The Fimbrial Gene z3276 in Enterohemorrhagic Escherichia coli O157:H7 Contributes to Bacterial Pathogenicity

Enterohemorrhagic Escherichia coli (EHEC) O157:H7 is a zoonotic pathogen of worldwide importance that causes foodborne infections in humans. It is not capable of expressing type I fimbrial because of base deletion in the fim operon. BLAST analysis shows that the open reading frame z3276, a specific genetic marker of EHEC O157:H7, encodes a sequence with high amino acid identity to other E. coli type I fimbrial, but its definitive function in EHEC O157:H7 remains unclear. We are here to report that a z3276 mutant (Δz3276) was constructed using the reference EHEC O157:H7, the mutant Δz3276 was biologically characterized, and the pathogenicity of Δz3276 was assessed in mice in comparison with the wild-type (WT) strain. Motility and biofilm formation assays revealed a smaller twitching motility zone for Δz3276 on the agar surface and significantly decreased biofilm formation by Δz3276 compared with the parental strain. The adhesion and invasion ability of Δz3276 to HEp-2 cells showed no significant change, but the invasion ability of Δz3276 to IPEC-J2 cells was attenuated. Furthermore, in the animal study, we observed shortened and lower fecal shedding among the Δz3276 mutant-infected animals compared with those infected WT strain. The data in this study indicate that this unique gene of z3276 in EHEC O157:H7 seems to play an important role in bacterial pathogenicity.


INTRODUCTION
Since first being recognized in 1982 following an outbreak of hemorrhagic colitis in the United States (Riley et al., 1983), Enterohemorrhagic Escherichia coli (EHEC) O157:H7 has emerged as a significant cause of serious human gastrointestinal disease worldwide (Tarr et al., 2005). The clinical manifestations of EHEC O157:H7 infections range from self-limiting diarrhea to hemorrhagic colitis, which can lead to severe complications known as hemolytic uremic syndrome, which is associated with a mortality rate of 2-10% (Kaper et al., 2004;Tarr et al., 2005;Makvana and Krilov, 2015).
Multiple fimbrials and fimbrial gene clusters have been implicated in contributing to the adherence of EHEC O157:H7 to host cells and its virulence (Li et al., 1997;Low et al., 2006;Lloyd et al., 2012;Russell et al., 2018). The hemorrhagic coli pilus of EHEC O157:H7, a type IV pilus, has been associated with intestinal adherence and invasion and can induce proinflammatory cytokine secretion in intestinal epithelial cells (Xicohtencatl-Cortes et al., 2007;Ledesma et al., 2010;Mazariego-Espinosa et al., 2010). Type I fimbrial, composite surface fibers present in various types of pathogenic E. coli (Uropathogenic E. coli and Diffusely adherent E. coli), are important bacterial adhesion organelles present in most Gramnegative bacterial strains that facilitate bacterial colonization (Epler Barbercheck et al., 2018). These fimbrial are encoded by the fim gene cluster and are exported by the chaperone/usher pathway, in which FimC is the periplasmic chaperone, FimD is the outer membrane usher, and FimA and FimH are the major structure for adhesion (Epler Barbercheck et al., 2018;Russell et al., 2018). However, EHEC O157:H7 is not able to express type I fimbrial despite containing the fim operon because of a 16-bp deletion at the 5' end of fimA and a C to A mutation at position 467 in the fimH gene (Li et al., 1997;Low et al., 2006). A 1035-bp open reading frame (ORF), named z3276, has been firstly reported in the EHEC O157:H7 genome (Perna et al., 2001). The bioinformatics studies indicated that the z3276 was properly unique in the genome and identified as a specific marker of EHEC O157:H7 (Perna et al., 2001;Ravan and Amandadi, 2015). It was used to successfully developed detection method, i.e., real-time PCR (Li and Chen, 2012;Li et al., 2017). The protein encoded by the z3276 gene shows identity to type I fimbrial, but its definitive function in EHEC O157:H7 remains unclear.
To investigate the function of Z3276, a mutant ( z3276) of EHEC O157:H7 with the z3276 gene deleted was constructed. Our results suggested that z3276 played important roles in the bacterial motility, biofilm formation, invasion of specific cell types and colonization in vivo of EHEC O157:H7.

