Cytotoxicity Potential and Genotypic Characterization of Escherichia coli Isolates from Environmental and Food Sources

The presence of Escherichia coli isolates in the environment is a potential source of contamination of food and water supplies. Moreover, these isolates may harbor virulence genes that can be a source of new forms of pathogenic strains. Here, using multiplex PCR, we examined the presence of virulence gene markers (stx₁, stx₂, eaeA, hlyA) in 1,698 environmental isolates of E. coli and 81 isolates from food and clinical sources. The PCR analysis showed that ~5% (79 of 1,698) of the total environmental isolates and 96% (79 of 81) of the food and clinical isolates were positive for at least one of the genes. Of the food and clinical isolates, 84% (68 of 81 isolates) were positive for all four genes. Of the subset of environmental isolates chosen for further analysis, 16% (13 of 79 isolates) were positive for stx₂ and 84% (66 of 79 isolates) were positive for eaeA; 16 of the latter strains were also positive for hlyA. The pathogenic potentials of 174 isolates (81 isolates from food and clinical sources and 93 isolates from environmental sources) were tested by using a cytotoxicity assay based on lactate dehydrogenase release from Vero cells. In general, 97% (79 of 81) of the food and clinical isolates and 41% (39 of 93) of the environmental isolates exhibited positive cytotoxicity. High cytotoxicity values correlated to the presence of stx genes. The majority of hly-positive but stx-negative environmental isolates also exhibited a certain degree of cytotoxicity. Isolates were also tested for sorbitol utilization and were genotyped by ribotyping and by repetitive extragenic palindromic PCR (REP-PCR) as potential means of quickly identifying virulent strains from the environment, but none of these methods could be used to distinguish cytotoxic environmental isolates. Only 31% of the isolates were negative for sorbitol fermentation, and none of the isolates had common ribotypes or REP-PCR fingerprints. This study suggests that overall higher cytotoxicity values correlated with the production of stx genes, and the majority of hly-positive but stx-negative environmental isolates also exhibited a certain degree of cytotoxicity. This study demonstrated that there is widespread distribution of potentially virulent E. coli strains in the environment that may be a cause of concern for human health.     

Investigation of shiga toxin-producing Escherichia coli in avian species in India

AIMS: To investigate the presence or absence of shiga toxin-producing Escherichia coli (STEC) in avian species in India. METHODS AND RESULTS: Faecal samples originating from 500 chicken and 25 free flying pigeons were screened for the presence of E. coli. A total of 426 (chicken, 401; pigeons, 25) E. coli strains were isolated. Of 426 E. coli strains, 387 were grouped into 77 serogroups, while 70 and 59 strains were untypable and rough, respectively. All isolates were subjected to multiplex polymerase chain reaction (m-PCR) for the detection of stx(1), stx(2), eaeA, hlyA and saa genes. None of the E. coli strains studied showed the presence of stx(1), stx(2) or their variants and saa genes. Overall 11 (2.74%) and seven (1.74%) strains from chickens possessed eaeA and hlyA genes, respectively, while as only six (1.49%) strains from chickens possessed both eaeA and hlyA genes. O9, O8, O60 and O25 serogroups were most predominant of which there were 24 (5.63%), 23 (5.39%), 23 (5.39%) and 20 (4.69%) strains, respectively. None of the isolates from pigeons showed the presence of any of the virulence genes studied. CONCLUSIONS: STEC are absent in chickens and pigeons. However, further studies are required in this direction to confirm or contradict our findings. E. coli strains originating from birds are carrying a low percentage eaeA or hlyA genes. SIGNIFICANCE AND IMPACT OF THE STUDY: The present study is the first attempt to investigate STEC in chickens and free flying pigeons in India. The chickens and pigeons cannot be considered as important carrier of STEC in India.     

