Adhesion of enterotoxigenic Escherichia coli to human small intestinal enterocytes.

An improved enterocyte adhesion assay has been used to examine a collection of 44 strains of enterotoxigenic Escherichia coli (ETEC) for their ability to adhere to the brush border of isolated human duodenal enterocytes. Fourteen strains showed good adhesion; in each case the ability to adhere correlated with the production of colonization factor antigen I or II (CFA/I or CFA/II) fimbriae. CFA/II-positive producing coli surface antigens 1 and 3 (CS1 and CS3), coli surface antigens 2 and 3 (CS2 and CS3), and only coli surface antigen 3 (CS3) each showed good adhesion. CS3-mediated brush border attachment of CFA/II-positive ETEC was demonstrated by electron microscopy with monospecific antibody and an immunogold labeling technique. One CFA/I-positive ETEC strain was nonadherent in the assay, as were ETEC producing type 1 somatic fimbriae. Five animal ETEC strains producing K88, K99, F41, and 987P fimbriae were slightly more adhesive than control strains, but adhesion was significantly less than that of CFA-positive ETEC. Twenty five human ETEC strains that lacked CFA/I and CFA/II were nonadherent, suggesting either that the surface antigens responsible for adhesion to human intestinal mucosa in these strains were not being produced or that mucosal receptors for these strains are present in regions of the small intestine other than the duodenum.     

Colonization factors of enterotoxigenic Escherichia coli isolated from children with diarrhea in Argentina.

A prospective study was performed to evaluate the presence of colonization factor antigens (CFAs) in enterotoxigenic Escherichia coli (ETEC) strains isolated from 1,211 children with diarrhea in Argentina. One hundred nine ETEC strains that were isolated from seven different laboratories in various regions of the country were tested for CFAs by using monoclonal antibodies against CFA/I and E. coli surface antigens CS1, CS2, and CS3 of CFA/II and CS4 and CS5 of CFA/IV; a polyclonal antiserum against CS6 was used. The CFAs searched for were found in 52% of the ETEC strains: 23% of the strains carried CFA/I, 17% carried CFA/IV, and 12% carried CFA/II. All of the CFA/I strains produced heat-stable enterotoxin, and several of them were of the prevalent serotypes O153:H45 and O78:H12. Among the 19 strains expressing CFA/IV, 16 expressed CS5 and CS6 and produced the heat-stable enterotoxin and most were of serotype O128:H21; the remaining 3 strains produced CS6 only. No ETEC strains expressing CS4 were found. Most (11 of 13) of the CFA/II-carrying ETEC strains expressed CS1 and CS3, and 10 of them were of the O6:K15:H16 serotype and produced both heat-labile and heat-stable toxins. As many as 24 of the 109 CFA-negative ETEC strains gave mannose-resistant hemagglutination with erythrocytes from different species; 4 strains had high surface hydrophobicity, suggesting the presence of additional, as yet undefined, colonization factors in up to 25% of the ETEC isolates.     

Ultrastructural study of adhesion of enterotoxigenic Escherichia coli to erythrocytes and human intestinal epithelial cells

The adhesion to erythrocytes and human intestinal epithelial cells of enterotoxigenic Escherichia coli strains H10407, B2C, and H10407P, expressing colonization factor antigen I (CFA/I), CFA/II, and type 1 fimbriae, respectively, was examined by electron microscopy. CFA and type 1 fimbriae were visualized by negative staining in thin sections after en bloc staining with ruthenium red and by immune labeling with antisera raised against purified fimbriae. By negative and ruthenium red staining, CFA/I, CFA/II, and type 1 fimbriae were indistinguishable and appeared as approximately 7-nm-diameter hollow cylindrical structures up to 1.5 micron in length; strain B2C also produced 2- to 3-nm-diameter flexible fibrillar fimbriae. Bacteria producing CFA/I, CFA/II, and type 1 fimbriae adhered to and agglutinated human, bovine, and guinea pig erythrocytes, respectively; CFA/I and CFA/II also mediated attachment of bacteria to the brush border of isolated human duodenal enterocytes. Electron microscopy of agglutinated erythrocytes and enterocytes with adherent bacteria showed, in each case, that bacterial adhesion involved the formation of many interactions between the tips of fimbriae and receptors on the erythrocyte or enterocyte brush border membrane. Immune labeling allowed different fimbrial antigens mediating bacterial attachment to human enterocytes to be identified.     

