papA gene of avian pathogenic Escherichia coli

P fimbrial adhesins may be associated with the virulence of avian pathogenic Escherichia coli (APEC). However, most APECs are unable to express P fimbriae even when they are grown under conditions that favor P fimbrial expression. This failure can be explained by the complete absence of the pap operon or the presence of an incomplete pap operon in Pap-negative APEC strains. In the present study, we analyzed the pap operon, specifically the papA gene that encodes the major fimbrial shaft, to better understand the pap gene cluster at the genetic level. First, by PCR, we examined a collection of 500 APEC strains for the presence of 11 genes comprising the pap operon. Except for papA, all the other genes of the operon were present in 38% to 41.2% of APEC, whereas the papA was present only in 10.4% of the APEC tested. Using multiplex PCR to probe for allelic variants of papA, we sought to determine if the low prevalence of papA among APEC was related to genetic heterogeneity of the gene itself. It was determined that the papA of APEC always belongs to the F11 allelic variant. Finally, we sequenced the 'papA region' from two papA-negative strains, both of which contain all the other genes of the pap operon. Interestingly, both strains had an 11,104-bp contig interruptingpapA at the 281-bp position. This contig harbored a streptomycin resistance gene and a classic Tn10 transposon containing the genes that confer tetracycline resistance. However, we noted that the papA gene of every papA-negative APEC strain was not interrupted by an 11,104-bp contig. It is likely that transposons bearing antibiotic resistance genes have inserted within pap gene cluster of some APEC strains, and such genetic events may have been selected for by antibiotic use.     

Pathotyping avian pathogenic Escherichia coli strains in Korea

To examine the genetic background of avian pathogenic Escherichia coli (APEC) that affects virulence of this microorganism, we characterized the virulence genes of 101 APEC strains isolated from infected chickens between 1985~2005. Serotypes were determined with available anti-sera and median lethal doses were determined in subcutaneously inoculated chicks. The virulence genes we tested included ones encoding type 1 fimbriae (fimC), iron uptake-related (iroN, irp2, iucD, and fyuA), toxins (lt, st, stx1, stx2, and vat), and other factors (tsh, hlyF, ompT, and iss). Twenty-eight strains were found to be O1 (2.0%), O18 (3.0%), O20 (1.0%), O78 (19.8%), and O115 (2.0%) serotypes. The iroN (100%) gene was observed most frequently followed by ompT (94.1%), fimC (90.1%), hlyF (87.1%), iss (78.2%), iucD (73.3%), tsh (61.4%), fyuA (44.6%), and irp2 (43.6%). The strains were negative for all toxin genes except for vat (10.9%). All the strains were classified into 27 molecular pathotypes (MPs). The MP25, MP19, and MP10 pathotypes possessing iroN-fimC-ompT-hlyF-iucD-tsh-iss-irp2-fyuA (22.8%), iroN-fimC-ompT-hlyF-iucD-tsh-iss (21.8%), and iroN-fimC-ompT-hlyF-iss (11.9%) genotypes, respectively, were predominant. Redundancy of iron uptake-related genes was clearly observed and some strains were associated with higher mortality than others. Therefore, strains with the predominant genotypes can be used for diagnosis and vaccine.     

禽致病性大肠杆菌生物被膜的形成及其影响因素

为确定影响细菌生物被膜(BF)的形成条件,本研究采用BF体外定性观察和定量粘附性检测两种方法对1株野生禽致病性大肠杆菌(E.coli)在不同环境(培养时间、培养基类型、引导载体类型、营养条件)下产生BF的差异进行了研究。结果显示野生禽致病性E.coli其宿主体外BF最适形成条件是培养时间为48h,培养基为5%TSB、引导载体为平底96孔聚苯乙烯微孔板(美国Corning Costar)。其生长周期为8h时开始起始粘附、24h形成若干微菌落、36h微菌落粘连、48h形成完整的BF、72h细菌脱落开始下一轮的BF生长。糖分和适量的无机盐都可以在一定程度上促进BF的形成和被膜内细菌的粘附性提高。该研究表明禽致病性E.coliBF的形成周期,并为抑制其形成提供了实验依据。     