产志贺毒素大肠埃希菌的分子生物学鉴定和耐药性分析

为了解产志贺毒素大肠埃希菌 (Shigatoxin producingEscherichiacoli ,STEC)stx1,stx2 ,eaeA ,hlyA 4种毒力基因的分布情况 ,以及分离株对 18种抗生素的敏感性 ,采用多重PCR(multiplexPCR ,mPCR)法对分离株进行毒力基因的分子生物学鉴定 ;用WHO推荐的K B法对分离株进行抗生素的敏感性测定。产志贺毒素的大肠埃希菌共有 4 6株 ,其中 2种毒素均产生的有 2 2株 (4 7.8% ) ;单纯产生stx1的有 16株 (36 .9% ) ,stx2 的有 8株 (17.4 % ) ;4种毒力基因均存在的有 19株 (4 1.3% ) ,血清型为O15 7∶H7,而非O15 7∶H7血清型的菌株 (2 3/46 )中 ,4种毒力基因同时存在的仅有 3株 (6 .6 % ) ,但有 13株 (5 6 .9% )hlyA基因阳性。全部STEC对复方新诺明耐药 ,对链霉素耐药率为 2 8.3% ,氨苄西林为 30 .4 % ,红霉素为 6 9.6 % ,而且有 5株对至少 4种以上抗生素多重耐药 ,耐药谱为复方新诺明 链霉素 红霉素 氨苄西林。非O15 7型STEC耐药菌次为 12 2 ,而O15 7型为 6 3。可见 ,mPCR法可以快速检测STEC特征性毒力基因 ,以判定其致病性能。非O15 7型STEC对抗生素较易形成耐药性。     

Investigation of diarrhoeic faecal samples for enterotoxigenic, Shiga toxin-producing and typical or atypical enteropathogenic Escherichia coli in Kashmir, India

Three hundred and twenty-six Escherichia coli isolates recovered from 326 human faecal specimens from sporadic cases of diarrhoea in Kashmir valley, India, were investigated for the presence of stx(1), stx(2), eaeA, hlyA and lt virulence genes. None of the samples was positive for stx genes or Shiga toxins by PCR or enzyme-linked immunosorbent assay. Twenty-three E. coli isolates showed the presence of the eaeA gene, whereas three isolates harboured the lt gene. Enteropathogenic E. coli (EPEC) belonged to 10 different serogroups. Out of 23 EPEC isolates, the majority (78.26%) were atypical while five (21.73%) were typical. Only one of the typical EPEC harboured the EAF plasmid. Subtyping of the eaeA gene showed the presence of eaeA-alpha(1), eaeA-beta, eaeA-xi and eaeA-eta in one, two, four and two isolates, respectively. None of the E. coli isolates possessed eaeA-delta, eaeA-epsilon and eaeA-zeta. This study further upholds the opinion that Shiga toxin-producing E. coli do not pose a major threat to human health in India and eaeA-alpha(1), eaeA-beta, eaeA-xi and eaeA-eta could be common EPEC subtypes prevalent in humans with diarrhoea in India. The present study appears to be the first report of subtype analysis of the eaeA gene from India and also records the isolation of EPEC with the eaeA-xi gene from humans.     

Shiga-toxin-producing Escherichia coli in faeces of healthy dairy cows, sheep and goats: prevalence and virulence properties