Identification of a new fimbrial structure in enterotoxigenic Escherichia coli (ETEC) serotype O148:H28 which adheres to human intestinal mucosa: a potentially new human ETEC colonization factor.

Three important fimbrial colonization factor antigens (CFAs) designated CFA/I, CFA/II, and E8775 were identified originally in some human enterotoxigenic Escherichia coli (ETEC) strains because of their mannose-resistant hemagglutination properties. To identify CFA, in strains lacking mannose-resistant hemagglutination properties we exploited the ability of human ETEC strains to adhere to human proximal small intestinal mucosa. ETEC strain B7A (O148:H28) was selected for study because it belongs to an epidemiologically important serotype and does not produce a known CFA, and yet it is known to be pathogenic and cause diarrheal disease in human volunteers. Results of an human enterocyte adhesion assay indicated that some bacteria in cultures of B7A produced adhesive factors. To select for such bacteria, cultured human duodenal mucosal biopsy samples were infected with B7A for up to 12 h, after which time a large percentage of the mucosal surface became colonized by bacteria. A new fimbrial structure morphologically distinct from CFA/I, CFA/II, and E8775 fimbriae and consisting of curly fibrils (approximately 3 nm in diameter) was readily identified when bacteria were subcultured from the mucosa and examined by electron microscopy. Identical fimbriae were produced by ETEC strain 1782-77 of the same serotype. Identification of these fimbriae only on bacteria subcultured from human intestinal mucosa strongly suggests that they promote mucosal adhesion of ETEC serotype O148:H28 and thus represent a potentially new human ETEC CFA.     

Coli surface antigens 1 and 3 of colonization factor antigen II-positive enterotoxigenic Escherichia coli: morphology, purification, and immune responses in humans.

Enterotoxigenic Escherichia coli (ETEC) of serotype O6:H16, biotype A, bearing colonization factor antigen II (CFA/II) possesses two distinct coli surface antigens, CS1 and CS3, whereas CFA/II-positive ETEC of serotype O8:H9 manifests only CS3. CS1 has been shown to be fimbrial in nature, but heretofore the morphology of CS3 has not been described. Accordingly, by immune electron microscopy we investigated the morphological characteristics of CS3 on bacterial cells and after purification. CS3 was found to consist of thin (2-nm), flexible, wiry, "fibrillar" fimbriae, visible both on bacteria (O6:H16, biotype A, and O8:H9 strains) and in the pure state. In contrast, CS1 exists as wider (6-nm), rigid fimbriae on the surface of O6:H16, biotype A, strains. By the use of antisera to CS1 and CS3 in immune electron microscopy, immunodiffusion in gel, and immunoblotting techniques, CS1 and CS3 were found to be immunologically as well as morphologically distinct. Six of nine volunteers who developed diarrhea after challenge with an O139:H28 ETEC strain bearing CS1 and CS3 had significant serological rises to purified CS1 and CS3 antigens, suggesting that both antigens are elaborated in vivo, play a role in pathogenesis, and stimulate an immune response.     

Adhesion of enterotoxigenic Escherichia coli to the human colon carcinoma cell line Caco-2 in culture.

Enterotoxigenic Escherichia coli (ETEC) strains possessing colonization factor antigen I (CFA/I), CFA/II, CFA/III, and antigen 2230 were tested for their ability to adhere to the following cell lines: HeLa, HEp-2, HRT 18, Hutu 80, MDBK, MDCK, Vero, and Caco-2. ETEC strains adhered only to the Caco-2 cell line. Irrespective of the known adhesive factors, the ETEC strains that adhered to the brush border of human enterocytes also adhered to the Caco-2 cell line. The negative variants, which were cured of the plasmid encoding the adhesive factor, did not adhere. Adhesion of ETEC strains no longer occurred when the Caco-2 cells were pretreated with the homologous colonization factor antigen or when the bacterial cells were pretreated with homologous antibodies raised against the adhesive factors. This indicates that this adhesion is specific and that a different receptor exists for each type of adhesion factor. Electron micrographs of cross sections of the monolayer showed that the adhesion of ETEC strains to the brush border microvilli does not induce any lesion. Therefore, the Caco-2 cell line behaves in the same way as human enterocytes do.     