TonB is essential for virulence in avian pathogenic Escherichia coli

Avian pathogenic Escherichia coli (APEC) strains have multiple iron-uptake systems that facilitate adaptation to iron-restricted environments and are believed to assist in colonisation of the host. These systems include several TonB-dependent transporters of ferri-siderophores encoded by the chromosome and the large virulence plasmid common to APECs. The tonB gene of the virulent APEC strain E956 was replaced with a selectable antibiotic resistance marker using Lambda Red recombinase mutagenesis. The phenotype of the ΔtonB E956 mutant was compared to the parent strain under various culture conditions and in chickens experimentally infected via the respiratory route. The mutant was resistant to streptonigrin, impaired in its ability to adapt to growth in iron-depleted medium and had greater tolerance of oxidative stress than the parental strain. The mutant was avirulent in chickens, did not affect the growth of chicks and colonisation was mostly limited to the trachea. This study has demonstrated that TonB is essential for virulence in APEC.     

禽病原性大肠杆菌温度敏感性血凝素(Tsh)突变株的构建

运用基因重组方法将庆大霉素抗性基因(GM)连接到PCR扩增的tsh两端区域产生的2个目的基因片段之间,并共同插入到pUC18载体的多克隆位点中,构建出带GM标志的载体pUC18-tshFRGM,从中切下目的片段,再将之克隆到pMEG-375自杀性载体中,构建出自杀性载体pMEG375-tshFRGM,将突变载体转化到含tsh基因的受体APECE037株中,根据同源重组原理,筛选出tsh基因缺失的E037突变株。E037和E037(Δtsh)株的LD50分别为105.6CFU和109.0CFU,动物感染性试验表明,E037(Δtsh)株在内脏器官和血液中的感染能力和大肠杆菌病变程度均有了明显降低。     

Characteristics of conjugative R-plasmids from pathogenic avian Escherichia coli.

Three of four virulent avian Escherichia coli isolates transferred a single large molecular-weight R-plasmid to two recipient E. coli strains. Antibiotic resistances transferred included streptomycin (two isolates) and streptomycin-tetracycline-sulfa (one isolate). Production of colicin and siderophores, complement resistance, and embryo lethality present in the virulent isolates were not transferred to recipient organisms. From the results, it appears that the R-plasmids of these virulent avian E. coli are not associated with virulence.     

Virulence-associated genes and antimicrobial resistance among avian pathogenic Escherichia coli from colibacillosis affected broilers in Pakistan

Avian pathogenic Escherichia coli (APEC) causes colibacillosis that leads to high morbidity and mortality among poultry birds. To date, there is a lack of knowledge about virulence-associated genes (VAGs) and multidrug resistance of APEC isolates from Pakistan. In this study, we determined the VAGs and antibiotic resistance profiles of APEC isolates recovered from colibacillosis affected broilers in Faisalabad region of Pakistan. A total of 84 diseased and dead birds from different local broilers farms were collected and examined for the gross lesions of colibacillosis by conducting postmortem examination. Of these, APEC isolates were recovered from 75 (89.2%) birds. Antibiotic susceptibility tests against 11 antimicrobial agents showed the highest resistance against ampicillin (98.6%) followed by tetracycline (97.3%) and ciprofloxacin (72%). The presence of 11 virulence-associated genes (VAGs) was detected by multiplex polymerase chain reaction (PCR). Of the 75 APEC, 32 (42.6%) harbored > 5 VAGs. Most commonly found genes were increased serum survival (iss; 84%), iron transport (iutA; 74.6%), and colicin V (ColV; 60%). Twenty-two isolates (29.3%) were found to possess a combination of VAGs; iss, tsh, iroN, and iutA, in addition to other VAGs. To the best of our knowledge, this is the first report on the detection of virulence-associated genes and multidrug resistance among APEC isolates in Pakistan. In the future, the strains with the predominant set of VAGs can be used for colibacillosis diagnosis and as a potential vaccine candidate.