The prevalence of Shiga-toxin-producing Escherichia coli (STEC) in healthy dairy ruminants was investigated between 1996 and 1998 by a multiplex polymerase chain reaction (mPCR) technique. A total of 13 552 E. coli colonies from 726 cows, 28 sheep and 93 goats out of 112 randomly selected dairy farms in Hessia, Germany were analysed. STEC strains were recovered from 131 (18.0%) cows, nine (32.1%) sheep and 70 (75.3%) goats. Further characterization of the STEC isolates showed that 89 (0.66% of the investigated colonies) of animal field strains carried stx1 gene, 64 (0.47%) stx2 gene and 57 (0.42%) stx1 and stx2 gene. Sixty (93.8%) out of 64 stx2 field strains were harboured by cows. In contrast, 74 (83.1%) out of 89 stx1 dairy animal field strains were from ovine or caprine origin. Only 17 (8. 1%) stx-positive isolates (13 from cattle, three from sheep and only one from goat) were positive for eaeA gene. Eight (9.0%) of the stx1, five (7.8%) of the stx2 and four (7.0%) of the stx1/stx2 gene-positive field strains carried the eaeA gene. The prevalence of EHEC-haemolysin (EHEC-hlyA) gene sequence was 88.8% (79 isolates) of the stx1 and 68.8% (44 isolates) of the stx2 isolates. Out of 57 stx1- and stx2-positive field-strains, 34 (59.6%) carried the EHEC-hlyA gene. E. coli O serovars O:157 and O:111 were not found. Only one isolate was positive with O26 antiserum.     

Shiga toxin-producing Escherichia coli and enteropathogenic Escherichia coli in healthy goats in India: occurrence and virulence properties

AIMS: To describe the occurrence and virulence gene pattern of shiga toxin-producing Escherichia coli (STEC) and enteropathogenic E. coli (EPEC) in healthy goats of Jammu and Kashmir, India. METHODS AND RESULTS: A total of 220 E. coli strains belonging to 60 different 'O' serogroups was isolated from 206 local (nonmigratory) and 69 migratory goats. All the 220 strains were screened for the presence of stx(1), stx(2), eaeA and hlyA genes. Twenty-eight E. coli (75.6%) strains from local and nine (24.3%) strains from migratory goats belonging to 18 different serogroups showed at least presence of one virulence gene studied. Twenty-eight strains (16.47%) (belonging to 13 different serogroups) from local goats carried stx(1) gene alone or in combination with stx(2) gene, while as only one strain (2%) from migratory goats possessed stx(2) gene alone. Interestingly in the present study none of the STEC strains carried eaeA gene. Similarly, none of the strains from local goats possessed eaeA and none of the migratory goats possessed stx(1) gene. Eight strains (16%) (belonging to four different serogroups) from migratory goats carried eaeA gene. Twenty-five (14.7%) and seven (14%) strains from local and migratory goats harboured hlyA gene respectively. CONCLUSIONS: Healthy goats of Jammu and Kashmir state serve as a reservoir of STEC and EPEC. Further studies in this direction are needed to work out whether or not they are transmitted to humans in this part of world. SIGNIFICANCE AND IMPACT OF THE STUDY: This study is the first report of isolation of STEC and EPEC strains from healthy goats in Jammu and Kashmir State of India, which could be a source of infection to humans.     

江苏某地健康绵羊群产志贺毒素大肠杆菌体内分离株的分子流行病学及致病力

【目的】探讨江苏某羊场健康绵羊体内产志贺毒素大肠杆菌的带菌和流行情况,同时就分离株的致病力和对Vero细胞的毒性作用作了研究。【方法】基于本实验室已经建立的EHEC O157:H7 EDL933W株的stx1、stx2、eaeA、hlyA四个基因的多重PCR检测并配合选择性增菌、平板筛选等方法对STEC进行分离鉴定。【结果】在为期6个月的连续跟踪调查中,共分离到STEC菌株107株,分离率为19.4%(107/550)。分离株属于41种O血清型、62种O:H血清型,未定型(ONT)有22株,粗糙型(OR)1株。其中属于绵羊STEC的优势血清型有O5(2株)、O91(1株)、O103(1株)。本文检测到的优势血清型为O93,stx2阳性菌株的分离率较stx1阳性菌株的分离率高,LD50测定结果表明分离株对小鼠致病力不高,受试的3个分离株均不能致小鼠死亡。对107株stx阳性分离株噬菌斑试验表明,71株阳性菌株携带噬菌体(66.3%,71/109)。受试分离株进行Vero细胞毒性试验,其中有一个菌株stx基因阳性但不能使Vero细胞产生病变。【结论】绵羊是STEC的天然宿主,可健康带菌。虽然STEC分离株对小鼠的致病力较弱,但不能排除其对人类安全的威胁。STEC携带志贺毒素基因并不意味着一定表达志贺毒素,需对志贺毒素的表达及调控机理做进一步的研究。     

