Exocytotic secretion of toxins from macrophages infected with Escherichia coli O157

This study examined whether macrophages are involved in the development of pathogenicity in Shiga-like toxin (SLT)-producing enterohemorrhagic Escherichia coil (EHEC) O157:H7. Macrophages were infected with the bacteria, after which the macrophage culture medium showed a clear increase in toxicity in rats in vivo as well as in rat aortic endothelial cells in vitro. The increased toxicity resulted mainly from a rapid increase in the concentrations of SLT type I (SLT-I) and type II (SLT-II) and partly from an increase in concentrations of the proinflammatory cytokines, tumor necrosis factor alpha (TNFalpha) and interleukin-1 (IL-1), in the culture medium. Most of the EHEC O157 added to the macrophage culture were quickly incorporated to form phagosomes, which then fused with lysosomes to become phagolysosomes. During this intracellular digestion process, the EHEC O157 remained alive for about 15 min, and continued synthesizing and secreting the toxins SLT-1 and SLT-II. The bacteria were then killed and digested in the phagolysosomes with significant amounts of the toxins retained. Subsequently, the contents of the phagolysosomes were exocytotically secreted from the macrophage cell membrane into the surrounding culture medium. Such a sequence of events in macrophages may occur in vivo, suggesting the active involvement of macrophages in the rapid increase in pathogenicity, such as seen in the onset of hemolytic-uremic syndrome (HUS) in patients infected with EHEC O157. The exocytotic secretion is considered to be one of the most basic cellular functions in macrophages.     

Adhesion and colonization of enterohemorrhagic Escherichia coli O157:H7 in cecum of mice

Infectious diseases due to enterohemorrhagic Escherichia coli (EHEC) are characterized by diarrhea, hemorrhagic colitis and hemolytic uremic syndrome. The adherence of EHEC on intestinal epithelial cells is a first step for developing these diseases. In the present study, we examined whether EHEC O157:H7 adhere to intestinal epithelial cells of mice and cause F-actin accumulation in the epithelial cells following the intragastric inoculation of the pathogen. Fecal shedding of the EHEC O157:H7 strain was observed in ICR mice up to 3 weeks. Fecal shedding periods of the type III secretion system-related gene (espA and sepL) deletion mutants were clearly shorter than that of the wild-type EHEC O157:H7 strain. The EHEC O157:H7 colonies were found on the epithelial surfaces of the ceca in association with F-actin accumulation beneath the attached bacteria.     

Prevention of intestinal infection by glycomacropeptide

The preventive effects of glycomacropeptide (GMP) against intestinal infection were investigated, and conjugates of GMP with xylooligosaccharide (XOS) and carboxymethyldextran (CMD) were prepared by the Maillard reaction to enhance the effect of GMP. The binding ability of GMP to intestinal pathogenic bacteria was evaluated by a binding assay with biotinylated bacteria. GMP showed the ability to bind to Salmonella enteritidis and enterohemorrhagic Escherichia coli O157:H7 (EHEC O157). This binding ability was decreased by a sialidase treatment and completely eliminated by periodate oxidation. These results indicate that such carbohydrate moieties as sialic acid in GMP are involved in binding to S. enteritidis and EHEC O157. The preventive effect of GMP on the adhesion of pathogenic bacteria to Caco-2 cells was also investigated. GMP showed an inhibitory effect on the adhesion of EHEC O157 in a dose-dependent manner, although it was not a potent inhibitor of the adhesion of Salmonella infection. However, in the case of Salmonella infection, GMP-XOS and GMP-CMD significantly suppressed IL-8 production which was the index of infection. Our results indicate GMP to be a promising agent for preventing intestinal infection.     

EHEC 的新型粘附因子研究进展*

摘要：肠出血性大肠杆菌（enterohemorrhage ，EHEC）是一种重要的人畜共患病，世界各地包括中国都有不同规模的暴发流 行。EHEC有多种血清型，其中毒力最强血清型是O157：H7。EHEC O157：H7 感染除可使人发生常规腹泻外，还可在5%-10%的病 例中引发严重并发症，甚至死亡。该菌是重要的食源性致病菌，危害严重，缺乏有效的防治手段，而抗生素治疗可能会加剧溶血性 尿毒症（haemolutic uraemic syndrome，HUS）。由于以上特点EHEC O157：H7 成为世界公共卫生问题，引起微生物学家和公共卫生 工作者的广泛关注。目前，临床针对EHEC 感染只是对症治疗和适当的抗菌治疗。粘附是EHEC感染宿主细胞的第一步，没有这 一步，细菌和宿主肠道细胞之间不会发生任何的相互作用，而且对于许多病原菌来说，粘附具有宿主特异性。本文概述了EHEC 的流行病学及粘附机理，并对近年在EHEC 研究中的发现一些新型粘附因子和一些假设的定植因子的研究背景及作用机理作一 综述。     

