further virulence factors of isolated EPEC and STEC strains.     

Antibiotic resistance in commensal intestinal microflora

The susceptibility toward antibiotics was determined by disc and MIC methods in Lactobacillus and, for comparison, in Escherichia coli strains isolated from cloacal swabs of broiler chickens derived from various farms in Slovakia. The occurrence of acquired tetracycline resistance in E. coli and lactobacilli isolated from the same sample was similar. The presence of tet(M), tet(S), tet(L) and ermB genes was demonstrated in lactobacilli while the tet(M) gene was not detected in E. coli.     

Identifying Escherichia coli genes involved in intrinsic multidrug resistance

Multidrug resistance is a major cause of clinical failure in treating bacterial infections. Increasing evidence suggests that bacteria can resist multiple antibiotics through intrinsic mechanisms that rely on gene products such as efflux pumps that expel antibiotics and special membrane proteins that block the penetration of drug molecules. In this study, Escherichia coli was used as a model system to explore the genetic basis of intrinsic multidrug resistance. A random mutant library was constructed in E. coli EC100 using transposon mutagenesis. The library was screened by growth measurement to identify the mutants with enhanced or reduced resistance to chloramphenicol (Cm). Out of the 4,000 mutants screened, six mutants were found to be more sensitive to Cm and seven were more resistant compared to the wild-type EC100. Mutations in 12 out of the 13 mutants were identified by inverse polymerase chain reaction. Mutants of the genes rob, garP, bipA, insK, and yhhX were more sensitive to Cm compared to the wild-type EC100, while the mutation of rhaB, yejM, dsdX, nagA, yccE, atpF, or htrB led to higher resistance. Overexpression of rob was found to increase the resistance of E. coli biofilms to tobramycin (Tob) by 2.7-fold, while overexpression of nagA, rhaB, and yccE significantly enhanced the susceptibility of biofilms by 2.2-, 2.5-, and 2.1-fold respectively.     

Characterization of antimicrobial resistance and seasonal prevalence of Escherichia coli O157:H7 recovered from commercial feedlots in Alberta,Canada

Aims: To characterize antimicrobial resistance (AMR) and determine the seasonal prevalence of Escherichia coli O157:H7 isolated from commercial feedlots. Methods and Results: Escherichia coli O157:H7 were isolated from faecal and oral samples collected at monthly intervals from three commercial feedlots over a 12‐month period. A total of 240 isolates were characterized using pulsed‐field gel electrophoresis (PFGE) technique. A subset of 205 isolates was analysed for AMR using Sensititre system and AMR genes (tet, sul and str) by PCR. Seven PFGE clusters (≥90% Dice similarity) were identified, and two clusters common to all three feedlots were recovered year‐round. The majority of isolates (60%) were susceptible to all antimicrobials and were closely related (P < 0.001), whereas isolates with unique AMR patterns were not related. The prevalences of AMR from feedlots A, B and C were 69%, 1% and 38%, respectively. Resistance to tetracycline (69%) and sulfisoxazole (68%) was more prevalent in feedlot A than other two feedlots. The presence of strA and strB genes was linked in the majority of isolates, and tet(A) and tet(B), and sul1 and sul2 genes were present individually. Escherichia coli O157:H7 were genetically diverse during summer and fall, and strains from winter and spring months were more closely related. Conclusions: Antimicrobial resistance was more common in E. coli O157:H7 obtained from two of the three commercial feedlots, and the phenotypic expression of resistance was correlated with the presence of resistant genes. A highly diverse E. coli O157:H7 population was found during summer and fall seasons. Significance and Impact of the Study: Information would help understanding the dynamics of AMR in E. coli O157:H7 from commercial feedlots.     

