Multiepitope Fusion Antigen Induces Broadly Protective Antibodies That Prevent Adherence of Escherichia coli Strains Expressing Colonization Factor Antigen I (CFA/I), CFA/II,and CFA/IV

Diarrhea is the second leading cause of death in children younger than 5 years and continues to be a major threat to global health. Enterotoxigenic Escherichia coli (ETEC) strains are the most common bacteria causing diarrhea in developing countries. ETEC strains are able to attach to host small intestinal epithelial cells by using bacterial colonization factor antigen (CFA) adhesins. This attachment helps to initiate the diarrheal disease. Vaccines that induce antiadhesin immunity to block adherence of ETEC strains that express immunologically heterogeneous CFA adhesins are expected to protect against ETEC diarrhea. In this study, we created a CFA multiepitope fusion antigen (MEFA) carrying representative epitopes of CFA/I, CFA/II (CS1, CS2, and CS3), and CFA/IV (CS4, CS5, and CS6), examined its immunogenicity in mice, and assessed the potential of this MEFA as an antiadhesin vaccine against ETEC. Mice intraperitoneally immunized with this CFA MEFA exhibited no adverse effects and developed immune responses to CFA/I, CFA/II, and CFA/IV adhesins. Moreover, after incubation with serum of the immunized mice, ETEC or E. coli strains expressing CFA/I, CFA/II, or CFA/IV adhesins were significantly inhibited in adherence to Caco-2 cells. Our results indicated this CFA MEFA elicited antibodies that not only cross-reacted to CFA/I, CFA/II and CFA/IV adhesins but also broadly inhibited adherence of E. coli strains expressing these seven adhesins and suggested that this CFA MEFA could be a candidate to induce broad-spectrum antiadhesin protection against ETEC diarrhea. Additionally, this antigen construction approach (creating an MEFA) may be generally used in vaccine development against heterogenic pathogens.     

Association of rns homologs with colonization factor antigens in clinical Escherichia coli isolates.

rns is a trans-acting positive regulatory factor required for expression of the colonization factor antigen II (CFA/II) antigens CS1 and CS2 (J. Caron, L. M. Coffield, and J. R. Scott, Proc. Natl. Acad. Sci. USA 86:963-967, 1989). All 35 CFA/II-positive strains hybridized with a rns gene probe, as did all 10 CFA/I strains and all 4 CS4 strains. Hybridization with rns was detected in 25% of non-enterotoxigenic Escherichia coli strains and was not detected in enteric pathogens with low G + C content.     

Expression of CFA/I fimbriae is positively regulated

Production of the plasmid-coded fimbrial antigen CFA/I of Escherichia coli requires both CFA/I region 1 and CFA/I region 2, which are separated by about 40 kb on the wildtype plasmid. The nucleotide sequence of region 2 was determined and contains an open reading frame (cfa d), encoding a protein of 265 amino acids. The protein has no signal sequence and upon sequence analysis appeared to be a DNA-binding protein. A plasmid was constituted, with a promoterless beta-galactosidase gene preceded by the promoter of region 1. Introduction of a plasmid, carrying the cfa d gene, into a strain containing this construct enhanced expression of beta-galactosidase by at least five-fold indicating that the cfa d protein was enhancing expression from the promoter of region 1. The cfa d gene sequence differed at 28 positions from the Rns gene, which encodes a protein that is a positive regulator of the expression of CS1 or CS2 fimbriae. It was shown that the cfa d gene and the Rns gene can functionally substitute each other in regulating fimbrial synthesis.     

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.     

Gene encoding the major subunit of CS1 pili of human enterotoxigenic Escherichia coli.

Some enterotoxigenic strains of Escherichia coli (ETEC) utilize the CS1 pilus for colonization of human intestinal epithelium. We have cloned the gene which encodes the major CS1 subunit and called it cooA (for coli surface antigen one). Hybridization showed that the ETEC strain from which it was cloned carried cooA on a plasmid different from the one encoding its positive regulator, rns. Based on the cooA DNA sequence, cleavage with signal peptidase would be expected to produce a mature protein of 15.2 kDa; a 16-kDa polypeptide that reacted with CS1-specific antiserum was observed on electrophoresis. At the protein level, there was 92% similarity and 55% identity between cooA and cfaB, the major colonization factor antigen I (CFA/I) antigen. However, CS1-specific antisera did not react with CfaB. No hybridization was seen between either of two different cooA probes and total DNA from ETEC strains expressing AFA-1, CFA/I, CS2, CS3, CS4, CS5, or CS6.     

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.     

Colonization factor antigens I and II and type 1 somatic pili in enterotoxigenic Escherichia coli: relation to enterotoxin type.