The effect of probiotic treatment with Clostridium butyricum on enterohemorrhagic Escherichia coli O157:H7 infection in mice

Enterohemorrhagic Escherichia coli (EHEC) O157:H7 has been considered as an agent responsible for outbreak of hemorrhagic colitis and the hemolytic uremic syndrome. We examined the effect of the probiotic agent Clostridium butyricum MIYAIRI strain 588 on EHEC O157:H7 infections in vitro and in vivo using gnotobiotic mice. The growth of EHEC O157:H7 and the production of Shiga-like toxins in broth cultures were inhibited by co-incubation with C. butyricum. The antibacterial effects of butyric and lactic acid were demonstrated in a dose-dependent manner. In addition, the inhibitory effect of butyric acid on the viability of EHEC was demonstrated not only at low pH, but also at neutral pH adjusted to 7.0. Flowcytometric analysis showed that pre-incubation of Caco-2 cells with C. butyricum and E. coli K12 inhibited the adhesion of EHEC O157:H7. However, the effect of C. butyricum on adhesion of EHEC to Caco-2 cells was more inhibitory than that of E. coli K12. Gnotobiotic mice mono-associated with EHEC O157:H7 died within 4-7 days after the infection. On the other hand, all gnotobiotic mice prophylactically pre-treated with C. butyricum survived exposure to EHEC O157:H7 and of the gnotobiotic mice therapeutically post-treated with C. butyricum, 50% survived. Both counts of EHEC O157:H7 and the amounts of shiga-like toxins (Stx1 and Stx2) in fecal contents of gnotobiotic mice di-associated with EHEC O157:H7 and C. butyricum were less than those of gnotobiotic mice mono-associated with EHEC O157:H7. These results indicated that the probiotic bacterium C. butyricum MIYAIRI strain 588 has preventive and therapeutic effects on EHEC O157:H7 infection in gnotobiotic mice.     

长春地区家禽（家畜）中E．coli O157：H7调查

为了通过对宿主动物EHEC O157∶H7监测,了解长春地区肠出血性大肠埃希菌O157∶H7的污染状况,建立流行病学监测网,以便为疾病预防控制提供良好的科学依据.结果在采集的639份家禽、家畜粪便样品中共检出7株EHEC O157∶H7.     

长春地区家禽(家畜)中E.coli O157∶H7调查

为了通过对宿主动物EHEC O157∶H7监测,了解长春地区肠出血性大肠埃希菌O157∶H7的污染状况,建立流行病学监测网,以便为疾病预防控制提供良好的科学依据。结果在采集的639份家禽、家畜粪便样品中共检出7株EHEC O157∶H7。     

Enterohaemorrhagic Escherichia coli O157:H7 Shiga‐like toxin 1 is required for full pathogenicity and activation of the p38 mitogen‐activated protein kinase pathway in Caenorhabditis elegans

Enterohaemorrhagic Escherichia coli (EHEC) causes life‐threatening infections in humans as a consequence of the production of Shiga‐like toxins. Lack of a good animal model system currently hinders in vivo study of EHEC virulence by systematic genetic methods. Here we applied the genetically tractable animal, Caenorhabditis elegans, as a surrogate host to study the virulence of EHEC as well as the host immunity to this human pathogen. Our results show that E. coli O157:H7, a serotype of EHEC, infects and kills C. elegans. Bacterial colonization and induction of the characteristic attaching and effacing (A/E) lesions in the intact intestinal epithelium of C. elegans by E. coli O157:H7 were concomitantly demonstrated in vivo. Genetic analysis indicated that the Shiga‐like toxin 1 (Stx1) of E. coli O157:H7 is a virulence factor in C. elegans and is required for full toxicity. Moreover, the C. elegans p38 mitogen‐activated protein kinase (MAPK) pathway, anevolutionarily conserved innate immune and stress response signalling pathway, is activated in the regulation of host susceptibility to EHEC infection in a Stx1‐dependent manner. Our results validate the EHEC–C. elegans interaction as suitable for future comprehensive genetic screens for both novel bacterial and host factors involved in the pathogenesis of EHEC infection.     