通辽地区犊牛腹泻大肠杆菌耐药性检测及一株多重耐药菌全基因组测序分析

【背景】大肠杆菌(Escherichia coli)是引起犊牛腹泻的最主要病原菌,其耐药性菌株的不断出现引起广泛关注。【目的】了解内蒙古自治区通辽市犊牛腹泻大肠杆菌耐药性及耐药基因流行情况。【方法】从通辽市多个旗县采集犊牛腹泻样品40份,经细菌分离纯化及16S rRNA基因测序,最终鉴定出20株大肠杆菌。采用药敏试验和PCR方法对分离菌进行耐药性及耐药基因检测分析,并对其中1株多重耐药菌株进行全基因组测序。【结果】20株分离菌均具有多重耐药性,对链霉素、环丙沙星、恩诺沙星和复方新诺明的耐药率达80%以上。所检耐药基因中,aphA1、strB、TEM-1和qnrS检出率达100%。通过对代表性菌株TL-13全基因组测序发现,其基因组大小为4897185bp,GC含量为50.68%,同时携带2个质粒,大小分别为108288bp(pTL13-1)和64018bp(pTL13-2)。质粒中共携带18个可移动耐药基因。【结论】通辽地区犊牛腹泻大肠杆菌多重耐药性普遍存在,4种常见耐药基因普遍流行。     

The role of thiol redox systems in the resistance of <Emphasis Type="Italic">Escherichia coli</Emphasis> in the stationary phase

The effect of glutathione (gshA), thioredoxin (trxA), and thioredoxin reductase (trxB) mutations on the adaptation of Escherichia coli to prolonged glucose starvation was investigated. The trxB mutation had the worst consequences for the stationary-phase cells. These bacteria exhibited decreased survival, increased sensitivity to oxidants, and decreased expression of the katE and sulA genes. As the stationary phase proceeded, the physiological resistance to antibiotics increased in all the strains tested; however, the thiol redox system mutants were far less able to develop antibiotic resistance than the parent strain cells. During the stationary phase, a considerable shift was observed in the redox status of intra- and extracellular glutathione toward the oxidative values. These results indicate that the thiol redox systems play an important role in the adaptation of Escherichia coli to prolonged starvation and antibiotic resistance.     

Role of constitutive and inducible repair in radiation resistance of <Emphasis Type="Italic">Escherichia coli</Emphasis>

Radiation resistance of Escherichia coli cells depends on how efficiently DNA is recovered after damage, which is determined by the function of constitutive and inducible repair branches. The effects of additional mutations of the key genes of constitutive and inducible repair (recA, lexA, recB, polA, lig, gyr, recF, recO, recR, recJ, recQ, uvrD, helD, recN, and ruv) on radiation resistance were studied in E. coli K-12 strain AB1157 and highly radiation-resistant isogenic strain Gam^r444. An optimal balance ensuring a high γ resistance of the Gam^r444 radiation-resistant E. coli mutant was due to expression of the key SOS repair genes (recA, lexA, recN, and ruv) and activation of the presynaptic functions of the RecF homologous recombination pathway as a result of a possible mutation of the uvrD gene, which codes for repair helicase II.     

Antimicrobial resistance in faecal enterococci and Escherichia coli isolates recovered from Iberian wolf

The aim of this study was to report the antimicrobial resistance, the molecular mechanisms associated and the detection of virulence determinants within faecal Enterococcus spp. and Escherichia coli isolates of Iberian wolf. Enterococci (n = 227) and E. coli (n = 195) isolates were obtained from faecal samples of Iberian wolf (Canis lupus signatus). High rates of resistance were detected for tetracycline and erythromycin among the enterococci isolates, and most of resistant isolates harboured the tet(M) and/or tet(L) and erm(B) genes, respectively. The bla_TEM, tet(A) and/or tet(B), and aadA or strA‐strB genes were detected among most ampicillin‐, tetracycline‐ or streptomycin‐resistant E. coli isolates, respectively. E. coli isolates were ascribed to phylogroups A (n = 56), B1 (91), B2 (13) and D (35). The occurrence of resistant enterococci and E. coli isolates in the faecal flora of Iberian wolf, including the presence of resistant genes in integrons, and virulence determinants was showed in this study. Iberian wolf might act as reservoir of certain resistance genes that could be spread throughout the environment.

Significance and Impact of the Study

This study shows antimicrobial resistance in commensal bacteria from the free‐range, Portuguese, Iberian wolf population. The results indicate that the Iberian wolf could contribute to the spread of resistant bacteria throughout the environment. Additionally, in case of infection, an increased risk of therapeutic failure due to the presence of multiresistant bacteria may represent a health problem for this endangered species. Future studies must be performed to analyse the possible contamination of these animals through the environment and/or the food chain.