Enterotoxigenic Escherichia coli (ETEC) isolates from 36 persons with acute traveler's diarrhea from whom no other pathogens were recovered were tested (after no more than three subcultures) for the presence of colonization factor antigens I and II (CFA/I and CFA/II) and type 1 somatic pili. CFA/I or CFA/II was identified in 7 of 10 strains with heat-labile and heat-stable enterotoxins (LT+/ST+), but in only 2 of 12 LT-/ST+ (P less than 0.05) and 0 of 14 LT+/ST- (P less than 0.02) strains. CFA pili were not found among 74 non-enterotoxigenic E. coli strains. Type 1 somatic pili were demonstrable in 42% of the 36 ETEC and in 49% of the 74 non-enterotoxigenic E. coli isolates. The nine ETEC isolates bearing a CFA were serially subcultured on 10 consecutive days and retested for CFA and toxin. After five subcultures only one strain had lost a CFA, but after 10 passages three strains were negative: two lost CFA/I and one lost CFA/II. The strain that lost CFA/II became negative for both LT and ST as well and was found to lack a 48- and a 60-megadalton plasmid. The two strains that lost CFA/I also became negative for ST, but plasmid analysis revealed no plasmid loss. Disappearance of the CFA/I phenotype without loss of a plasmid can be explained by phase variation, as exhibited by type 1 somatic pili, or by rearrangement of base sequences in the CFA/I plasmid genome. If purified pili vaccines are to provide broad-spectrum protection against ETEC diarrhea, the search must be intensified to identify the antigens responsible for adhesion to intestinal mucosa in the many ETEC strains that lack CFA/I and CFA/II.     

The occurence of colonisation factors (CFA/I,CFA/II and E8775) in enterotoxigenicEscherichia coli from various countries in South East Asia

Four hundred and fifty-eight enterotoxigenic strains ofEscherichia coli (ETEC) were examined for the presence of colonisation factor antigens (CFA) I and II, and the putative colonisation factor, E8775, using an immunodiffusion technique with specific antisera. The ETEC strains had been isolated in Thailand, Bangladesh and from travellers returning to Japan from abroad. Approximately 14% of the ETEC strains possessed CFA/I and a further 13% of the strains possessed CFA/II. The E8775 antigen was found on 5% of the strains. CFA/I was found on strains of the serogroups 04, 015, 063, 078, 090, 0110, 0126, 0128, 0153 and 0? CFA/II was found on strains of the serogroups 06, 08, 09, 078, 0115, 0139, 0? and 0 rough. The E8775 antigen was found on strains of the serogroups 025, 0115 and 0167. The results of this study emphasise the need to continue the search for other mechanisms of adhesion used by ETEC strains, and in particular strains of the serogroups 027, 034, 0148 and 0166.     

Monoclonal antibodies against enterotoxigenic Escherichia coli colonization factor antigen I (CFA/I) that cross-react immunologically with heterologous CFAs.

Enterotoxigenic Escherichia coli binds to enterocytes in the small intestine by means of antigenically distinct colonization factors (CFs), usually termed colonization factor antigens (CFAs), coli surface antigens (CS), or putative colonization factor antigens (PCFs). To explore the immunological relationship between different CFs, we dissociated CFA/I fimbriae into subunits and produced monoclonal antibodies (MAbs) against these subunits. We selected three MAbs that cross-reacted immunologically with a number of different, whole purified CFs in a dot blot test and with the corresponding subunits in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. One of the MAbs, i.e., subunit CFA/I 17:8 (S-CFA/I 17:8), reacted more strongly with subunits of CFA/I than with whole purified fimbriae. This MAb cross-reacted with whole purified fimbriae and subunits of CS4, PCFO166, CS1, and CS2. Moreover, it bound strongly to a peptide of 25 amino acids corresponding to the N-terminal end of CFA/I. The other two MAbs, i.e., S-CFA/I 5:6 and S-CFA/I 8:11, cross-reacted with CS1, CS2, CS4, PCFO166, and CS17 fimbriae but reacted only slightly or not at all with the CFA/I peptide. MAbs S-CFA/I 17:8 and S-CFA/I 5:6 were shown to inhibit hemagglutination by bacterial strains that express either CFA/I, CS1, or CS4. In addition, the binding of enterotoxigenic E. coli strains expressing CFA/I, CS2, CS4, and PCFO166 to enterocyte-like cell-line Caco-2 was inhibited by both MAbs. These results show that several antigenically different CFs have common epitopes and that among these at least one is located in the N-terminal end of the subunit protein. Moreover, antibodies against the common epitopes seem to block binding of the bacterial strains that express different CFs to both erythrocytes and Caco-2 cells.     