Development of a multiplex PCR approach for the identification of Shiga toxin-producing Escherichia coli strains and their major virulence factor genes

AIMS: To develop and evaluate a multiplex PCR (mPCR) system for rapid and specific identification of Shiga toxin-producing Escherichia coli (STEC) and their main virulence marker genes. METHODS AND RESULTS: A series of mPCR assays were developed using primer pairs that identify the sequences of Shiga toxins 1 and 2 (stx1 and stx2, including the stx2c, stx2d, stx2e and stx2f variants), intimin (eaeA), and enterohaemorrhagic E. coli enterohaemolysin (ehlyA). Moreover, two additional genes (rfb O157 and fliC H7), providing the genotypic identification of the O157:H7 E. coli serotype, were detected. As an internal positive control, primers designated to amplify the E. coli 16S rRNA were included in each mPCR. All the amplified genes in the E. coli reference strains were sucessfully identified by this procedure. The method was then used for the examination of 202 E. coli isolates recovered from cattle and children. Among them, 25 (12.4%) were stx positive including the strains of O157:H7 serotype (six isolates) and O157:NM serogroup (four strains). Moreover, 20 STEC strains possessed the eaeA (intimin) and ehlyA (enterohaemolysin) genes. CONCLUSIONS: The developed mPCR-based system enabled specific detection of STEC bacteria and identification of their main virulence marker genes. SIGNIFICANCE AND IMPACT OF THE STUDY: The ability to identify STEC bacteria and the majority of their virulence gene markers, including four variants of Shiga toxin, as well as the differentiation of O157:H7 from non-O157 isolates represents a considerable advancement over other PCR-based methods for rapid characterization of STEC.     

Prevalence of Escherichia coli strains in the canteens

The prevalence of enteropathogenic (EPEC) and enterohaemorrhagic (EHEC) E. coli strains in stool specimens from asymptomatic human carriers working in the canteens and also in the kitchen and sanitary facilities was evaluated. The E. coli genes coding for the following virulence markers: intimin (eae), enterohaemolysin (hlyA), and verotoxins type I and II (stx1 and stx2) were sought by multiplex PCR assay. E. coli isolates were obtained from 144 stool specimens, 295 swabs taken from kitchen hardware and surrounding facilities, and from 33 meat specimens. Only 66 (8.5%) of total 777 E. coli isolates belonged to O44, O18, O25, O127, O55, O114, O125, and O142 serogroups, the prevalent serogroups in Poland. None of the strains was classified as serogroup O157. The serogroups O44 and O18 were present most often among all typeable strains and their incidence was 51.5% and 25.8% respectively. Among 363 isolates assayed for the presence of the genes encoding virulence markers only 10 isolates (2.8%) carried eae gene. None of the isolates possessing eae gene belonged to the serogroups tested. The hlyA, stx1 and stx2 genes were absent in all E. coli isolates tested.     

Isolation and characteristics of sorbitol-fermenting Escherichia coli O157 strains from cattle