     

Occurrence of the temperature-sensitive hemagglutinin among avian Escherichia coli

In this study, we determined the occurrence of the tsh gene among 305 Escherichia coli isolates from chickens by means of the polymerase chain reaction and agglutination of chicken erythrocytes; 200 of those isolates were obtained from chickens with colisepticemia, 52 isolates were from lesions of cellulitis, and 53 were from feces of normal chickens. The tsh gene was found in 79 (39.5%) isolates from colisepticemia, in 10 (19%) cellulitis-derived E. coli isolates, and in two (3.8%) fecal isolates. Among the tsh+ strains, 68 (86%) isolates from colisepticemia and nine (90%) from cellulitis agglutinated chicken erythrocytes in the presence of mannose, after growing the strains on colonization factor antigen agar plates at 26 C, which confirms a correlation between mannose-resistant hemagglutination and expression of hemagglutinin Tsh. These results show, for the first time, the presence of the gene tsh in cellulitis-derived E. coli isolates; the high frequency of this gene among avian pathogenic E. coli isolates in Brazil indicates that its putative role as a virulence factor should be studied more thoroughly.     

禽致病性大肠杆菌ibeA基因缺失及其特性分析

运用大肠杆菌Red同源重组系统,对禽致病性大肠杆菌(Avian pathogenic Escherichia coli,APEC)DE02株的ibeA基因进行了缺失,其结果为揭示IbeA的功能奠定了基础.通过对APEC ibeA基因缺失株与人脑微血管内皮细胞(Human brain microvascular endothelial cells,HBMECs)的黏附与侵袭,发现ibeA基因缺失后与HBMECs的黏附率为45%,侵袭率为1.2%,相对于野生型APEC均显著降低;提示ibeA基因是APEC的重要致病因子.     

IbeB is involved in the invasion and pathogenicity of avian pathogenic Escherichia coli

The ibeB gene in neonatal meningitis Escherichia coli (NMEC) contribute to the penetration of human brain microvascular endothelial cells (HBMECs). However, whether IbeB plays a role in avian pathogenic E. coli (APEC) infection remains unclear. Thus, this study was conducted to investigate the distribution of the ibeB gene in Chinese APEC strains and examine whether IbeB is involved in APEC pathogenicity. The ibeB gene was found in all 100 detected E. coli isolates with over 97% sequence homology. These results indicated that ibeB is a conserved E. coli gene irrelevant of pathotypes. To determine the role of ibeB in APEC pathogenicity, an ibeB mutant of strain DE205B was constructed and characterized. The inactivation of ibeB resulted in reduced invasion capacity towards DF-1 cells and defective virulence in animal models as compared to the wild-type strain. Animal infection experiments revealed that loss of ibeB decreased APEC colonization and invasion capacity in brains and lungs. These virulence-related phenotypes were partially recoverable by genetic complementation. Reduced expression levels of invasion- and adhesion-associated genes in ibeB mutant could be major reasons as evidenced by reduced ibeA and ompA expression. These results indicate that IbeB is involved in APEC invasion and pathogenicity.     

禽致病性大肠杆菌中耶尔森菌强毒力岛的分子流行病学调查

为了解耶尔森菌强毒力岛（HPI）在禽致病性大肠杆菌（APEC）中的流行情况，根据HPI结构基因irp2和fyuA参考序列设计了引物，用PCR方法和斑点杂交法对从江苏等地分离的APEC基因组进行了扩增和检测，并对E．coli NTJC040406菌株相关基因进行了克隆和序列分析。结果表明，216株APEC中有44．9％的菌株携带有HPI，序列分析表明相关基因与GenBank中参考序列的同源性高达98％以上。提示HPI在APEC中广泛存在，经进一步分析，发现分离菌株是否携带HPI与O78等特定血清型有一定的相关性。     

