Genetic analysis of 987P adhesion and fimbriation of Escherichia coli: the fas genes link both phenotypes.

The 987P fimbrial gene cluster has recently been shown to contain eight genes (fasA to fasH) clustered on large plasmids of enterotoxigenic Escherichia coli and adjacent to a Tn1681-like transposon encoding the heat-stable enterotoxin STIa. Different genetic approaches were used to study the relationship between 987P fimbriation and adhesion. TnphoA mutagenesis, complementation assays, and T7 RNA polymerase-promoted gene expression indicated that all of the fas genes were involved in fimbrial expression and adhesion. In contrast to other fimbrial systems, the lack of expression of any single fas gene never resulted in the dissociation of fimbriation and adhesion, indicating that the adhesin is required for fimbrial expression and suggesting that FasA, the fimbrial structural subunit itself, is the adhesin. In addition, fimbrial length was shown to be modulated by the levels of expression of different fas genes.     

动物源产肠毒素大肠杆菌(ETEC)黏附素研究进展

动物源产肠毒素大肠杆菌(enterotoxigenic Escherichia coli,ETEC)是引起动物(尤其是幼龄动物)腹泻的主要病原菌。已知黏附素和肠毒素是ETEC中两种重要的毒力因子,在致病性中两者缺一不可。其中黏附素结合到宿主易感肠上皮细胞是ETEC感染的第一步,也是最重要的关键步骤。动物源ETEC的菌毛黏附素主要包括K88、K99、987P、F18、F17和F41等。人们从20世纪60年代就开始了ETEC菌毛黏附素的相关研究,包括菌毛的基因、结构组成、生物合成、菌毛表达的调控机制以及黏附素和宿主受体相互作用等,这些研究基础有助于我们深入了解ETEC病原菌的感染机理;并且在疾病诊断和新疫苗的开发中具有重大意义。     

Assessing the expression of enterotoxigenic Escherichia coli-specific surface antigens in recombinant strains by transmission electron microscopy and immunolabeling.

Infections with enterotoxigenic Escherichia coli (ETEC) are a major cause of travelers' diarrhea worldwide. Colonization of the small intestine mucosa is dependent on specific colonization factor antigens (CFA) and coli surface (CS) antigens. CFA/1, CS3, and CS6 are the most prevalent fimbrial antigens found in clinical isolates. The goal of our study was to visualize the morphology of CS3 and CS6 fimbriae in wild-type and recombinant E. coli strains by means of transmission electron microscopy in conjunction with negative staining and immunolabeling. Corresponding ETEC genes were cloned into E. coli K12 strain DH10B. Expression of fimbriae was dependent on culture conditions and sample handling. Specific immunolabeling of fimbriae unequivocally demonstrated the presence of all types of surface antigens investigated. Negative staining was effective in revealing CS3 but not CS6. In addition, this technique clearly demonstrated differences in the morphology of genetically and immunologically identical CS3 surface antigens in wild-type and recombinant strains. This paper provides a basis for the assessment of recombinant vaccines.     

Lactobacillus acidophilus expressing recombinant K99 adhesive fimbriae has an inhibitory effect on adhesion of enterotoxigenic Escherichia coli

The most common enteric colibacillosis in neonatal and newborns is caused by enterotoxigenic Escherichia coli(ETEC). Colonization of ETEC in the small intestine is associated with adhesions using fimbriae, which is known as a specific adhesion factor and provides highly specific means for anchoring and prerequisite for an infectious agent. In the present study we have engineered Lactobacillus acidophilus to produce recombinant K99 fimbriae, which is used for the colonization to the intestine of pigs. The expression of K99 fimbrial protein was confirmed using SDS-PAGE, immunoblot and agglutination analyses. To evaluate a function of the K99 fimbrial protein, inhibition and competition tests were performed on pre-screened intestinal brush border from pigs. The tests showed that recombinant L. acidophilus, not control L. acidophilus, had a significant inhibitory effect to and competition against K99+ E. coli in a dose dependent manner. In conclusion, we demonstrated that recombinant K99 fimbriae producing L. acidophilus was able to prevent E. coli binding to intestinal brush border.     

Characterization of fimbriae extracts from porcine enterotoxigenic Escherichia coli strains carrying F6 (987P) antigen.

Fimbrial extracts from porcine enterotoxigenic Escherichia coli (ETEC) strains carrying F6 (987P) intestinal colonization factor antigen wereobtained using the thermal shock method. The extracts were analyzed by SDSPAGE and immunoblotting using different fimbriae-specific antisera. Two major protein bands with molecular masses of 17.5 and 21.9 kDa were detected. The 21.9-kDa band was identified as the major subunit of F6 fimbrial antigen in strains of serogroups O9 and O141. The 17.5-kDa band was associated with porcine strains of serogroups O9 and O20.     