Plasmids coding for colonization factor antigens I and II, heat-labile enterotoxin, and heat-stable enterotoxin A2 in Escherichia coli.

Colonization factor antigens I and II (CFA/I and CFA/II) are important in the pathogenesis of diarrhea in humans caused by some enterotoxigenic Escherichia coli (ETEC). Plasmid DNA from 16 CFA/I+ and five CFA/II+ ETEC were examined by Southern blot analysis with enterotoxin gene probes and were compared with plasmid DNA from derivatives of the same ETEC that had lost the ability to produce these colonization factors. Among the 16 CFA/I+ ETEC strains, the loss of CFA/I was accompanied by the loss of a plasmid of between 34 and 68 megadaltons (MDa) coding for heat-stable enterotoxin A2 (ST-A2) in 12 strains, by the loss of a 60-MDa plasmid coding for heat-labile enterotoxin (LT) and ST-A2 in one strain, or by deletions of a segment of DNA encoding for ST-A2 in three strains. Among five CFA/II+ ETEC strains, the loss of CFA/II was associated with the loss of a plasmid of 75 MDa coding for LT and ST-A2 in three strains, with the loss of genes coding for LT and ST-A2 from a 68-MDa plasmid in one strain, or with no discernible loss of a plasmid or DNA sequences coding for enterotoxins in the remaining strain. The loss of CFA/I and CFA/II production was associated with the loss of DNA sequences encoding for ST-A2 in 20 of 21 ETEC examined.     

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.     

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.     

Prevalence of the enterotoxigenic Escherichia coli colonization factors CFA/I, CFA/II and E8775 isolated in the South Pacific (New Caledonia, Republic of Vanuatu and Wallis and Futuna)

We tested the expression of adherence properties of enterotoxigenic Escherichia coli (ETEC) strains isolated in New-Caledonia, Vanuatu and Wallis and Futuna by examining for the presence of colonization factor E8775 using an agglutination test and an immuno-diffusion technique with specific antisera. Approximately 19% of ETEC strains possessed CFA/I and 21% a CFA/II. The E8775 antigen was found on 1.8% of the strains. This last factor was found on strains of the serogroup 025 from Vanuatu. Two strains 078 usually CFA/I+ possessed a CFA/II and three strains of the serogroup 0126 possessed a CFA/I. The results of this study emphasis the need to continue the search for other mechanisms of adhesion used by ETEC strains without any of the three factors of colonization.     

Salmonella flagellin fused with a linear epitope of colonization factor antigen I (CFA/I) can prime antibody responses against homologous and heterologous fimbriae of enterotoxigenic Escherichia coli

In this work, a 15-amino-acid-long peptide derived from the enterotoxigenic Escherichia coli CFA/I fimbria (11VDPVIDLLQADGNAL25) was genetically fused to the Salmonella flagellin and used to prime and boost serum antibody responses (IgG) against homologous (CFA/I) and heterologous (CS1) colonization factors (CFs) in BALB/c mice. Antibodies raised against the hybrid flagellin (Fla II) cross-reacted with CFA/I, CS1, CS2, and PCFO166 but not with CS4. Parenteral administration of Fla II primed antibody responses against both CFA/I and CS1 but boosted IgG responses only against CFA/I. These findings confirm that linear epitopes derived from the CFA/I fimbria can prime antibody responses against homologous and heterologous CFs and indicate that Salmonella flagellin represents a potential carrier for the development of broad-range peptide-based anti-colonization ETEC vaccines.     

Distribution of colonization factor antigens among enterotoxigenic Escherichia coli strains isolated from patients with diarrhea in Nepal, Indonesia, Peru, and Thailand.

Samples (1,318) of enterotoxigenic Escherichia coli (ETEC) isolated in 1994-1995 from children with diarrhea from Nepal, Indonesia, Peru, and Thailand were examined for colonization factor antigen (CFA) and coli surface (CS) antigens. Fifty-five percent of 361 heat-labile and heat-stable (LT-ST), 14% of 620 LT-only, and 48% of 337 ST-only ETEC had CFA/CS antigens. LT-ST ETEC strains were predominantly in the CFA II group, and ST only strains were in the CFA IV group. Additional studies are needed to identify ETEC strains that do not have CFA/CS antigens.     

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.     