Attenuation of an avian pathogenic Escherichia coli strain due to a mutation in the rpsL gene

The diseases caused by pathogenic Escherichia coli constitute a major economic loss to the poultry industry. The development of a live oral E. coli vaccine to prevent or reduce diseases in poultry had been the objective of our work. Four spontaneous streptomycin-dependent (str-dependent) mutants were generated from a virulent avian strain that contains a mutation in the fur region of the chromosome. Genetic analysis of the mutants indicated that the str-dependent phenotype was due to a base change of C --> T at base 272 in the rpsL gene. The mutants were tested for attenuation using the day-old chick model. Day-old birds, in groups of 20, were either challenged with 10(6) colony-forming units (CFU) of the str-dependent mutant, the parent strain (containing the fur mutation), or the wild-type strain without the fur mutation. The parent strain and the wild-type strain were highly virulent, and 80% or more of the birds died. None of the birds challenged with the str-dependent mutants died, indicating attenuation of the mutants. The protective effect of the mutant as a live vaccine against the challenge with 10(6) CFU of the wild-type strain EC317 was investigated. Vaccination by both aerosol (day 1) and oral (days 14 and 28) routes using 10(8) CFU of the str-dependent mutant (EC1598) had no effect on the occurrence of cellulitis in the birds. Two vaccinations given as aerosol on day 1 and given orally on day 14 also had no significant effect on the occurrence of systemic lesions. Three immunizations on days 1, 14, and 28 resulted in a significant reduction in the number of birds with systemic lesions. Antibody titers prior to challenge were not predictive of outcome of challenge.     

Antimicrobial susceptibility and molecular characterization of avian pathogenic Escherichia coli isolates

Ninety-five avian pathogenic Escherichia coli (APEC) isolates recovered from diagnosed cases of avian colibacillosis from North Georgia between 1996 and 2000 were serotyped and examined for typical virulence-factors, susceptibility to antimicrobials of human and veterinary significance, and genetic relatedness. Twenty different serotypes were identified, with O78 being the most common (12%). The majority of the avian E. coli isolates (60%), however, were non-typeable with standard O antisera. Eighty-four percent of isolates were PCR positive for the temperature-sensitive hemagglutinin (tsh) gene and 86% positive for the increased serum survival (iss) gene. Multiple antimicrobial-resistant phenotypes (> or =3 antimicrobials) were observed in 92% of E. coli isolates, with the majority of isolates displaying resistance to sulfamethoxazole (93%), tetracycline (87%), streptomycin (86%), gentamicin (69%), and nalidixic acid (59%). Fifty-six E. coli isolates displaying resistance to nalidixic acid were co-resistant to difloxacin (57%), enrofloxacin (16%), gatifloxacin (2%), and levofloxacin (2%). DNA sequencing revealed point mutations in gyrA (Ser83-Leu, Asp87-Tyr, Asp87-Gly, Asp87-Ala), gyrB (Glu466-Asp, Asp426-Thr), and parC (Ser80-Ile, Ser80-Arg). No mutations were observed in parE. Twelve of the quinolone-resistant E. coli isolates were tolerant to cyclohexane, a marker for upregulation of the acrAB multi-drug resistance efflux pump. Quinolone-resistant isolates were further genetically characterized via ribotyping. Twenty-two distinct ribogroups were identified, with 61% of isolates clustering into four major ribogroups, indicating that quinolone resistance has emerged among multiple avian pathogenic E. coli serogroups and chromosomal backgrounds.     