肠毒素大肠杆菌定居因子CFA/Ⅰ和CS6在减毒福氏志贺氏菌中的共表达

定居因子CFA/I和CS6是肠毒素大肠杆菌 (ETEC)中重要的两种优势抗原 ,是ETEC疫苗研制的首选组分。采用基因重组技术将二者构建在以asd基因为选择标记的重组质粒上 ,与asd基因缺失突变型减毒福氏志贺氏菌FWL0 1构成宿主 载体平衡致死系统。实验结果表明 ,重组疫苗候选株能够稳定表达CFA/I和CS6抗原 ,并可在菌体表面形成相应菌毛。重组菌口服免疫BALB/c小鼠后 ,可诱生相应的抗CFA/I和CS6的特异性血清抗体IgG和分泌型抗体sIgA ,说明以志贺氏菌为载体 ,可以构建同时表达多个定居因子抗原的ETEC多价菌苗     

Ordered translocation of 987P fimbrial subunits through the outer membrane of Escherichia coli.

The 987P fimbria of enterotoxigenic Escherichia coli is a heteropolymeric structure which consists essentially of a major FasA subunit and a minor subunit, the FasG adhesin. The latter harbors the binding moiety for receptor molecules on piglet intestinal epithelial cells. In this study, anti-FasF antibody probes were developed and used to demonstrate that the FasF protein represents a new minor fimbrial component. FasF was identified in highly purified fimbriae, and its sequence demonstrated significant levels of similarity with that of FasA. Immune electron microscopy localized both the FasG and FasF proteins at the fimbrial tip as well as at broken ends and at various intervals along the fimbrial length. The presence of these minor proteins in purified 987P fimbriae was corroborated by enzyme-linked immunosorbent assay inhibitions. Finally, the use of nonfimbriated fasG, fasF, and fasA mutants indicated that subunit translocation through the outer membrane follows a specific order, FasG being the first, FasF being the second, and FasA being the third type of exported subunit. Since fimbriae are thought to grow from the base, FasG is proposed to be a tip adhesin and FasF is proposed to be a linker molecule between the adhesin and the fimbrial shaft. Moreover, export of FasG (or FasF) in the absence of FasF (or FasA) indicates that during the process of fimbrial biogenesis in the outer membrane, translocating events precede the initiation of subunit heteropolymerization.     

大肠杆菌F18菌毛及其亚型的PCR鉴定

F18菌毛是产肠毒素大肠杆菌 (ETEC)与产vero细胞毒素大肠杆菌 (VTEC)的重要致病因子 ,可介导细菌对小肠细胞的黏附 ,并具有F18ab和F18ac 2个抗原亚型。根据已发表的F18ab菌毛A亚单位 (FedA ab)的基因 (fedA ab)设计 3条引物 ,建立了 2种聚合酶链式反应 (PCR)扩增方法。通过对F18ab 大肠杆菌、F18ac 大肠杆菌、K88 大肠杆菌、K99 大肠杆菌、987P 大肠杆菌、F4 1 大肠杆菌的试验 ,结果表明所建立的PCR方法可特异性鉴定F18 大肠杆菌并区别其亚型F18ab与F18ac     

CfaE tip mutations in enterotoxigenic Escherichia coli CFA/I fimbriae define critical human intestinal binding sites

Enterotoxigenic Escherichia coli (ETEC) use colonization factors to attach to the human intestinal mucosa, followed by enterotoxin expression that induces net secretion and diarrhoeal illness. ETEC strain H10407 expresses CFA/I fimbriae, which are composed of multiple CfaB structural subunits and a CfaE tip subunit. Currently, the contribution of these individual fimbrial subunits in intestinal binding remains incompletely defined. To identify the role of CfaE in attachment in the native ETEC background, an R181A single-amino-acid substitution was introduced by recombination into the H10407 genome. The substitution of R181A eliminated haemagglutination and binding of intestinal mucosa biopsies in in vitro organ culture assays, without loss of CFA/I fimbriae expression. Wild-type in trans plasmid-expressed cfaE restored the binding phenotype . In contrast, in trans expression of cfaE containing amino acid 181 substitutions with similar amino acids, lysine, methionine and glutamine did not restore the binding phenotype, indicating that the loss of the binding phenotype was due to localized areas of epitope disruption. R181 appears to have an irreplaceable role in the formation of a receptor-binding feature on CFA/I fimbriae. The results specifically indicate that the CfaE tip protein is a required binding factor in CFA/I-mediated ETEC colonization, making it a potentially important vaccine antigen.     