Prevalence of toxin types and colonization factors in enterotoxigenic Escherichia coli isolated during a 2-year period from diarrheal patients in Bangladesh

The prevalence of toxin types and colonization factors (CFs) of enterotoxigenic Escherichia coli (ETEC) was prospectively studied with fresh samples (n = 4,662) obtained from a 2% routine surveillance of diarrheal stool samples over 2 years, from September 1996 to August 1998. Stool samples were tested by enzyme-linked immunoassay techniques and with specific monoclonal antibodies for the toxins and CFs. The prevalence of ETEC was 14% (n = 662), with over 70% of the strains isolated from children 0 to 5 years of age, of whom 93% were in the 0- to 3-year-old age range. Of the total ETEC isolates, 49.4% were positive for the heat-stable toxin (ST), 25.4% were positive for the heat-labile toxin (LT) only, and 25.2% were positive for both LT and ST. The rate of ETEC isolation peaked in the hot summer months of May to September and decreased in winter. About 56% of the samples were positive for 1 or more of the 12 CFs that were screened for. The coli surface antigens CS4, CS5, and/or CS6 of the colonization factor antigen (CFA)/IV complex were most prevalent (incidence, 31%), followed by CFA/I (23.5%) and coli surface antigens CS1, CS2, and CS3 of CFA/II (21%). In addition, other CFs detected in decreasing order were CS7 (8%), CS14 (PCFO166) (7%), CS12 (PCFO159) (4%), CS17 (3%), and CS8 (CFA/III) (2.7%). The ST- or LT- and ST-positive ETEC isolates expressed the CFs known to be the most prevalent (i.e., CFA/I, CFA/II, and CFA/IV), while the strains positive for LT only did not. Among children who were infected with ETEC as the single pathogen, a trend of relatively more severe disease in children infected with ST-positive (P < 0.001) or LT- and ST-positive (P < 0.001) ETEC isolates compared to the severity of the disease in children infected with LT only-positive ETEC isolates was seen. This study supports the fact that ETEC is still a major cause of childhood diarrhea in Bangladesh, especially in children up to 3 years of age, and that measures to prevent such infections are needed in developing countries.     

Biotypes, antibiotic resistance and plasmids coding for CFA/I and STa in enterotoxigenic Escherichia coli strains of serotype O153:H45 isolated in Spain

Enterotoxigenic Escherichia coli (ETEC) strains of serotype O153:H45 have been found recently to be a frequent cause of sporadic cases and outbreaks of neonatal diarrhoea in Spain and the most important cause of infant diarrhoea in Chile. Relationships between sugar fermentation patterns, resistance to antibiotics and plasmid profiles were analysed in nine E. coli O153:H45 strains isolated in Spain that synthesised CFA/I antigen and STa enterotoxin. Derivative strains obtained by curing with acridine orange, and transconjugants rendered antibiotic resistant, were characterised phenotypically and analysed for plasmid content. Two fermentation patterns were recognised: rhamnose fermenters (four strains) and rhamnose non-fermenters (five strains). The ability to ferment rhamnose was the only differential characteristic found among 49 carbohydrate fermentation tests used to establish fermentation patterns. All nine strains possessed similar plasmid profiles of three or four plasmids of 52-87 Mda. A non-conjugative large plasmid of 82 Mda or 87 Mda, depending upon the strain, was identified as that responsible for production of both CFA/I and STa. Resistance to antibiotics was determined by plasmids other than those coding for CFA/I and STa. Two conjugative resistance factors were identified: a 52-Mda plasmid coding for resistance to ampicillin, streptomycin and sulphonamide in rhamnose-fermenting strains, and a 77-Mda plasmid coding for resistance to ampicillin, streptomycin, kanamycin, tetracycline and sulphonamide in rhamnose non-fermenting strains. Our results support the hypothesis that the prevalence and distribution of ETEC strains belonging to serotype O153:H45 in Spain and Chile could be due to the extensive cultural relations between Spain and South American from the past.     

Use of nonradioactive DNA hybridization for identification of enterotoxigenic Escherichia coli harboring genes for colonization factor antigen I, coli surface antigen 4, or putative colonization factor O166.

We developed an accurate nonradioactive colony hybridization assay (NCHA) using a digoxigenin-labeled polynucleotide probe and an antidigoxigenin alkaline phosphatase conjugate for the identification of enterotoxigenic Escherichia coli (ETEC) harboring genes for colonization factor antigen I (CFA/I), coli surface antigen 4 (CS4), or putative colonization factor O166 (PCFO166). In this 2-day assay, visual registration of color intensity could be used to distinguish between CFA/I-positive strains and strains with the genetic potential to express CS4 or PCFO166. A rapid NCHA was developed by which the results could be read visually 7 h and 45 min after inoculation of the bacteria. In the rapid NCHA, densitometry verified the visual discrimination between four groups of E. coli; ETEC with the CFA/I gene, ETEC with the CS4 gene, ETEC with the PCFO166 gene, and E. coli strains that lack such genes. As a confirmatory test, plasmids from ETEC with the CFA/I, CS4, or PCFO166 gene were differentiated by their characteristic restriction fragment patterns in nonradioactive Southern blot hybridization.     

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.