Bacterial Strains, Plasmids, and Growth Conditions
Bacterial strains and plasmids involved in this study are presented in Table 1. E. coli C118 and SM10 strains were used to prepare the complement cells for pMEG375 and its recombinant plasmids. Theses E. coli strains were routinely grown in Luria-Bertani (LB) broth or on LB agar at 37 • C, whereas the E. coli EDL933 parent strain, the z3276 mutant strain, and the complement strain (c z3276) were cultured in tryptone soya broth (TSB) or on tryptic-soy agar (TSA) at 37 • C to prepare bacterial cultures for comparative adherence assays, invasion assay and twitching motility assay. When required, the antibiotics kanamycin (100 µg/mL), ampicillin (100 µg/mL), chloramphenicol (34 µg/mL) and/or gentamicin (50 µg/mL) were added to the media.

Cell Line Culture Conditions
To investigate the Z3276 role in the adherence and invasion to non-intestinal cells and intestinal cells, perhaps by recognition of a common surface receptor, we employed human laryngeal carcinoma cell line HEp-2 (BioVector NTCC Inc.) and porcine neonatal jejunal epithelial cell line IPEC-J2 (a gift from Dr. Zhu Guoqiang, Yangzhou University). These cells were cultured in antibiotic-free RPMI1640 medium, supplemented with 10% newborn calf serum (Sigma-Aldrich) at 37 • C in a humidified incubator in an atmosphere of 5% CO 2 .

Phylogeny Analysis of the Z2376 Amino-Acid Sequence
To explore the homology of Z2376 protein in the protein database of GenBank, its amino-acid sequence was submitted to GenBank to identify its phylogenetic relationships and conserved domain. The phylogenetic tree was generated by BLAST analysis.

Antigen Cloning, Expression, and Purification
The z3276 ORF is between 2,951,428 and 2,952,462 nucleotide of EHEC O157:H7 complete genome (GenBank, CP015855.1), far from the disabled fim operon, located in the 5,444,749 nucleotide. The PCR product of the complete ORF of z3276 with primers (P6-F/R) were amplified from chromosomal EHEC O157:H7 and introduced into pCold I to generate recombinant bacteria BL21 (DE3)/pCold I-z3276. The recombinant bacterium was grown overnight, subcultured into fresh medium, and further grown for 2 h at 37 • C; and isopropyl β-d-thiogalactopyranoside (IPTG) was added and incubation was continued for 24 h. The bacterial cultures were harvested by centrifugation and resuspended in PBS, containing 1 mM Pefabloc, 0.5 mg/mL lysozyme, 10 µg/mL DNase I, and 10 µg/mL RNase A. Cell lysates were ultrasonicated for 5 min with 30 s intervals on ice. Centrifuged supernatants were purified using His•Bind Resin Chromatography according to the manufacturer's instructions (GE Healthcare Life Sciences).

Polyclonal Antibody Preparation
For anti-recombinant Z3276 protein polyclonal antibody preparation, Jiangsu Academy of Agricultural Sciences Institutional Animal Care and Use Committee approved the animal procedures (SYXK2015-0066) in the context of the guidelines of the Jiangsu Province Animal Regulations (Government Decree No. 45). New Zealand white rabbits were obtained from Jinling rabbit Farm (Nanjing, China), housed in cages (W 50 cm, L 30 cm, H 40 cm). They were provided with food and water ad libitum. At the end of the study, they were euthanized by intravenous injection of barbiturate, exsanguinated, and blood was clotted at 37 • C for 0.5 h, chilled at 4 • C for overnight. The purified recombinant protein Z3276 was used as antigen for polyclonal antibody preparation. Polyclonal antibody against Z3276 protein was obtained by immunizing New Zealand White rabbits subcutaneously at multiple sites with approximately 0.5 mg of purified protein emulsified 1:1 in Freund's complete adjuvant. The rabbits received one booster injection with the same antigen concentration emulsified 1:1 with Freund's incomplete adjuvant 14 days later and then were bled 10 days after the booster was administered. Sera were stored in −80 • C freezer. For anti-EHEC O157:H7 polyclonal antibody preparation, Jiangsu Academy of Agricultural Sciences Institutional Animal Care and Use Committee approved the animal procedures (SYXK2013-0014) in the context of the guidelines of the Jiangsu Province Animal Regulations (Government Decree No. 45). During feeding and study, health status of mice was monitored twice a day and recorded the clinical signs (ruffled hair coat, hunched posture, and diarrhea). If animals displayed clinical signs of illness, they were euthanized by cervical dislocation. Streptomycin-treated Balb/c mice were used to orally feed 3 × 10 8 CFU live EHEC O157:H7 strain 86-24 each week for 4 weeks. Mice were bled 2 weeks after the last booster. Sera were stored in a −80 • C freezer.