Evaluation of differentially expressed proteins following serum exposure in avian pathogenic Escherichia coli

Colibacillosis, caused by avian pathogenic Escherichia coli (APEC), is an extraintestinal disease that causes great economic loss to the poultry industry each year. APEC must overcome host defenses, such as immune system components found in serum, in order to establish infection; however, the mechanism of such serum resistance has been elusive. In the present study, a proteomic approach was used to evaluate APEC proteins that were differentially expressed after exposure to chicken serum to identify specific proteins that may be involved in serum resistance of APEC isolates. Proteins were isolated and separated by two-dimensional (2D) gel electrophoresis, and 10 protein spots corresponding to differentially expressed proteins were chosen for sequencing using electrospray ionization tandem mass spectrometry. Eight proteins were identified among the spots, some of which have previously been associated with the virulence of E. coli. Significantly, an outer-membrane protein previously associated with serum resistance, OmpA, was among those proteins identified, further indicating that differential regulation of this protein may be involved in serum resistance. This study opens the door to future research using a proteomic approach to identify the key players in serum resistance of APEC.     

Virulence factors of Escherichia coli, with emphasis on avian pathogenic isolates

E. coli bacteria isolated from localized and systemic disease processes in poultry are designated as Avian Pathogenic E. coli (APEC). The disease-inducing potential of these isolates has been explained by the occurrence of specific virulence factors. Despite the extensive literature on virulence factors for E. coli, unambiguous markers of virulence have not been identified yet. The relationship between serotyping and virulence is not straightforward either and raises the question whether E. coli infections in poultry should mainly be considered as opportunistic. Investigations into the occurrence of certain (combinations of) virulence factors in APEC isolates as virulence markers should fulfil the molecular version of Koch's postulates if the former question is to be answered.     

Predominance of the papGII allele with high sequence homology to that of human isolates among avian pathogenic Escherichia coli (APEC)

Avian pathogenic Escherichia coli (APEC) are often found in poultry and are responsible for a set of diseases, commonly referred to as avian colibacillosis. One of the important virulence factors is adhesion to different epithelial surfaces, which is mediated by pili. P pili are thought to play a role by means of their PapG adhesin, which occurs in three molecular variants: PapGI, PapGII and PapGIII. This study is the first to determine and analyse the distribution of the different papG alleles in APEC. Our results show a significant predominance of the papGII allele above all other alleles or allele combinations. No statistically significant associations could be found between papG allele distribution and the type of bird, organ of isolation and O serogroup. Finally, the papGII and papGIII sequences showed high homology with mammalian (including human) source papG sequences.     

禽致病性大肠杆菌唾液酸酶siaK1基因缺失株的构建及其生物学特性分析

禽致病性大肠杆菌(avian pathogenic Escherichia coli,APEC)是危害养禽业发展的重要病原之一。本试验利用Red同源重组技术构建APEC IMT5155唾液酸酶基因sia K1缺失株和互补株,系统比较其生物学特性的差异。生长曲线测定表明,缺失株比野生株和互补株生长速度加快,而野生株和互补株的生长速度无明显差异;生物被膜形成能力测定表明,sia K1缺失导致细菌生物被膜形成能力显著减弱,而互补株可恢复至野生株水平,说明sia K1基因缺失可影响禽致病性大肠杆菌的生长速度及生物被膜的形成。本研究为进一步探讨sia K1基因功能奠定了基础。     

应用DNA芯片技术筛选禽致病性大肠杆菌和尿道致病性大肠杆菌的差异表达基因

为研究禽致病性大肠杆菌强毒株E058的毒力相关基因在鸡体内、体外表达情况以及E058和尿道致病性大肠杆菌HEC4在LB和尿液中培养的表达情况,本研究分别提取E058株在SPF鸡体内及E058株和HEC4株在LB和尿液中静置培养的总RNA,与构建的DNA芯片杂交,检测和分析RNA的差异表达情况。芯片的检测结果表明:E058株在鸡体内和LB中培养差异表达基因共有9个,上调基因为5个,分别为neuC、iutA、cvaC、aes-15和iucCD;下调基因为4个,分别为aes-8、gyrB、aec-30和mdh。另外,芯片检测结果也显示E058株和HEC4株在LB和尿液中静置培养,具有相似的基因表达情况。