Adaptive evolution of class 5 fimbrial genes in enterotoxigenic Escherichia coli and its functional consequences

Class 5 fimbriae of enterotoxigenic Escherichia coli (ETEC) comprise eight serologically discrete colonization factors that mediate small intestinal adhesion. Their differentiation has been attributed to the pressure imposed by host adaptive immunity. We sequenced the major pilin and minor adhesin subunit genes of a geographically diverse population of ETEC elaborating CFA/I (n = 31), CS17 (n = 20), and CS2 (n = 18) and elucidated the functional effect of microevolutionary processes. Between the fimbrial types, the pairwise nucleotide diversity for the pilin or adhesin genes ranged from 35-43%. Within each fimbrial type, there were 17 non-synonymous and 1 synonymous point mutations among all pilin or adhesin gene copies, implying that each fimbrial type was acquired by ETEC strains very recently, consistent with a recent origin of this E. coli pathotype. The 17 non-synonymous allelic differences occurred in the CFA/I pilin gene cfaB (two changes) and adhesin gene cfaE (three changes), and CS17 adhesin gene csbD (12 changes). All but one amino acid change in the adhesins clustered around the predicted ligand-binding pocket. Functionally, these changes conferred an increase in cell adhesion in a flow chamber assay. In contrast, the two mutations in the non-adhesive CfaB subunit localized to the intersubunit interface and significantly reduced fimbrial adhesion in this assay. In conclusion, naturally occurring mutations in the ETEC adhesive and non-adhesive subunits altered function, were acquired under positive selection, and are predicted to impact bacteria-host interactions.     

猪产肠毒素大肠杆菌987P蛋白受体的鉴定

产肠毒素大肠杆菌(ETEC)定植于仔猪肠道的第一步是通过987P菌毛与小肠上皮细胞表面刷状缘大分子(BBV)结合。对分离的BBV进行SDS-PAGE和Ligand blot分析表明, 在32~35KDa区域内有一条带能被987P菌毛探针所识别和结合, 所结合的条带经胰蛋白酶消化后, 通过微内径反相高效液相色谱(RP-HPLC)分离出多条主要峰带蛋白峰带, 采用衬质辅助激光解吸与电离质谱法(MALDI-MS)对主要峰带进行分析, 结合多肽氨基酸测序和Blast同源性比较, 得到3个氨基酸基序(AETAP、ALAAAGYDVEK和LGLK), 其序列与人和鼠源的组蛋白H1高度同源; 来源于仔猪小肠上皮细胞BBV的H1蛋白与BBV一样都能特异性结合纯化的987P菌毛蛋白。上述结果表明, 仔猪小肠上皮细胞BBV的组蛋白H1是987P菌毛蛋白的受体。     

Transcriptional regulation of subclass 5b fimbriae

Background  

Enterotoxigenic Escherichia coli (ETEC) is a major cause of infant and child mortality in developing countries. This enteric pathogen causes profuse watery diarrhea by elaborating one or more enterotoxins that intoxicate eukaryotic cells and ultimately leads to a loss of water to the intestinal lumen. Virulence is also dependent upon fimbrial adhesins that facilitate colonization of the small intestine.     

肠产毒性大肠埃希菌F4ac菌毛蛋白FaeG亚单位的原核表达及免疫学鉴定

目的克隆并表达肠产毒性大肠埃希菌（ETEC）F4ac菌毛蛋白亚单位FaeG,为制备预防幼畜ETEC感染的疫苗奠定基础。方法以ETEC（C83902）基因组DNA为模板,PCR扩增faeG基因,插入原核表达质粒pGEX-6P-1,构建重组质粒pGEX-faeG。将pGEX-faeG转化大肠埃希菌BL-21I,PTG诱导表达。SDS-PAGE分析表达蛋白的相对分子质量和表达形式,Western blot鉴定其抗原性。将表达菌超声破碎后离心提取包涵体制备抗原,经口灌喂免疫小鼠,检测小鼠血清中抗FaeG的IgGI、gA,鉴定其免疫原性。结果扩增的faeG基因全长786 bp,与基因文库中的faeG基因同源性达96%。重组质粒pGEX-faeG经PCR及双酶切鉴定确有插入片段,且序列完整。表达产物FaeG相对分子质量约53 kD,主要存在于碎菌后的沉淀中,以包涵体形式表达。Western blot显示该蛋白可与ETEC F4ac阳性血清特异性结合,免疫后小鼠血清抗FaeG IgGI、gA明显高于PBS和GST对照组。结论成功构建了ETEC F4ac菌毛蛋白亚单位FaeG的重组质粒pGEX-faeC,表达了重组蛋白FaeG,该蛋白具有良好的抗原表达了重组蛋白FaeG,该蛋白具有良好的抗原性和免疫原性,可用于研制预防幼畜ETEC感染的疫苗。     