Phenotypic profiles of enterotoxigenic Escherichia coli associated with early childhood diarrhea in rural Egypt

Enterotoxigenic Escherichia coli (ETEC) causes substantial diarrheal morbidity and mortality in young children in countries with limited resources. We determined the phenotypic profiles of 915 ETEC diarrheal isolates derived from Egyptian children under 3 years of age who participated in a 3-year population-based study. For each strain, we ascertained enterotoxin and colonization factor (CF) expression, the O:H serotype, and antimicrobial susceptibility. Sixty-one percent of the strains expressed heat-stable enterotoxin (ST) only, 26% expressed heat-labile enterotoxin (LT) alone, and 12% expressed both toxins. The most common CF phenotypes were colonization factor antigen I (CFA/I) (10%), coli surface antigen 6 (CS6) (9%), CS14 (6%), and CS1 plus CS3 (4%). Fifty-nine percent of the strains did not express any of the 12 CFs included in our test panel. Resistance of ETEC strains to ampicillin (63%), trimethoprim-sulfamethoxazole (52%), and tetracycline (43%) was common, while resistance to quinolone antibiotics was rarely detected. As for the distribution of observed serotypes, there was an unusually wide diversity of O antigens and H types represented among the 915 ETEC strains. The most commonly recognized composite ETEC phenotypes were ST CS14 O78:H18 (4%), ST (or LTST) CFA/I O128:H12 (3%), ST CS1+CS3 O6:H16 (2%), and ST CFA/I O153:H45 (1.5%). Temporal plots of diarrheal episodes associated with ETEC strains bearing common composite phenotypes were consistent with discrete community outbreaks either within a single or over successive warm seasons. These data suggest that a proportion of the disease that is endemic to young children in rural Egypt represents the confluence of small epidemics by clonally related ETEC strains that are transiently introduced or that persist in a community reservoir.     

New adhesive factor (antigen 8786) on a human enterotoxigenic Escherichia coli O117:H4 strain isolated in Africa.

An enterotoxigenic Escherichia coli strain, E. coli 8786, of serotype O117:H4 produced only heat-stable enterotoxin and gave mannose-resistant hemagglutination with human and bovine erythrocytes. The strain adhered to the brush border of human enterocytes and to enterocytelike cell line Caco-2. Adhesion inhibition assays using Caco-2 cells with different adhesive factor extracts showed that the adhesive factor of E. coli 8786 is different from colonization factor antigen I (CFA/I). CFA/II, CFA/III of Darfeuille et al. (A. Darfeuille, B. Lafeuille, B. Joly, and R. Cluzel, Ann. Microbiol. Inst. Pasteur 134A:53-64, 1983), CS6, and antigen 2230. A bacterial surface protein, designated antigen 8786, with a molecular mass of 16,300 Da was responsible for the adhesion to intestinal cells. It was immunologically different from previously described adhesive factors as determined by immunoblotting. Antigen 8786 was detected on the bacterial cell surface and appeared to be nonfimbrial. NH2-terminal analysis of antigen 8786 showed no homology with the previously described adhesive factors. Nevertheless, antigen 8786 is closely related to the NH2-terminal sequence of Salmonella enteritidis fimbrin. A hybridization experiment using a synthetic oligonucleotide probe based on the NH2-terminal amino acid sequence of antigen 8786 revealed that the coding region was located on a 70-MDa plasmid.     

