A colorimetric assay for studying effector secretion through the bacterial type III secretion system

We have devised a colorimetric method that monitors secretion of effector proteins into host cytoplasm through the bacterial type III secretion machinery. Here we used constructs of effectors fused with Bordetella adenylate cyclase as a reporter, but evaluated the effector translocation by quantifying cell viability, rather than by measuring the intracellular cAMP concentration. This is based on our findings that cells infected by a secretion-competent bacterium expressing the fusion protein lost their viability under our experimental conditions. Cell death was quantified using commercially available reagents and basic research equipment. An observation that cell death was potentiated when the infected cells were treated with 2-deoxyglucose and sodium azide suggests that the depletion of intracellular ATP is partly involved in the process. Using enteropathogenic Escherichia coli, we demonstrated that the method was applicable to at least three effectors of bacteria, Tir, EspF, and Map, and was useful for studying a secretion signal sequence for Tir. This technically simple and inexpensive method is a good alternative to the existing procedure for studying the mechanism by which effectors are secreted through the type III secretion system in a high-throughput format.     

Comparison of Tir from enterohemorrahgic and enteropathogenic Escherichia coli strains: two homologues with distinct intracellular properties

Summary Tir of enteropathogenic Escherichia coli (EPEC) or enterohemorrahgic E. coil (EHEC) is translocated by a type III secretion system to the host cell membranes where it serves as a receptor for the binding of a second bacterial membrane protein. In response to the binding, EPEC Tir is phosphorylated at Tyr₄₇₄, and this phosphorylation is necessary for the signaling of pedestal formation. Tir of EHEC has no equivalent phosphorylation site but it is similarly needed for cytoskeleton rearrangement. How these two Tir molecules achieve their function by apparently different mechanisms is not completely clear. To examine their intrinsic differences, the two Tirs were expressed in HeLa cells and compared. Actin in complexes could be pelleted down from the lysate of cells expressing EHEC Tir but not EPEC Tir. By immunostaining, neither Tir molecule was found in phosphorylated state. In the cytoplasm, EHEC Tir was frequently found in fibrous structures whereas EPEC Tir was observed completely in a diffusive form. The determinant critical for the EHEC Tir fibrous formation was mapped to the C-terminal region of the molecule that deviates from the EPEC counterpart. This region may play a role in taking an alternative route different from Tyr₄₇₄ phosphorylation to transduce signals.     

Genetic relatedness of a non-motile variant O157 enteropathogenic Escherichia coli (EPEC) strain and E. coli strains belonging to pathogenic related groups

The study was undertaken to determine the clonal relationship and the genetic diversity among Escherichia coli isolates by comparing a non-motile O157 variant with three O157:H7 EHEC isolates and one O55:H7 enteropathogenic E. coli (EPEC) strain. E. coli strains were characterized by sorbitol phenotype, multilocus enzyme electrophoresis, pulsed-field gel electrophoresis, random amplification polymorphic DNA, and the presence of specific virulence genes (stx, E-hly and LEE genes). Sorbitol fermentation was observed in O157:H- (strain 116I), O55:H7 and O157:H7 (strain GC148) serotypes. stx1 or stx2 and E-hly genes were only detected among O157:H7 isolates. LEE typing revealed specific allele distribution: eaegamma, tirgamma, espAgamma, espBgamma associated with EPEC O55:H7 and EHEC O157:H7 strains (B1/1 and EDL 933), eaealpha, tiralpha, espAalpha, espBalpha related to the 116I O157:H- strain and the GC148 strain presented non-typable LEE sequences. Multilocus enzyme profiles revealed two main clusters associated with specific LEE pathotypes. E. coli strains were discriminated by random amplification of polymorphic DNA-polymerase chain reaction and pulsed-field gel electrophoresis methodologies. The molecular approaches used in this study allowed the determination of the genetic relatedness among E. coli strains as well as the detection of lineage specific group markers.     