Cattle can be a reservoir of sorbitol-fermenting Escherichia coli O157 (SF E. coli O157) and a source of human diseases. In this study, six strains of SF E. coli O157 were isolated and characterized from cattle using an immunomagnetic separation procedure. PCR analysis of the SF E. coli O157 virulence markers showed that all six isolates tested positive for sfpA, rfbE and eaeA, and negative for terA, ureA, katP and espP. Two of the isolates contained the stx genes. Four isolates tested positive for enterohemorrhagic E. coli hlyA (EhlyA) by PCR but were nonhemolytic on the blood agar. Five isolates tested positive for the cdtA gene. The possession of these virulence factors was an indication of their pathogenic potential. The random amplified polymorphic DNA patterns, which were generated by the arbitrarily primed PCR of the SF E. coli O157 isolates from the cattle, were significantly different from those of the non-sorbitol-fermenting E. coli O157 (NSF E. coli O157) strains originating from cattle or humans. GelCompar analysis showed that the SF E. coli O157 isolates had only a 57% genetic similarity with the NSF E. coli strains. The minimal inhibitory concentration assay showed that imipenem inhibited the growth of the six isolates at a concentration of <4 microg/ml.     

猪源大肠杆菌(ETEC、STEC、AEEC)毒力基因及其与O抗原型的关系

[目的]揭示从我国部分地区仔猪腹泻或水肿病病猪体内分离到的300个大肠杆菌分离株所属病原型(pathotype)、毒力基因及其与O血清型的关系.[方法]O血清型采用常规的凝集试验进行测定,毒力基因采用PCR方法检测.[结果]通过对这300个分离株的O血清型及其毒素、紧密素和黏附素基因进行鉴定,结果显示除50株未定型、17株自凝外,测定出233个分离株的血清型,这些分离株覆盖了45个血清型,其中以0149、0107、0139、093和091为主,共133株,占定型菌株的57.1%;拥有est Ⅰ、estⅡ、elt、stx2e和eae A基因的菌株分别为102(34.0%)、190(63.3%)、81(27.0%)、57(19.0%)和54(18.0%)株;分离株中有51株K88基因阳性(其中菌毛表达率为100%),75株F18基因阳性(其中菌毛表达率为50.7%),在K88菌株中,0149血清型与est Ⅰ或estⅡ elt密切相关,在F18菌株中,0107血清型与est Ⅰ或estⅡ、0139血清型与stx2e紧密相关.依其毒力特征可将这些分离株分为以下6种类型:ETEC、STEC、AEEC、ETEC/STEC、AEEC/ETEC和AEEC/ETEC/STEC,分别拥有190、24、36、32、17和1个菌株,占分离株的63.3%、8.0%、12.0%、10.7%、5.7%和0.3%.通过分析这些分离株的O血清型、毒素类型和黏附素型之间的相关性:猪源ETEC以0149、0107、093和098等血清型为主,0149:K88菌株主要与estⅡ或estⅡ elt肠毒素相关,0107:F18菌株主要与estⅡ相关,093和098血清型菌株主要与estⅡ肠毒素相关;STEC菌株以0139:F18血清型为主,拥有stx2e;AEEC菌株拥有紧密素,无明显优势血清型;ETEC/STEC菌株以0107:F18和0116:F18血清型为主,主要与est Ⅰ stx2e或estⅡ stx2e密切相关,ETEC/AEEC菌株以091和0107血清型为主,全部拥有肠毒素est Ⅰ和紧密素基因.[结论]我国至少存在6种病原型的猪肠道致病性大肠杆菌,其中ETEC为我国部分地区猪大肠杆菌病的主要病原,同时其病原型日益复杂.     

Isolation of Escherichia coli O157:H7 strains that do not produce Shiga toxin from bovine, avian and environmental sources

AIMS: To determine the potential for naturally occurring Shiga toxin-negative Escherichia coli O157 to acquire stx(2) genes. METHODS AND RESULTS: Multiple E. coli O157:H7 isolates positive for eae and ehxA, but not for stx genes, were isolated from cattle, water trough sediment, animal bedding and wild bird sources on several Ohio dairy farms. These isolates were experimentally lysogenized by stx(2)-converting bacteriophage. CONCLUSIONS: Shiga toxin-negative strains of E. coli O157 are present in multiple animal and environmental sources. SIGNIFICANCE AND IMPACT OF THE STUDY: Shiga toxin-negative strains of E. coli O157 present in the food production environment are able to acquire the stx genes, demonstrating their potential to emerge as new Shiga toxin-producing E. coli strains.     