Monoclonal antibodies against fimbrial subunits of colonization factor antigen I (CFA/I) inhibit binding to human enterocytes and protect against enterotoxigenicEscherichia coliexpressing heterologous colonization factors

EnterotoxigenicEscherichia coli(ETEC) bind to enterocytes in the small intestine by means of antigenically distinct colonization factors (CFs). By immunizing with isolated subunits of CFA/I fimbriae we have previously produced monoclonal antibodies (MAbs) that cross-react immunologicallyin vitrowith several CFs. Two of these MAbs [S(subunit)-CFA/I 17:8 and S-CFA/I 5:6] were found to significantly inhibit the binding of ETEC strains expressing either homologous or heterologous CFs, i.e. CFA/I and CS4, to isolated human jejunal enterocytes. The two MAbs also conferred passive protection against fluid accumulation in rabbit ileal loops caused by CFA/I- as well as CS4-expressing ETEC strains. Immunoelectron microscopy studies showed that both MAbs bound specifically to CFA/I as well as to CS4 fimbriae expressed on bacteria. These results indicate the possibility to induce anti-CF antibodies that can protect against ETEC infection caused by bacteria expressing not only homologous but also heterologous CFs, by immunizing with fimbrial subunits.     

Binding of enterotoxigenicEscherichia colito isolated enterocytes and intestinal mucus

Binding of human enterotoxigenicEscherichia coli(ETEC) to the small intestine is a prerequisite for colonization and is mediated by colonization factor (CF) antigens. Coli surface antigen 6 (CS6) is considered a CF but binding to isolated enterocytes has not been established. In this study bacteria expressing CS6 were analysed for binding to enterocytes from human and rabbit small intestine, isolated using either an EDTA-containing buffer or a buffer devoid of EDTA. We found that the bacteria bound to enterocytes from rabbit ileum and human duodenum, but only when the cells had been isolated in the absence of EDTA. Pretreatment of rabbit enterocytes withmeta-periodate resulted in a decreased proportion of cells with bound bacteria. Purified CS6, and for comparison other ETEC CFs, were also tested for binding to different human and rabbit mucus fractions. These analyses showed that purified CS6 bound to mucus from rabbit duodenum and ileum as well as from human duodenum, jejunum and ileum and that this binding was abolished by pretreatment of the mucus material withmeta-periodate or Proteinase K. CFA/I, CS1 to CS5, CS7, CS17, putative CF (PCF) O159 (CS12), PCFO166 (CS14), and CFA/III (CS8) also bound to the rabbit mucus material although with different patterns; the binding of CS2 and CS5 was abolished bymeta-periodate treatment. Thus, ETEC bacteria expressing CS6 might bind to carbohydrate-containing structure(s) in the apical membrane of isolated rabbit ileal and human duodenal enterocytes that could probably be released by EDTA treatment. In addition, CS6 and other ETEC CFs bind to component(s), in some instances protein-associated carbohydrate structures, in mucus fractions from small intestine.     

Phenotypic Diversity of Enterotoxigenic Escherichia coli Strains from a Community-Based Study of Pediatric Diarrhea in Periurban Egypt

No past studies of diarrhea in children of the Middle East have examined in detail the phenotypes of enterotoxigenic Escherichia coli (ETEC) strains, which are important pathogens in this setting. During a prospective study conducted from November 1993 to September 1995 with 242 children under 3 years of age with diarrhea living near Alexandria, Egypt, 125 episodes of diarrhea were positive for ETEC. ETEC strains were available for 98 of these episodes, from which 100 ETEC strains were selected and characterized on the basis of enterotoxins, colonization factors (CFs), and O:H serotypes. Of these representative isolates, 57 produced heat-stable toxin (ST) only, 34 produced heat-labile toxin (LT) only, and 9 produced both LT and ST. Twenty-three ETEC strains expressed a CF, with the specific factors being CF antigen IV (CFA/IV; 10 of 23; 43%), CFA/II (5 of 23; 22%), CFA/I (3 of 23; 13%), PCFO166 (3 of 23; 13%), and CS7 (2 of 23; 9%). No ETEC strains appeared to express CFA/III, CS17, or PCFO159. Among the 100 ETEC strains, 47 O groups and 20 H groups were represented, with 59 O:H serotypes. The most common O serogroups were O159 (13 strains) and O43 (10 strains). O148 and O21 were each detected in five individual strains, O7 and O56 were each detected in four individual strains, O73, O20, O86, and O114 were each detected in three individual strains, and O23, O78, O91, O103, O128, and O132 were each detected in two individual strains. The most common H serogroups were H4 (16 strains), 12 of which were of serogroup O159; H2 (9 strains), all of which were O43; H18 (6 strains); H30 (6 strains); and H28 (5 strains); strains of the last three H serogroups were all O148. Cumulatively, our results suggest a high degree of clonal diversity of disease-associated ETEC strains in this region. As a low percentage of these strains expressed a CF, it remains possible that other adhesins for which we either did not assay or that are as yet undiscovered are prevalent in this region. Our findings point out some potential barriers to effective immunization against ETEC diarrhea in this population and emphasize the need to identify additional protective antigens commonly expressed by ETEC for inclusion in future vaccine candidates.     