Drug resistance in Indian isolates of enteropathogenic <Emphasis Type="Italic">Escherichia coli</Emphasis>

Five different strains of enteropathogenic Escherichia coli (EPEC) and one non-pathogenic strain of E. coli were studied for the determination of resistance to various antibiotics by disc inhibition test. Our results demonstrated multiple drug resistance among the selected E. coli isolates with all of them including the non-pathogenic control strain showing high resistance towards ampicillin. Our results from conjugation test clearly showed the presence of most of the antibiotic markers on the transferred plasmids. Simultaneously, the plasmid profile of conjugants also indicated the presence of more than one plasmid along with the expected megaplasmid of ~90 Kb present in them. Thus our results amply demonstrate that these drug markers are associated with these mobile plasmids.     

Lactoferrin disruption of bacterial type III secretion systems

Many gram-negative bacteria share a closely related mechanism for secretion of virulence proteins. This complex machine, the type III secretion system, secretes virulence proteins in response to sensing the presence of target mammalian cells. We have found that recombinant human lactoferrin impairs the function of this system in two model organisms: Shigella and Enteropathogenic E. coli (EPEC). In the case of Shigella, there is loss and degradation of two proteins secreted by the type III mechanism, invasion plasmid antigens B and C (IpaB and IpaC); these proteins normally form a complex that causes Shigella to be taken up by host mammalian cells. In the case of EPEC, lactoferrin causes loss and degradation of E. coli secreted proteins A, B and D (EspABD) particularly EspB. These proteins are components of type III machinery and are known to be key elements of EPEC pathogenesis. Studies using purified EspB demonstrated that lactoferrin has a direct proteolytic effect on EspB that can be prevented by serine protease inhibitors. A synthetic peptide of the N-terminal 33 amino acids of lactoferrin caused loss of cell associated EspB but, unlike the whole lactoferrin molecule, did not caused degradation of EspB. Thus, in both model systems, brief exposure to lactoferrin causes loss and degradation of type III secretion system virulence proteins.     

LamB-mediated adherence of enteropathogenic Escherichia coli to HEp-2 cells

Aims:  To establish the role of maltoporin (LamB) in adherence of enteropathogenic Escherichia coli (EPEC) to epithelial cells in vitro.
Methods and Results:  Three strains, wild type (WT) EPEC, a maltoporin (LamB) mutant ΔlamB , and DH5α were used to study adherence to cultured HEp-2 cells. Mutant ΔlamB was found to be deficient in adherence compared to WT EPEC. Adherence of ΔlamB was restored to wild type levels when complemented with the cloned lamB gene. The non–adherent strain DH5α also adhered to HEp-2 cells when it harboured the cloned lamB gene. The LamB protein was isolated from WT EPEC by electroelution and antibodies were raised in rabbits. The specificity of the antibodies was analysed by Western blotting. Anti-LamB antiserum reduced adherence of WT EPEC to HEp-2 cells. The LamB protein was coated on latex beads and the beads adhered to HEp-2 cells. Anti-LamB antiserum prevented bead adherence to HEp-2 cells. Multiple sequence alignment showed that the L9 loop of EPEC LamB had four amino acids different from the L9 loop of LamB from several other related pathogens.
Conclusions:  LamB serves as an alternative or additional adherence factor for EPEC.
Significance and Impact of the Study:  Adherence is an important component of the pathogenesis of noninvasive pathogens like EPEC. A putative adhesin such as LamB, which has already been found to be co-expressed with virulence factor EspB may be a potential vaccine candidate for control of EPEC and related pathogens.     

Molecular epidemiological study of a mass outbreak caused by enteropathogenic Escherichia coli O157:H45.

We made a molecular analysis of O157:H45 Escherichia coli isolated from a mass outbreak that occurred in Obihiro City. Using DNA analysis, we confirmed this infection case as a mass outbreak. Although the isolates expressed O157 antigen, they did not produce Vero toxin. We concluded they were enteropathogenic E. coli (EPEC) because they had a bfp gene and an EAF plasmid, and further they exhibited local adherence to HEp-2 cells. We believe this is the first report of a mass outbreak by O157 EPEC, and we suggest that PCR using eae- and bfp-specific primers and HEp-2 adherence assay are useful to identify EPEC.     