Development Indirect ELISA for Detection Z3276 Expression in Vivo and in Vitro
For detection Z3276 expression in vivo, ELISAs were performed in 96-well plates (Costar, United States) coated with recombinant Z3276 antigen (0.6 µg/mL) and incubated at 4 • C overnight. Plates were washed and blocked with 1% bovine serum albumin (BSA) in phosphate buffered saline containing 0.05% Tween 20 (PBST). The mouse negative sera and anti-EHEC O157:H7 sera were, respectively, added to antigen-coated wells and incubated at 37 • C for 1 h. Sera were removed prior to adding goat antimouse IgG-HRP (1/5000 in PBST) (Boster, Wuhan, China) for 45 min at 37 • C. The substrate solution TMBS (Sigma) was added into the washed wells. After 5 min, 2 M H 2 SO 4 was used to stop the ELISA followed by read absorbance at 450 nm.
For detecting Z3276 expression in vitro, the method was the same as above, with some differences: (1) For coating antigen preparation, the EHEC O157:H7 strain 86-24 was cultured in TSB medium for 6 h, and inactivated with 0.3% formaldehyde solution at 37 • C for 24 h until no live bacteria remained. The inactivated bacteria were washed two times with 0.01 M PBS (pH = 7.4) and used as antigen for coating plate; (2) the coating concentration was 10 8 CFU/mL; (3) The primary antibody was the recombinant Z3276 protein polyclonal antibody from rabbits.

Construction of z3276 and the Complemented Strain
The mutant was generated using the suicide plasmid as described previously (Dozois et al., 2003). Briefly, DNA sequences flanking z3276 were amplified from the chromosomal DNA of EHEC O157:H7 strain EDL933 by PCR with two pairs of specific primers (P1-F/R and P2-F/R) carrying BamH I/EcoR I and Sal I/EcoR I restriction enzyme sites, respectively ( Table 2). A DNA fragment containing the gentamicin resistance-encoding gene cassette was also obtained by PCR amplification from FastBac plasmid with primers (P3-F/R) carrying EcoR I restriction enzyme sites ( Table 1). Gel-purified PCR products were cloned into pMEG375 to construct a suicide plasmid designated pMEG375-z3276FRGm, which was then transformed into E. coli strain CC118, named CC118-1. The positive plasmid pMEG375-z3276FRGm was transformed into a λpir lysogen of strain SM10, named SM10-1. The SM10-1 was hybridized with 86-24 strain on agar plate to produce z3276 mutant by homologous recombination. The z3276 was confirmed by PCR screening with z3276-specific primers (P4-F/R) ( Table 2), DNA  Table 2. The amplified 1344bp DNA fragment of the z3276 gene was inserted into the pMD19-T vector, and the recombinant plasmid was confirmed by DNA sequencing and restriction enzyme digestion. The positive pMD19-T-z3276 was introduced into the z3276 strain to overexpress the Z3276 protein for reconfirmation of its function.

Crystal Violet Biofilm Assay
A static biofilm formation assay was performed in 96-well polystyrene plates as previously reported (Lourenço et al., 2013;Eberly et al., 2017). Briefly, overnight cultures were diluted to an OD 600 of 0.05 in TSB medium and Minca medium, respectively (300 µL) and incubated for 10 h without shaking at 37 • C. After the cell density had been measured (turbidity at 630 nm), the plates were washed three times with PBS to remove all planktonic cells, and then 300 µL of 0.1% crystal violet was added to each well. After 20 min at room temperature, the microplate was emptied and washed three times with PBS. Next, 300 µL of 95% ethanol was added to resolve the stained biofilm cells. The total number of biofilm cells (absorbance at 570 nm) was measured and the total biofilm (OD 570 ) was normalized with cell growth (OD 630 ).

Bacterial Adherence to Intestinal and Non-intestinal Cells
Cell adherence assays were performed as previously described with some modifications (Segura and Gottschalk, 2002). Bacteria were centrifuged, washed twice with PBS, and resuspended at 10 7 CFU/mL in RPMI 1640 medium without antibiotics. We employed human laryngeal carcinoma cell line HEp-2 cells and porcine neonatal jejunal epithelial cell line IPEC-J2 cells. Monolayers of these cells lines grown in 24-well plates were infected at a multiplicity of infection of 10 bacteria per cell. The plates were centrifuged at 800 × g for 10 min and incubated in RPMI 1640 medium with 2% newborn calf serum for 3 h at 37 • C with 5% CO 2 . After washing three times with PBS and digesting with a mixture of 0.25% tryptase and 0.02% EDTA, adherent bacteria were plated onto sorbitol MacConkey (SMAC) agar plates to count the CFU. All assays were performed in triplicate and repeated three times. The results were expressed as the adherence rate relative to that of the WT set as 100%.