Characterisation of Shiga toxin-producing Escherichia coli (STEC) isolated from seafood and beef

Shiga toxin-producing Escherichia coli (STEC) strains isolated in Mangalore, India, were characterised by bead-enzyme-linked immunosorbent assay (bead-ELISA), Vero cell cytotoxicity assay, PCR and colony hybridisation for the detection of stx1 and stx2 genes. Four strains from seafood, six from beef and one from a clinical case of bloody diarrhoea were positive for Shiga toxins Stx1 and Stx2 and also for stx1and stx2 genes. The seafood isolates produced either Stx2 alone or both Stx1 and Stx2, while the beef isolates produced Stx1 alone. The stx1 gene of all the beef STEC was found to be of recently reported stx1c type. All STEC strains and one non-STEC strain isolated from clam harboured EHEC-hlyA. Interestingly, though all STEC strains were negative for eae gene, two STEC strains isolated from seafood and one from a patient with bloody diarrhoea possessed STEC autoagglutinating adhesion (saa) gene, recently identified as a gene encoding a novel autoagglutinating adhesion.     

The incidence of Shiga toxin-producing Escherichia coli in cattle with mastitis in Brazil

AIMS: To determine the prevalence and molecular characteristics of Shiga toxin-producing Escherichia coli (STEC) isolates from bovine mastitic milk in Brazil. METHODS AND RESULTS: A total of 2144 milk samples from dairy cattle showing mastitis were screened for the presence of E. coli. A total of 182 E. coli isolates were selected and examined. All were subjected to dot blot analysis using the CVD419 probe for the detection of the enterohaemolysin (hly) gene, and to a multiplex PCR for the detection of stx1, stx2 and eaeA genes. STEC were isolated from 22 (12.08%) milk samples. All the STEC isolates were tested for sensibility to 10 antimicrobials; the resistances most commonly observed were to cephalothin (86.3%), tetracycline (63.6%) and doxycycline (63.6%). CONCLUSION: STEC isolates were found in bovine mastitic milk in Brazil. SIGNIFICANCE AND IMPACT OF THE STUDY: STEC isolates from mastitic milk were potentially pathogenic for human in that they belonged to serogroups associated with diarrhoea and haemolytic-uraemic syndrome, some of them were stx2, eaeA and hly positive.     

Distribution of two hemolytic toxin genes in clinical and environmental isolates of Aeromonas spp.: correlation with virulence in a suckling mouse model

Previous studies have shown that two hemolytic toxins, HlyA and AerA, contribute to the virulence of Aeromonas hydrophila. A survey was performed to gauge the distribution of hlyA and aerA genes in clinical and environmental Aeromonas isolates. For A. hydrophila, A. veronii biotype sobria and A caviae, 96%, 12% and 35% of strains, respectively, were hlyA positive, whereas, 78%, 97%, 41%, respectively, were aerA positive. All virulent A. hydrophila isolates were hlyA+ aerA+. This genotype was most common in A. hydrophila (75.4%) followed by A. caviae (29.4%) and A. veronii biotype sobria (9.6%). For A. hydrophila, a two-hemolytic toxin model of virulence provides the best prediction of virulence in an animal model.     

Hemolysin from Shiga toxin-negative Escherichia coli O26 strains injures microvascular endothelium