Genetic control and properties of coli surface antigens of colonization factor antigen IV (PCF8775) of enterotoxigenic Escherichia coli.

Enterotoxigenic Escherichia coli producing coli surface antigen 4 (CS4), CS5, and CS6 of colonization factor antigen IV were examined. This factor was originally called putative colonization factor 8775 (PCF8775). All of the coli surface antigens were plasmid coded and were usually carried on the same plasmid as the genes coding for heat-stable toxin (ST) or heat-labile toxin (LT); thus, CS5-CS6-ST, CS6-ST, and CS6-LT plasmids were found. In strains of serotype O25:H42, the genes coding for CS4 and CS6 were on a plasmid separate from that containing the genes coding for ST and LT. CS4 and CS5 were fimbrial antigens with a subunit molecular mass of about 17.0 and 21.0 kilodaltons (kDa), respectively. CS6 was found as a single polypeptide with a molecular mass of about 14.5 kDa in strains of serotypes O25:H42, O27:H7, and O27:H20 when heated extracts were run on sodium dodecyl sulfate-polyacrylamide gels. CS6-positive extracts of strains of serogroups O148, O159, and O167 showed two bands with molecular masses between 14.5 and 16.0 kDa.     

Assessment by electron-microscopy of recombinant Vibrio cholerae and Salmonella vaccine strains expressing enterotoxigenic Escherichia coli-specific surface antigens.

Diarrhoea caused by enterotoxigenic Escherichia coli (ETEC) requires adhesion of microorganisms to enterocytes. Hence, a promising approach to immunoprophylaxis is to elicit antibodies against colonisation factor antigens (CFAs). Genes encoding the most prevalent ETEC-specific surface antigens were cloned into Vibrio cholerae and Salmonella vaccine strains. Expression of surface antigens was assessed by electron-microscopy. Whereas negative staining was effective in revealing CFA/I and CS3, but not CS6, immunolabelling allowed identification of all surface antigens examined. The V. cholerae vaccine strain CVD103 did not express ETEC-specific colonisation factors, whereas CVD103-HgR expressed CS3 only. However, expression of both CFA/I and CS3 was demonstrated in Salmonella Ty21a.     

产肠毒素大肠杆菌混合载体疫苗的免疫原性评价

本研究在构建表达ETEC菌毛抗原CFA/I、CS6和CS3、融合肠毒素LTB/STm的混合活载体疫苗的基础上 ,以两株福氏志贺载体疫苗 ,同等剂量相混合进行免疫。通过口服免疫 ,该混合多价活疫苗能够诱导机体产生相应的抗ETEC特异的血清和黏膜抗原抗体反应 ,达到了与各单独疫苗株一致的免疫效果 ,同时保持了载体志贺菌自身的免疫原性。     