Adherence Inhibition Assays
Anti-Z3276 polyclonal antiserum, for which the sensitivity and specificity were demonstrated by western blot analysis, was made in our laboratory. Briefly, we constructed a pcold I-z3276 plasmid that could express abundant Z3276 protein in BL21 (DE3) cells. Purified Z3276 protein was used to immunize rabbits. Prior to adding onto the cell monolayer, 10 µL of the bacterial inoculum were incubated with 1:10, 1:50, and 1:100 dilutions of the anti-Z3276 and pre-immune bacterial suspensions at 37 • C with gentle agitation. The number of adherent bacteria per cell in each sample was determined by plating onto SMAC plates at 37 • C.

Invasion Assay
The procedure for the invasion assay was the same as that for the adherence assay except the one ceftriaxone (10 µg/mL) and kanamycin (100 µg/mL) were added and incubated with the cells for 2 h to kill any extracellular bacteria before digestion. To confirm that all extracellular bacteria were killed by the antibiotic, 200 µL of the final PBS wash solution was plated on SMAC agar. Invasion frequencies were calculated as the number of bacteria surviving incubation with antibiotics divided by the total number of bacteria present in the absence of the antibiotic. All assays were performed in triplicate and repeated three times. The results were expressed as the invasion rate relative to that of the WT set as 100%.

In Vivo Experiments
We used a streptomycin-treated mouse model to investigate the colonization ability of the strains. BALB/c mice were bought from experimental animal center of Yangzhou University (Yangzhou, China), housed in microisolator cages, provided with food and water ad libitum. To the study, the health status of mice was monitored twice a day and recorded the clinical signs (ruffled hair coat, hunched posture, and diarrhea). Thirty 6-week-old female BALB/c mice (n = 30) were divided into three groups and orally challenged, after anesthetized by inhaling diethyl ether, with WT, z3276, and c z3276 strains at a dose of 10 10 CFU in PBS, respectively. Mice infected with sterile PBS were used as controls. Fecal samples were taken on alternate days to monitor for shedding over 2 weeks.

Twitching Motility Assay
Motility assays were performed as described previously with some modifications (Mattick, 2002). Briefly, 100 µL of an overnight culture was re-inoculated into 5 mL of sterile TSB and incubated at 37 • C without shaking until logarithmic phase. One microliter of each bacterial culture was dropped onto semisolid agar plates, which were incubated for 20 h at 37 • C before analysis. Motility was observed by measuring the diameter of the motility halo. Non-motile strains grew only at the site of inoculation.

Statistical Analysis
Where appropriate, data were expressed as the mean ± SEM. The difference from two groups was analyzed using the Student's t-test and GraphPad Prism 5 software.

Phylogeny Analysis of Z2376 Protein
The BLAST analysis indicates that Z3276 amino-acid sequence has high identity between 91 and 100% to fimbrial proteins in GenBank (Figure 1), suggesting a conserved fimbrial domain in the Z3276 protein.

Protein Expression and Purification
Recombinant plasmid pCold I-z3276 was sequenced to indicate that z3276 has 100% identity to reference sequences (GenBank CP015855.1) using Genscript Biotechnology, Co., Ltd. (Nanjing, China). Recombinant bacteria BL21/pCold I-z3276 was induced by IPTG. SDS-PAGE showed that recombinant Z3276 (33 kDa) was successfully expressed with 35% proportion to whole bacterial protein in contrast to naïve bacteria.

Indirect ELISA for Detection Z3276 Expression in Vivo and in Vitro
The ELISA plate coated with Z3276 was used to incubate with anti-EHEC O157:H7 sera and negative sera. The anti-EHEC O157:H7 sera gave an OD450 value greater than 1.0, compared with lower OD450 values from negative sera ( Table 3). The detection data indicated Z3276 protein could express in vivo and perhaps on the bacterial surface.
The ELISA plate coated with the inactivated EHEC O157:H7 was used to incubation with anti-Z3276 sera and negative sera. The anti-EHEC O157:H7 sera gave OD450 value was greater than 1.0, compared with lower OD450 value from negative sera ( Table 4). The detection data indicated Z3276 protein could express under the experimental conditions.