We identified Shiga toxin gene (stx)-negative Escherichia coli O26:H11 and O26:NM (nonmotile) strains as the only pathogens in the stools of five patients with hemolytic-uremic syndrome (HUS). Because the absence of stx in E. coli associated with HUS is unusual, we examined the strains for potential virulence factors and interactions with microvascular endothelial cells which are the major targets affected during HUS. All five isolates possessed the enterohemorrhagic E. coli (EHEC)-hlyA gene encoding EHEC hemolysin (EHEC-Hly), expressed the enterohemolytic phenotype, and were cytotoxic, in dose- and time-dependent manners, to human brain microvascular endothelial cells (HBMECs). Significantly reduced cytotoxicity in an EHEC-Hly-negative spontaneous derivative of one of these strains, and a dose- and time-dependent cytotoxicity of recombinant E. coli O26 EHEC-Hly to HBMECs, suggest that the endothelial cytotoxicity of these strains was mediated by EHEC-Hly. The toxicity of EHEC-Hly to microvascular endothelial cells plausibly contributes to the virulence of the stx-negative E. coli O26 strains and to the pathogenesis of HUS.     

Isolation of Shigella dysenteriae type 1 and S. flexneri strains from surface waters in Bangladesh: comparative molecular analysis of environmental Shigella isolates versus clinical strains

Bacillary dysentery caused by Shigella species is a public health problem in developing countries including Bangladesh. Although, shigellae-contaminated food and drinks are often the source of the epidemic's spread, the possible presence of the pathogen and transmission of it through environmental waters have not been adequately examined. We analyzed surface waters collected in Dhaka, Bangladesh, for the presence of shigellae by a combination of PCR assays followed by concentration and culturing of PCR-positive samples. Analysis of 128 water samples by PCR assays for Shigella-specific virulence genes including ipaBCD, ipaH, and stx1 identified 14 (10.9%) samples which were positive for one or more of these virulence genes. Concentration of the PCR-positive samples by filtration followed by culturing identified live Shigella species in 11 of the 14 PCR-positive samples. Analysis of rRNA gene restriction patterns (ribotype) showed that the environmental isolates shared ribotypes with a collection of clinical isolates, but in contrast to the clinical isolates, 10 of the 11 environmental isolates were either negative or carried deletions in the plasmid-encoded invasion-associated genes ipaB, ipaC, and ipaD. However, all environmental Shigella isolates were positive for the chromosomal multicopy invasion-associated gene ipaH and all Shigella dysenteriae type 1 isolates were positive for the stx1 gene in addition to ipaH. This study demonstrated the presence of Shigella in the aquatic environment and dispersion of different virulence genes among these isolates which appear to constitute an environmental reservoir of Shigella-specific virulence genes. Since critical virulence genes in Shigella are carried by plasmids or mobile genetic elements, the environmental gene pool may contribute to an optimum combination of genes, causing the emergence of virulent Shigella strains which is facilitated in particular by close contact of the population with surface waters in Bangladesh.     

Phenotypic and Genotypic Characterization Vibrio cholerae O139 of Clinical and Aquatic Isolates in China

To enhance the understanding of epidemiological impact of environmental Vibrio cholerae O139 strains, we characterized 10 clinical and 20 environmental isolates collected from human clinical samples and Pear River estuary during 2006 to 2008. Isolates were tested by PCR for eight virulence genes: cholera toxin (ctxA), zonula occludens toxin (zot), accessory cholera enterotoxin (ace), hemolysin (hlyA), NAG-specific heat-stable toxin (st), toxin-coregulated pilus (tcpA), outer membrane protein (ompU), and regulatory protein genes (tcpI). Genetic relatedness was assessed by pulsed-field gel electrophoresis (PFGE), and antibiotic susceptibility was determined using disk diffusion. Seven of eight virulence markers were detected in six clinical isolates and one environmental isolate. One clinical and one environmental isolate were positive for six virulence markers. 60% clinical isolates showed multi-drug resistance to tetracycline (TET), Nalidixic acid (NAL), chloramphenicol (CHL), and ampicillin (AMP), 70% were resistant to Trimethoprim + Sulfamethoxazole (SXT), while only 35% environmental strains were resistant to SXT. PFGE analysis revealed that the isolates in this study were formed three clusters. Cluster III was more related to strains from diarrheal patients than the strains in other clusters. Different from the clinical strains, most environmental strains lacked CTX and TCP gene clusters. Most environmental strains possess a single resistance profile, while most clinical isolates show multidrug resistant. PFGE analysis indicated the cluster III has more possibility to become a potential pathogenic clonal cluster.     