Genotypic detection of enterotoxigenic Escherichia coli colonisation factors

We have developed a nonradioactive colony hybridisation assay for the detection of enterotoxigenic Escherichia coli (ETEC) that harbor the structural genes for CFA/I, CS1, CS2, CS4, CS17, or PCFO166. Thus, a polynucleotide probe derived from the colonisation factor antigen I (CFA/I) operon hybridised under very low stringency conditions to total DNA from CFA/I-producing (CFA/I), coli-surface antigen 1 and 3 (CS1 CS3-), CS2 CS3-, CS4 CS6-, CS17-, and putative colonisation factor O166 (PCFO166)-producing enterotoxigenic Escherichia coli (ETEC). The probe did not hybridise to DNA from CS3, CFA/III CS6, CS5 CS6, CS6, CS7, or PCFO159 ETEC. Visual registration of colour intensity could be used to differentiate between CFA/I, CS4 and PCFO166-positive strains on the one hand and strains with the genetic potential to express CS1, CS2, or CS17 on the other. As a confirmatory test, restriction fragment patterns obtained from Sau3AI-digested ETEC plasmid DNA could be used to distinguish between CFA/I, CS1, CS4, CS17, and PCFO166 ETEC in nonradioactive Southern blot hybridisation. The simultaneous genotypic detection of several ETEC colonisation factors will prove useful in vaccine-oriented studies of ETEC disease.     

Genetic characterization and immunogenicity of coli surface antigen 4 from enterotoxigenic Escherichia coli when it is expressed in a Shigella live-vector strain

The genes that encode the enterotoxigenic Escherichia coli (ETEC) CS4 fimbriae, csaA, -B, -C, -E, and -D', were isolated from strain E11881A. The csa operon encodes a 17-kDa major fimbrial subunit (CsaB), a 40-kDa tip-associated protein (CsaE), a 27-kDa chaperone-like protein (CsaA), a 97-kDa usher-like protein (CsaC), and a deleted regulatory protein (CsaD'). The predicted amino acid sequences of the CS4 proteins are highly homologous to structural and assembly proteins of other ETEC fimbriae, including CS1 and CS2, and to CFA/I in particular. The csaA, -B, -C, -E operon was cloned on a stabilized plasmid downstream from an osomotically regulated ompC promoter. pGA2-CS4 directs production of CS4 fimbriae in both E. coli DH5alpha and Shigella flexneri 2a vaccine strain CVD 1204, as detected by Western blot analysis and bacterial agglutination with anti-CS4 immune sera. Electron-microscopic examination of Shigella expressing CS4 confirmed the presence of fimbriae on the bacterial surface. Guinea pigs immunized with CVD 1204(pGA2-CS4) showed serum and mucosal antibody responses to both the Shigella vector and the ETEC fimbria CS4. Among the seven most prevalent fimbrial antigens of human ETEC, CS4 is the last to be cloned and sequenced. These findings pave the way for CS4 to be included in multivalent ETEC vaccines, including an attenuated Shigella live-vector-based ETEC vaccine.     

Binding of enterotoxigenicEscherichia coliexpressing different colonization factors to tissue-cultured Caco-2 cells and to isolated human enterocytes

The binding of ETEC strains expressing different colonization factors to the human enterocyte-like cell line Caco-2 and to isolated human enterocytes were determined. Strains expressing CFA/I, CS2, CS4+CS6, CS5+CS6, CS7, CFA/III+CS6 and PCFO166 adhered well to both types of cells whereas bacteria producing CS1, CS6 only, or CS17 did not adhere to either Caco-2 cells or to jejunal human enterocytes, suggesting that similar binding structures are present in both cell types. However, in some instances, binding of bacteria to the two types of cells differed, e.g. bacteria expressing CS3 or PCFO9 bound well to human enterocytes but not to Caco-2 cells. Conversely, bacteria producing PCFO20 or PCFO159 only adhered to Caco-2 cells and not to jejunal enterocytes. With few exceptions, this inability to bind to human enterocytes was the same for cells from all parts of the small intestine. This study contradicts previous reports suggesting that the binding structures of Caco-2 cells are identical to those of human enterocytes.     

Characterization of enterotoxigenic Escherichia coli isolated from U.S. troops deployed to the Middle East.