Construction of a z3276-Defective Mutant
The z3276 mutant was constructed by homologous recombination and was confirmed by PCR (Figure 2A) FIGURE 1 | Phylogenetic relationships between Z3276 protein and other fimbrial proteins. The phylogenetic tree was generated by BLAST in GenBank with Z3276 protein (yellow) encoded by the entire z3276 gene from EHEC O157:H7 genome. The scale bar represents 0.01 nucleotide substitutions per site.
Frontiers in Microbiology | www.frontiersin.org and Western blot analysis ( Figure 2B). PCR results confirmed that the z3276 mutant was negative for z3276 gene, and no reaction was detected between z3276 and anti-Z3276 serum by the Western blot assay. In term of growth stability, the z3276 and c z3276 strains could be subcultured very well at least for 20 passages.

Z3276 Contributes to Biofilm Formation
To test whether Z3276 was important for biofilm formation by EHEC O157:H7 on abiotic substrata, we compared the abilities of the WT, z3276, and c z3276 strains to form biofilms in 96-well polystyrene plates. The results indicated that z3276 was reduced in its ability to form biofilms compared with the WT strain and complemented strains (Figure 3) regardless of culture media used. Mutant strains lost more abilities to form biofilms when cultured in TSB medium (P < 0.01) than in Minca medium (P < 0.05). Complemented strains regained stronger biofilm-forming abilities in a greater extent than WT strains had (P > 0.05).

Expression of Z3276 Could Trigger the Invasion of IPEC-J2 Cells
Invasion of host cells is a crucial step in bacterial pathogenesis. Compared with the WT strain, we found no change in the rate of invasion of HEp-2 cells for the z3276 mutant (P > 0.05), whereas an 81% reduction in invasion of IPEC-J2 cells was observed for the z3276 mutant (P < 0.05) (Figure 5). These results indicated that z3276 may be involved in the pathogenicity of EHEC O157:H7 in specific cell types.

z3276 Mutant Showed Decreased Colonization in Mice
After treating mice with streptomycin (5 g/L for the first 3 days and then 0.5 g/L) and mitomycin C (2.5 mg/kg) to enhance their sensitivity (Zhang et al., 2011(Zhang et al., , 2014, we challenged with the WT and z3276 via oral-gastric inoculation. The results revealed shortened and lower fecal shedding for the z3276 compared with the WT strain (P < 0.05) (Figure 6), which indicated that Z3276 protein may be involved in colonization in vivo.

Motility of the 86-24 WT and the z3276 Mutant Strains
Twitching motility is a phenomenon associated with virulence in many Gram-negative bacteria (Mattick, 2002), and is mediated by the retraction and extension of flexible pili by bacteria growing on a semi-solid surface. In this study, both the WT and z3276 were motile on agar. A 15-mm twitching motility zone on the semisolid agar surface was observed for the WT, compared with a 50% reduction in the zone for the z3276 mutant strain (P < 0.05) (Figure 7).