Green Tea Extract (Camellia sinensis) Fermented by Lactobacillus fermentum Attenuates Alcohol-Induced Liver Damage

The preventive effects of glycomacropeptide (GMP) against intestinal infection were investigated, and conjugates of GMP with xylooligosaccharide (XOS) and carboxymethyldextran (CMD) were prepared by the Maillard reaction to enhance the effect of GMP. The binding ability of GMP to intestinal pathogenic bacteria was evaluated by a binding assay with biotinylated bacteria. GMP showed the ability to bind to Salmonella enteritidis and enterohemorrhagic Escherichia coli O157:H7 (EHEC O157). This binding ability was decreased by a sialidase treatment and completely eliminated by periodate oxidation. These results indicate that such carbohydrate moieties as sialic acid in GMP are involved in binding to S. enteritidis and EHEC O157. The preventive effect of GMP on the adhesion of pathogenic bacteria to Caco-2 cells was also investigated. GMP showed an inhibitory effect on the adhesion of EHEC O157 in a dose-dependent manner, although it was not a potent inhibitor of the adhesion of Salmonella infection. However, in the case of Salmonella infection, GMP–XOS and GMP–CMD significantly suppressed IL-8 production which was the index of infection. Our results indicate GMP to be a promising agent for preventing intestinal infection.     

Changes in Pulsed-Field Gel Electrophoresis Patterns in Clinical Isolates of Enterohemorrhagic Escherichia coli O157:H7 Associated with Loss of Shiga Toxin Genes

Pulsed-field gel electrophoresis (PFGE) of XbaI-digested DNA fragments of enterohemorrhagic Escherichia coli (EHEC) O157:H7 strains showed disappearance of a 70- or 80-kb fragment in their patterns associated with loss of Shiga toxin genes during maintenance or subcultivation. Hybridization experiments with a DNA probe complementary to Shiga toxin sequences revealed that the Shiga toxin genes in the parental strain were located on fragments the same size as the lost fragments from the toxin-negative derivatives. The evidence indicates that PFGE pattern of EHEC O157:H7 may change due to loss of Shiga toxin genes, which is likely to be associated with curing of Shiga toxin gene carrying phages in vitro. Received: 4 May 1998 / Accepted: 19 August 1998     

出血性大肠杆菌O157基因缺失疫苗株的构建及其免疫

出血性大肠杆菌O157感染是重要的新发食物源性传染病,主要致病特征之一是能引起人肠上皮细胞特征性的A/E损伤,A/E损伤主要是由LEE致病岛所编码的毒力因子所引起,ler是LEE致病岛毒力基因群的中心调节基因,对LEE致病岛所编码的毒力因子有正调控作用。O157:H7另一个毒力因子是由整合到染色体上的原噬菌体编码的Stx毒素。以O157:H786-24为始发菌株,利用自杀性质粒pCVD442和同源重组的原理构建了O157:H7的ler基因缺失突变菌株(缺失了ler基因中第73-351位的碱基,共279bp),并利用噬菌体消除技术筛选到消除了编码Stx的原噬菌体DNA的菌株,构建出了O157:H7ler/stx基因缺失突变弱毒菌株,并对该菌株的Vero细胞毒性、小鼠模型的安全性以及乳鼠的被动免疫保护作用进行了研究。结果表明,O157:H7ler/stx基因缺失突变菌株丧失了对Vero细胞的毒性作用,并丧失了对实验小鼠的致病性,具有良好的安全性。乳鼠被动免疫保护性实验表明,用该菌株免疫母鼠后,乳鼠通过吸吮母乳可以获得良好的被动免疫保护作用。因此本研究所构建的O157:H7ler/stx基因缺失突变弱毒菌株可作为预防EHEC O157:H7感染的疫苗候选株,为最终研究制出O157的基因工程菌苗奠定基础。     

Protection from Hemolytic Uremic Syndrome by Eyedrop Vaccination with Modified Enterohemorrhagic E. coli Outer Membrane Vesicles