猪产肠毒素大肠杆菌987P蛋白受体的鉴定

产肠毒素大肠杆菌(ETEC)定植于仔猪肠道的第一步是通过987P菌毛与小肠上皮细胞表面刷状缘大分子(BBV)结合。对分离的BBV进行SDS-PAGE和Ligand blot分析表明, 在32~35KDa区域内有一条带能被987P菌毛探针所识别和结合, 所结合的条带经胰蛋白酶消化后, 通过微内径反相高效液相色谱(RP-HPLC)分离出多条主要峰带蛋白峰带, 采用衬质辅助激光解吸与电离质谱法(MALDI-MS)对主要峰带进行分析, 结合多肽氨基酸测序和Blast同源性比较, 得到3个氨基酸基序(AETAP、ALAAAGYDVEK和LGLK), 其序列与人和鼠源的组蛋白H1高度同源; 来源于仔猪小肠上皮细胞BBV的H1蛋白与BBV一样都能特异性结合纯化的987P菌毛蛋白。上述结果表明, 仔猪小肠上皮细胞BBV的组蛋白H1是987P菌毛蛋白的受体。     

In vivo expression of the heat stable (estA) and heat labile (eltB) toxin genes of enterotoxigenic Escherichia coli (ETEC)

Enterotoxigenic Escherichia coli (ETEC) colonize the intestine and adhere to the epithelium by means of different host specific colonization factors (CFs). Colonizing ETEC produce one or both of two enterotoxins; the heat stable (ST) and heat labile (LT) toxins which are both able to cause diarrhoea. The regulation of virulence genes in ETEC during infection of the human intestine is mainly unknown. In this study we analysed the level of mRNA expression of estA, coding for ST, and eltB, coding for the B subunit of LT, during human infection. The expressions of the toxins in ETEC strains expressing both ST and LT were investigated in bacteria isolated directly from patient stool without sub-culturing, (in vivo) and compared to the expression pattern of the corresponding ST/LT strains grown in liquid broth (in vitro) by quantitative competitive RT-PCR using fluorescent primers. We found that estA and eltB are expressed in the in vivo samples but no significant up-or down regulation of the expression levels of either estA or eltB could be determined in vivo as compared to in vitro.     

Role of fimbrial adhesins in the pathogenesis of Escherichia coli infections.

Escherichia coli strains are able to cause intestinal (enteritis, diarrhoeal diseases) and extraintestinal (urinary tract infections, sepsis, meningitis) infections. Most pathogenic E. coli strains produce specific fimbrial adhesins, which represent essential colonization factors: intestinal E. coli strains very often carry transferable plasmids with gene clusters specific for fimbrial adhesins, like K88 and K99, or colonization factor antigens (CFA) I and II. In contrast, the fimbrial gene clusters of extraintestinal E. coli strains, such as P, S, or F1C fimbriae, are located on the chromosomes. The fimbrial adhesin complexes consist of major and minor subunit proteins. Their binding specificity can generally be assayed in hemagglutination tests. In the case of fimbrial adhesins of intestinal E. coli strains, the major subunit proteins preferentially represent the hemagglutinating adhesins, whereas minor subunit proteins are the hemagglutinins of extraintestinal E. coli strains. Recently "alternative" adhesin proteins were identified, which have the capacity to bind to eukaryotic structures different from the receptors of the erythrocytes. Fimbrial adhesins are not constitutively expressed but are stringently regulated on the molecular level. Extraintestinal E. coli wild-type strains normally carry three or more fimbrial adhesin determinants, which have the capacity to influence the expression of one another (cross talk). Furthermore the fimbrial gene clusters undergo phase variation, which seems to be important for their contribution to pathogenesis of E. coli.     

Antibody response in mice immunized with a plasmid DNA encoding the colonization factor antigen I of enterotoxigenic Escherichia coli

The colonization factor antigen I (CFA/I) is one of the most epidemiologically relevant enterotoxigenic Escherichia coli (ETEC) fimbrial adhesins, which mediates the binding to human small intestine epithelium. A recombinant eukaryotic expression plasmid, pRECFA, encoding the CFA/I protein fused to the glycoprotein D of herpes simplex type 1 virus, was used to generate an antibody response in a murine model following intramuscular inoculation of purified DNA. Eukaryotic cells (BHK-21) transfected with pRECFA expressed the CFA/I protein in vitro, as revealed by Western blot and immunofluorescence microscopy. Administration of a single pRECFA 100-microg dose induced a long-term CFA/I-specific antibody response in BALB/c mice composed mainly of IgG and, to a lesser extent, IgA isotypes. The major CFA/I-specific IgG subclass was IgG2a, suggesting a Th-1-type immune response. A second dose with the same amount of purified DNA, given 2 weeks later, caused a booster effect on the immunoglobulin levels, but did not qualitatively alter the isotypes and subclasses of the induced antibody response. Immunization with different amounts of purified DNA and/or number of doses showed that maximal transient CFA/I-specific antibody levels could be obtained after two 100-microg doses of pRECFA given 2 weeks apart, but long-term antibody levels were similar.