DISCUSSION
EHEC is a zoonotic pathogen, of which O157:H7 is the most important serotype responsible for a number of outbreaks in  The experiment was performed in triplicate, and data represent the mean ± SEM of three independent experiments. * Indicates significance at P < 0.05; * * Indicates extreme significance at P < 0.01. strain to HEp-2 and IPEC-J2 cells reduced after pre-incubation with blocking antibody (1:2 and 1:10 dilution). The WT strain adhesion index was assumed to be 100%. The results shown are the means + SEM of three independent experiments. * Indicates significance at P < 0.05, * * and * * * Indicate extreme significance at P < 0.01 and P < 0.001. animals, poultry, and humans worldwide, leading to serious public health concern. The locus of enterocyte Effacement Island, a prophage producing two Shiga toxins and a 60 MDa virulence plasmid pO157 are considered the major determinants of EHEC O157:H7 pathogenesis (Sjogren et al., 1994;Schmedt et al., 1996). EspP was recently recognized as a new member of the serine protease autotransporters of Enterobacteriaceae family and, contributing to increased hemorrhaging into the intestinal tract (Khan et al., 2009) and evasion from immune system-mediated elimination (Orth et al., 2010). In addition to above-mentioned FIGURE 5 | The ability of z3276 to invade IPEC-J2 cells was decreased compared with the wild-type strain. Ceftriaxone (10 µg/mL) and kanamycin (100 µg/mL) were added to ensure that only intracellular bacteria were obtained. The WT strain adhesion index was assumed to be 100%. The results shown are the means ± SEM of three independent experiments. * * Indicates extreme significance at P < 0.01.  defining virulence factors of EHEC O157:H7, there are other factors that may also contribute to its pathogenicity.
Increasing evidence suggests that fimbrial play an important role in the initial stages of EHEC O157:H7 infections (Xicohtencatl-Cortes et al., 2007). Martinez and coworkers showed that the tip adhesin Fim H of type 1 fimbrial was sufficient to trigger invasion of uropathogenic E. coli into bladder epithelial cells (Martinez et al., 2000). However, the potential role of type 1 fimbrial in the pathogenicity of EHEC O157:H7 has not been reported, due to a nucleotide deletion and mutation in the fim operon encoding type 1 fimbrial (Li et al., 1997). Among the complete genome sequences available in current databases, the z3276 gene was only detected in EHEC O157:H7 (Li and Chen, 2012), and its amino acid sequence showed high homology with other E. coli type I fimbrial. Therefore, it is possible that z3276-encoding protein is a compensatory mechanism for type I fimbrial.
Biofilms help bacteria colonize inert surfaces, whilst protecting the bacterial cells from the host immune defense system as well as from antibiotic drugs (Gocer et al., 2017;Russell et al., 2018). In this study, an obvious reduction in biofilm formation was observed with a z3276 mutant compared with the WT strain in modified Minca medium and TSB, but no change was detected in Mueller-Hinton broth (MHB), brain heart infusion broth (BHI) or LB broth, suggesting that Z3276 production in vivo may be modulated by the composition of the medium and other conditions. Candida albicans biofilms are highly resistant to the actions of clinically important antifungal agents due to major multidrug efflux pumps encoded by C. albicans and the important role of biofilms in the drug resistance of planktonic cells (Cao et al., 2005). Moreover, E. coli biofilm bacteria showed weaker inflammatory responses and enhanced resistance to some antimicrobial peptides, and the increased in vivo survival of biofilm bacteria in a clinically relevant model of catheter infection has been reported (Lloyd et al., 2012;Chalabaev et al., 2014). Therefore, we can speculate that the z3276 gene in EHEC may confer the bacterium with resistance against antibiotics, thereby increasing its survival time in the host or the environment, which is critical to the transmission and infection.
Adherence is the first step in bacterial invasion. In the present study, we explored whether Z3276 plays a role in the adherence between the bacteria and cultured intestinal (IPEC-J2 cells) and non-intestinal (HEp-2 cells) epithelial cells. Qualitative analysis from IPEC-J2 cells infected with z3276 and WT showed no significant difference in the levels of adherence, with values of 1.2 × 10 5 CFU/mL and 1.6 × 10 5 CFU/mL, respectively. The same result was observed with HEp-2 cells. One possibility is that HEp-2 cells and IPEC-J2 cells do not possess a suitable receptor to interact with z3276-encoding protein, however, z3276-encoding protein may contribute to the adherence to other cell types or to abiotic surfaces. For instance, the z3276 and its parental strain showed similar levels of invasion of HEp-2 cells. In contrast, the z3276 mutant showed 81% decrease in invasion ability to IPEC-J2 cells compared with the WT strain. Thus, we speculate that there might be certain moieties that can recognize Z3276 specifically and "carry" the bacterium into cells.
A mouse model was used to evaluate the colonization ability of the z3276 and the WT strains in vivo. The data of the animal study demonstrated that the z3276-infected mice rendered the animals lower bacterial counts and higher clearance efficiency, indicating that the ability of z3276 mutant to colonize the host and thereby survive in the host was impaired. This may be partially due to the reduced capacity to invade epithelial cells. The z3276 gene in EHEC may encode a fimbrial protein, or termed as tip adhesin (in the distal end of the pili), which has been previously reported to mediate the specific attachment to tissues or surfaces (Lindberg et al., 1987;Kaper et al., 2004;Low et al., 2006;Gu, 2017).
Besides as a colonization factor, Z3276 was also shown here to be involved in the twitching motility of EHEC O157:H7. This property may contribute to the pathogenicity of EHEC O157:H7, as it has been demonstrated that flagellum/fimbrial-mediated motility is essential for enhancing pathogen-host interactions and for promoting the subsequent adherence and colonization of several other Gram-negative pathogens (La Ragione et al., 2000;Wright et al., 2007;Mahajan et al., 2009).
In summary, this study confirmed that the z3276 gene in EHEC O157:H7 encodes multifunctional structures with properties that may contribute to host colonization and bacterial survival in the environment.