We investigated whether eyedrop vaccination using modified outer membrane vesicles (mOMVs) is effective for protecting against hemolytic uremic syndrome (HUS) caused by enterohemorrhagic E. coli (EHEC) O157:H7 infection. Modified OMVs and waaJ-mOMVs were prepared from cultures of MsbB- and Shiga toxin A subunit (STxA)-deficient EHEC O157:H7 bacteria with or without an additional waaJ mutation. BALB/c mice were immunized by eyedrop mOMVs, waaJ-mOMVs, and mOMVs plus polymyxin B (PMB). Mice were boosted at 2 weeks, and challenged peritoneally with wild-type OMVs (wtOMVs) at 4 weeks. As parameters for evaluation of the OMV-mediated immune protection, serum and mucosal immunoglobulins, body weight change and blood urea nitrogen (BUN)/Creatinin (Cr) were tested, as well as histopathology of renal tissue. In order to confirm the safety of mOMVs for eyedrop use, body weight and ocular histopathological changes were monitored in mice. Modified OMVs having penta-acylated lipid A moiety did not contain STxA subunit proteins but retained non-toxic Shiga toxin B (STxB) subunit. Removal of the polymeric O-antigen of O157 LPS was confirmed in waaJ-mOMVs. The mice group vaccinated with mOMVs elicited greater humoral and mucosal immune responses than did the waaJ-mOMVs and PBS-treated groups. Eyedrop vaccination of mOMVs plus PMB reduced the level of humoral and mucosal immune responses, suggesting that intact O157 LPS antigen can be a critical component for enhancing the immunogenicity of the mOMVs. After challenge, mice vaccinated with mOMVs were protected from a lethal dose of wtOMVs administered intraperitoneally, conversely mice in the PBS control group were not. Collectively, for the first time, EHEC O157-derived mOMV eyedrop vaccine was experimentally evaluated as an efficient and safe means of vaccine development against EHEC O157:H7 infection-associated HUS.     

Protective effects of lactoferrin chimera and bovine lactoferrin in a mouse model of enterohaemorrhagic Escherichia coli O157:H7 infection

Mice orally infected with enterohaemorrhagic Escherichia coli (EHEC) O157:H7 were used to evaluate the activity of bovine lactoferrin (bLF) and the synthetic peptide LFchimera. Groups of BALB/c mice inoculated intragastrically with EHEC O157:H7 showed chronic intestinal infection with the pathogen that persisted over 6 days and resulted in a high mortality rate (90%). LFchimera and kanamycin significantly decreased (40%) this mortality rate (P = 0.028). On the other hand, although mice administered with bLF showed an important reduction in mortality (50%), this was not statistically significant (P = 0.070). In infected and untreated mice, severe tubular necrosis, glomerular lesions, and moderate intratubular hyaline casts were found in the kidney. However, in the bLF and LFchimera groups we found a reduction in the damage and a substantial decrease in the bacterial concentration excreted in feces 48 h after infection. Furthermore, sepsis caused by EHEC was reduced by the treatments, evidenced by the fact that bacteria were not detected in the kidney or liver 72 h after infection. The results suggest the bLF and LFchimera could have potential as therapeutics in EHEC infections.     

Optimizing the Protection of Cattle against Escherichia coli O157:H7 Colonization through Immunization with Different Combinations of H7 Flagellin,Tir, Intimin-531 or EspA

Enterohemorrhagic Escherichia coli (EHEC) are important human pathogens, causing hemorrhagic colitis and hemolytic uraemic syndrome in humans. E. coli O157:H7 is the most common serotype associated with EHEC infections worldwide, although other non-O157 serotypes cause life-threatening infections. Cattle are a main reservoir of EHEC and intervention strategies aimed at limiting EHEC excretion from cattle are predicted to lower the risk of human infection. We have previously shown that immunization of calves with recombinant versions of the type III secretion system (T3SS)-associated proteins EspA, intimin and Tir from EHEC O157:H7 significantly reduced shedding of EHEC O157 from experimentally-colonized calves, and that protection could be augmented by the addition of H7 flagellin to the vaccine formulation. The main aim of the present study was to optimize our current EHEC O157 subunit vaccine formulations by identifying the key combinations of these antigens required for protection. A secondary aim was to determine if vaccine-induced antibody responses exhibited cross-reactive potential with antigens from other EHEC serotypes. Immunization with EspA, intimin and Tir resulted in a reduction in mean EHEC O157 shedding following challenge, but not the mean proportion of calves colonized. Removal of Tir resulted in more prolonged shedding compared with all other groups, whereas replacement of Tir with H7 flagellin resulted in the highest levels of protection, both in terms of reducing both mean EHEC O157 shedding and the proportion of colonized calves. Immunization of calves with recombinant EHEC O157 EspA, intimin and Tir resulted in the generation of antibodies capable of cross-reacting with antigens from non-O157 EHEC serotypes, suggesting that immunization with these antigens may provide a degree of cross-protection against other EHEC serotypes. Further studies are now required to test the efficacy of these vaccines in the field, and to formally test the cross-protective potential of the vaccines against other non-O157 EHEC.     