Type III secretion: the bacteria-eukaryotic cell express

Type III secretion (T3S) is an export pathway used by Gram-negative pathogenic bacteria to inject bacterial proteins into the cytosol of eukaryotic host cells. This pathway is characterized by (i) a secretion nanomachine related to the bacterial flagellum, but usually topped by a stiff needle-like structure; (ii) the assembly in the eukaryotic cell membrane of a translocation pore formed by T3S substrates; (iii) a non-cleavable N-terminal secretion signal; (iv) T3S chaperones, assisting the secretion of some substrates; (v) a control mechanism ensuring protein delivery at the right place and time. Here, we review these different aspects focusing in open questions that promise exciting findings in the near future.     

A two-stage continuous culture system to study the effect of supplemental alpha-lactalbumin and glycomacropeptide on mixed cultures of human gut bacteria challenged with enteropathogenic Escherichia coli and Salmonella serotype Typhimurium

AIMS: Certain milk factors may promote the growth of a gastrointestinal microflora predominated by bifidobacteria and may aid in overcoming enteric infections. This may explain why breast-fed infants experience fewer intestinal infections than their formula-fed counterparts. The effect of formula supplementation with two such factors was investigated in this study. METHODS AND RESULTS: Infant faecal specimens were used to ferment formulae supplemented with glycomacropeptide (GMP) and alpha-lactalbumin (alpha-la) in a two-stage compound continuous culture model. At steady state, all fermenter vessels were inoculated with 5 ml of 0.1 m phosphate-buffered saline (pH 7.2) containing 108 CFU ml-1 of either enteropathogenic Escherichia coli 2348/69 (O127:H6) or Salmonella serotype Typhimurium (DSMZ 5569). Bacteriology was determined by independent fluorescence in situ hybridization. Vessels that contained breast milk (BM), as well as alpha-la and GMP supplemented formula had stable total counts of bifidobacteria while lactobacilli increased significantly only in vessels with breast milk. Bacteroides, clostridia and E. coli decreased significantly in all three groups prior to pathogen addition. Escherichia coli counts decreased in vessels containing BM and alpha-la while Salmonella decreased significantly in all vessels containing BM, alpha-la and GMP. Acetate was the predominant acid. SIGNIFICANCE AND IMPACT OF THE STUDY: Supplementation of infant formulae with appropriate milk proteins may be useful in mimicking the beneficial bacteriological effects of breast milk.     

Isolation and characterization of Shiga toxin-producing Escherichia coli (STEC) and enteropathogenic Escherichia coli (EPEC) from calves and lambs with diarrhoea in India

AIMS: To determine the prevalence and molecular characteristics of Shiga toxin-producing Escherichia coli (STEC) and enteropathogenic E. coli (EPEC) in calves and lambs with diarrhoea in India. METHODS AND RESULTS: Faecal samples originating from 391 calves and 101 lambs which had diarrhoea were screened for presence of E. coli. A total number of 309 (249 bovine and 60 ovine) E. coli strains were isolated. A total of 113 bovine and 15 ovine strains were subjected to multiplex polymerase chain reaction (m-PCR) for detection of stx1, stx2, eaeA and EHEC hlyA genes. STEC and EPEC belonging to different serogpoups were detected in 9.73% of calves studied. Six per cent and 26.66% of lambs studied were carrying STEC and EPEC, respectively. Majority of the STEC serogroups isolated in this study did not belong to those which have been identified earlier to be associated mainly with diarrhoea and enteritis in cattle and sheep outside India. The most frequent serogroup among bovine and ovine EPEC was O26 (40%). One of the most important STEC serogroup O157, known for certain life-threatening infections in humans, was isolated from both bovine and ovine faecal samples. CONCLUSIONS: A high percentage of STEC and EPEC belonging to different serogroups are prevalent in calves and lambs with diarrhoea in India and could be the cause of disease in them. SIGNIFICANCE AND IMPACT OF THE STUDY: The study reports, for the first time, the isolation and characterization of STEC and EPEC serogroups associated with diarrhoea in calves and lambs in India. Many STEC and EPEC strains belonged to serogoups known for certain life-threatening diseases in humans.