Enterotoxigenic Escherichia coli (ETEC) was a common cause of traveler's diarrhea in U.S. soldiers in the Middle East in 1989 and 1990. To determine which bacterial components would be useful in a vaccine, potential protective antigens (toxin, colonization factor antigen [CFA], and serotype) from 189 ETEC isolates were examined. Nearly half of the isolates expressed both ETEC toxins, 39% had only heat-stable enterotoxin (ST), and 17% had heat-labile enterotoxin (LT). CFA/I was the least common colonization factor antigen (11%), CFA/II was common (34%), as was CFA/IV (31%), and 24% expressed none of these CFAs. Fifty-seven O:H serotypes were found. Serotype O6:H16 was the most common, occurring in 29% of the ETEC isolates, usually with LT-ST and CFA/II. Generally, CFA/II was associated with expression of both toxins, CFA/IV was associated with expression of ST, and none of the CFAs was routinely found with LT. We conclude that ETEC from soldiers in the Middle East expressed a variety of antigens and that an effective vaccine will require multiple protective antigens.     

Prospective Cohort Study of Enterotoxigenic Escherichia coli Infections in Argentinean Children

In a follow-up study, enterotoxigenic Escherichia coli (ETEC) infections in 145 children from two communities located in northeastern Argentina were monitored for 2 years. The occurrence of diarrhea was monitored by weekly household visits. Of 730 fecal specimens collected, 137 (19%) corresponded to diarrheal episodes. ETEC was isolated from a significantly higher proportion of symptomatic (18.3%) than asymptomatic (13.3%) children (P = 0.04541). Individuals of up to 24 months of age were found to have a higher risk of developing ETEC diarrhea than older children (odds ratio [OR], 3.872; P = 0.00021). When the toxin profiles were considered, only heat stable enterotoxin (ST)-producing ETEC was directly associated with diarrhea (P = 0.00035). Fifty-five percent of the ETEC isolated from symptomatic children and 19% of the ETEC isolated from asymptomatic children expressed one of the colonization factors (CFs) investigated, i.e., CF antigen I (CFA/I), CFA/II, CFA/III, and CFA/IV; coli surface antigens CS7 and CS17; and putative CFs PCFO159, PCFO166, and PCFO20, indicating a clear association between diarrhea and ETEC strains that carry these factors (P = 0.0000034). The most frequently identified CFs were CFA/IV (16%), CFA/I (10%), and CS17 (9%). CFs were mostly associated with ETEC strains that produce ST and both heat-labile enterotoxin and ST. Logistic regression analysis, applied to remove confounding effects, revealed that the expression of CFs was associated with illness independently of the toxin type (OR, 4.81; P = 0.0003). When each CF was considered separately, CS17 was the only factor independently associated with illness (OR, 16.6; P = 0.0151). Most CFs (the exception was CFA/IV) fell within a limited array of serotypes, while the CF-negative isolates belonged to many different O:H types. These results demonstrate that some CFs are risk factors for the development of ETEC diarrhea.     

Adhesins ofEscherichia coliassociated with extra–intestinal pathogenicity confer binding to colonic epithelial cells

Escherichia coliadhesins are virulence factors in intestinal and extra–intestinal infections but their role in normal intestinal colonization has not been defined. We investigated the intestinal adherence ofE. coliwith Dr hemagglutinin S fimbriae CFA/I or CFA/II using freshly isolated ileal or colonic enterocytes and cells from the human colonic cell line HT–29.E. coliwith S–fimbrial adhesins (Sfa I or Sfa II) P or type 1 fimbriae adhered in a non–polarized manner and in similar numbers to colonic and ileal enterocytes. S fimbriae of the variety Sfa II (originating from a meningitis isolate) mediated a stronger binding than Sfa I (of uropathogenic origin). Strains expressing Dr hemagglutinin adhered preferentially to the brush borders slightly better to colonic than ileal enterocytes. Strains expressing CFA/I or II adhered to colonic and ileal enterocytes although brush border adherence was predominantly observed with ileal cells. Binding to HT–29 cells parallelled binding to colonic enterocytes for all adhesin specificities except CFA/I. The results suggest that Dr hemagglutinin P– type 1– and S–fimbrial adhesins mediate binding to both colonic and ileal enterocytes. These specificities may contribute to the establishment ofE. coliin the intestinal microflora which precedes their spread to extra–intestinal sites.