Heparin blocks the adhesion of E. coli O157:H7 to human colonic epithelial cells

Adhesion of Shiga toxin-producing Enterohemorrhagic Escherichia coli (EHEC) O157:H7 to human colonic epithelium is a critical step for infection by this type of bacteria. Here, we demonstrate that adherence of EHEC O157:H7 to cultured human colonic T84 epithelial monolayers can be blocked by heparin and heparan sulfate in a dose-dependent fashion. In doing this, heparin and heparan sulfate also prevent dysfunction of the T84 barrier and disorganization of epithelial tight junction protein ZO-1 caused by EHEC O157:H7. This inhibition by heparin and heparan sulfate seems to result from a block in the binding interactions of bacteria intimin with epithelial β₁ integrins. This study provides evidence, for the first time, that heparin and heparan sulfate can serve as novel effective blockers in preventing EHEC O157:H7 infection.     

Crystal structure of EHEC intimin: insights into the complementarity between EPEC and EHEC

Enterohaemorrhagic E. coli (EHEC) O157:H7 is a primary food-borne bacterial pathogen capable of causing life-threatening human infections which poses a serious challenge to public health worldwide. Intimin, the bacterial outer-membrane protein, plays a key role in the initiating process of EHEC infection. This activity is dependent upon translocation of the intimin receptor (Tir), the intimin binding partner of the bacteria-encoded host cell surface protein. Intimin has attracted considerable attention due to its potential function as an antibacterial drug target. Here, we report the crystal structure of the Tir-binding domain of intimin (Int188) from E. coli O157:H7 at 2.8 Å resolution, together with a mutant (IntN916Y) at 2.6 Å. We also built the structural model of EHEC intimin-Tir complex and analyzed the key binding residues. It suggested that the binding pattern of intimin and Tir between EHEC and Enteropathogenic E. coli (EPEC) adopt a similar mode and they can complement with each other. Detailed structural comparison indicates that there are four major points of structural variations between EHEC and EPEC intimins: one in Domain I (Ig-like domain), the other three located in Domain II (C-type lectin-like domain). These variations result in different binding affinities. These findings provide structural insight into the binding pattern of intimin to Tir and the molecular mechanism of EHEC O157: H7.     

Use of immunoglobulin enriched bovine colostrum against oral challenge with enterohaemorrhagic Escherichia coli O157:H7 in mice

An immunoglobulin enriched bovine colostrum preparation, IMMULAC (New Zealand Dairy Group, Cambridge, New Zealand), contains antibodies against various bacterial antigens. In the present study, we investigated the protective effects of a commercial bovine colostrum preparation against infections with enterohaemorrhagic Escherichia coli (EHEC) O157:H7 in a murine model. Balb/c mice were given drinking water containing streptomycin for 3 days before and following oral challenge with streptomycin-resistant EHEC O157:H7 strain (O157-SM(R)). In mice pretreated with streptomycin, EHEC O157:H7 maintained stable levels of bacterial colonization in the intestines for the 3-week experimental time period. Oral administration of colostrum resulted in rapid decrease in the bacteria numbers compared with administration of skim-milk. Colostrum showed no direct in vitro bactericidal properties against either EHEC O157:H7. When sections prepared from cecum walls of streptomycin-pretreated mice were incubated in vitro with EHEC O157:H7, the colostrum significantly prevented the attachment of the organisms to the sections when compared with skim-milk. These results indicate that oral administration of bovine colostrum effectively protects mice against food-borne infections by inhibiting bacterial attachment to the intestinal mucous membrane, colonization and growth in the intestinal tract.     

EHEC的新型粘附因子研究进展

肠出血性大肠杆菌（enterohemorrhage E-coli,EHEC）是一种重要的人畜共患病,世界各地包括中国都有不同规模的暴发流行。EHEC有多种血清型,其中毒力最强血清型是0157：H7。EHEC0157：H7感染除可使人发生常规腹泻外,还可在5％-10％的病例中引发严重并发症,甚至死亡。该菌是重要的食源性致病菌,危害严重,缺乏有效的防治手段,而抗生素治疗可能会加剧溶血性尿毒症（haemoluticuraemicsyndrome,HUS）。由于以上特点EHEC0157：H7成为世界公共卫生问题,引起微生物学家和公共卫生工作者的广泛关注。目前,临床针对EHEC感染只是对症治疗和适当的抗茵治疗。粘附是EHEC感染宿主细胞的第一步,没有这一步,细菌和宿主肠道细胞之间不会发生任何的相互作用,而且对于许多病原菌来说,粘附具有宿主特异性。本文概述了EHEC的流行病学及粘附机理,并对近年在EHEC研究中的发现一些新型粘附因子和一些假设的定植因子的研究背詈及作用机理作一综述。