Analysis of environmental Escherichia coli isolates for virulence genes using the TaqMan PCR system

AIMS: To assess the presence of virulence genes in environmental and foodborne Escherichia coli isolates using the TaqMan PCR system. METHODS AND RESULTS: Three TaqMan pathogen detection kits called O157:H7, StxI and StxII were used to investigate the presence of virulence genes in Escherichia coli isolates. All 54 foodborne E. coli O157:H7 isolates showed expected results using these kits. Ninety (15%) of 604 environmental isolates gave positive amplification with an O157:H7-specific kit. TaqMan PCR amplification products from these 90 isolates were analysed by agarose gel electrophoresis, and 90% (81 of 90) of the environmental samples contained the expected PCR product. Sixty-six of these 90 were chosen for serotyping tests and only 35% (23 of 66) showed agglutination with both anti-O157 and anti-H7 antibodies. Further ribotyping of 16 sero-positive isolates in an automated Riboprinter did not identify these to be O157:H7. Multiplex PCR with primers for eaeA, stxI and stxII genes was used to confirm the TaqMan results in 10 selected environmental isolates. CONCLUSIONS: All three TaqMan pathogen detection kits were useful for virulence gene analysis of prescreened foodborne O157:H7 isolates, while the O157:H7-specific kit may not be suitable for virulence gene analysis of environmental E. coli isolates, because of high false positive identification. SIGNIFICANCE AND IMPACT OF THE STUDY: The ability to rapidly identify the presence of pathogenic E. coli in food or environmental samples is essential to avert outbreaks. These results are of importance to microbiologists seeking to use TaqMan PCR to rapidly identify pathogenic E. coli in environmental samples. Furthermore, serotyping may not be a reliable method for identification of O157:H7 strains.     

Distribution of genes for virulence and ecological fitness among diverse Vibrio cholerae population in a cholera endemic area: tracking the evolution of pathogenic strains

The pathogenic strains of Vibrio cholerae that cause acute enteric infections in humans are derived from environmental nonpathogenic strains. To track the evolution of pathogenic V. cholerae and identify potential precursors of new pathogenic strains, we analyzed 324 environmental or clinical V. cholerae isolates for the presence of diverse genes involved in virulence or ecological fitness. Of 251 environmental non-O1, non-O139 strains tested, 10 (3.9%) carried the toxin coregulated pilus (TCP) pathogenicity island encoding TCPs, and the CTX prophage encoding cholera toxin, whereas another 10 isolates carried the TCP island alone, and were susceptible to transduction with CTX phage. Most V. cholerae O1 and O139 strains carried these two major virulence determinants, as well as the Vibrio seventh pandemic islands (VSP-1 and VSP-2), whereas 23 (9.1%) non-O1, non-O139 strains carried several VSP island genes, but none carried a complete VSP island. Conversely, 30 (11.9%) non-O1, non-O139 strains carried type III secretion system (TTSS) genes, but none of 63 V. cholerae O1 or O139 strains tested were positive for TTSS. Thus, the distribution of major virulence genes in the non-O1, non-O139 serogroups of V. cholerae is largely different from that of the O1 or O139 serogroups. However, the prevalence of putative accessory virulence genes (mshA, hlyA, and RTX) was similar in all strains, with the mshA being most prevalent (98.8%) followed by RTX genes (96.2%) and hlyA (94.6%), supporting more recent assumptions that these genes imparts increased environmental fitness. Since all pathogenic strains retain these genes, the epidemiological success of the strains presumably depends on their environmental persistence in addition to the ability to produce major virulence factors. Potential precursors of new pathogenic strains would thus require to assemble a combination of genes for both ecological fitness and virulence to attain epidemiological predominance.