Binding of Shigella to rat and human intestinal mucin

Invasion of epithelial cells by Shigella is an early step in their pathogenesis. Adherence is generally presumed to be a prerequisite for invasion. This study examined the possibility of intestinal mucins serving as initial binding sites for clinical isolates of S. boydii and S. sonnei. The interactions of Shigella with rat and human small intestinal and colonic mucin were investigated. In solid phase binding assays, [³⁵S] labelled Shigella did not show any preferential binding to rat/human small intestinal mucin or to rat colonic mucin. On the other hand, Shigella bound specifically to human colonic mucin in a concentration-dependent manner. This specific binding to human colonic mucin was not by weak hydrophobic interactions and could not be attributed to the presence of contaminating glycolipids in the mucin preparation. The human colonic mucin receptor was sensitive to periodate treatment suggesting the involvement of the carbohydrate portion of the mucin. Reduction and alkylation of mucin enhanced adherence probably by exposing buried binding sites. The monosaccharides present in mucins were ineffective as hapten inhibitors as was the lectin wheat germ agglutinin suggesting that the mucin receptor is a more complex one. This study identifies, for the first time, the presence of a specific Shigella-binding site on the carbohydrate portion of human colonic mucin, which is not present in rat colonic mucin or in rat/human small intestinal mucin.     

The StcE metalloprotease of enterohaemorrhagic Escherichia coli reduces the inner mucus layer and promotes adherence to human colonic epithelium ex vivo

Enterohaemorrhagic Escherichia coli (EHEC) is a major foodborne pathogen and tightly adheres to human colonic epithelium by forming attaching/effacing lesions. To reach the epithelial surface, EHEC must penetrate the thick mucus layer protecting the colonic epithelium. In this study, we investigated how EHEC interacts with the intestinal mucus layer using mucin‐producing LS174T colon carcinoma cells and human colonic mucosal biopsies. The level of EHEC binding and attaching/effacing lesion formation in LS174T cells was higher compared to mucin‐deficient colon carcinoma cell lines, and initial adherence was independent of the presence of flagellin, Escherichia coli common pilus, or long polar fimbriae. Although EHEC infection did not affect gene expression of secreted mucins, it resulted in reduced MUC2 glycoprotein levels. This effect was dependent on the catalytic activity of the secreted metalloprotease StcE, which reduced the inner mucus layer and thereby promoted EHEC access and binding to the epithelium in vitro and ex vivo. Given the lack of efficient therapies against EHEC infection, StcE may represent a suitable target for future treatment and prevention strategies.     

Adherence ability and serum resistance of different hospital clusters of Acinetobacter baumannii

The role of mechanical ventilation and catheters in favouring Acinetobacter baumannii infections needs to be better understood. This study evaluated the adherence of 19 isolates of different hospital clusters of A. baumannii to abiotic surfaces and epithelial cells (HEp-2). Of the hydrophobic isolates, 80% adhered to polystyrene, indicating a close relationship between hydrophobicity and adherence. All isolates adhered to epithelial cells to different degrees, and 73·7% showed an aggregated pattern. Analysis of the serum resistance of catheter-tip isolates showed that all were resistant. These worrisome results showed that the high capacity of A. baumannii to adhere to surfaces and survive in human serum could hinder treatment and control of this pathogen.     

Up-regulation of MUC2 and IL-1β expression in human colonic epithelial cells by Shigella and its interaction with mucins

Background

The entire gastrointestinal tract is protected by a mucous layer, which contains complex glycoproteins called mucins. MUC2 is one such mucin that protects the colonic mucosa from invading microbes. The initial interaction between microbes and mucins is an important step for microbial pathogenesis. Hence, it was of interest to investigate the relationship between host (mucin) and pathogen interaction, including Shigella induced expression of MUC2 and IL-1β during shigellosis.

Methods

The mucin-Shigella interaction was revealed by an in vitro mucin-binding assay. Invasion of Shigella dysenteriae into HT-29 cells was analyzed by Transmission electron microscopy. Shigella induced mucin and IL-1β expression were analyzed by RT-PCR and Immunofluorescence.

Results

The clinical isolates of Shigella were found to be virulent by a congo-red binding assay. The in vitro mucin-binding assay revealed both Shigella dysenteriae and Shigella flexneri have binding affinity in the increasing order of: guinea pig small intestinal mucinShigella dysenteriae into HT-29 cells occurs within 2 hours. Interestingly, in Shigella dysenteriae infected conditions, significant increases in mRNA expression of MUC2 and IL-1β were observed in a time dependent manner. Further, immunofluorescence analysis of MUC2 shows more positive cells in Shigella dysenteriae treated cells than untreated cells.

Conclusions

Our study concludes that the Shigella species specifically binds to guinea pig colonic mucin, but not to guinea pig small intestinal mucin. The guinea pig colonic mucin showed a greater binding parameter (R), and more saturable binding, suggesting the presence of a finite number of receptor binding sites in the colonic mucin of the host. In addition, modification of mucins with TFMS and sodium metaperiodate significantly reduced mucin-bacterial binding; suggesting that the mucin-Shigella interaction occurs through carbohydrate epitopes on the mucin backbones. Overproduction of MUC2 may alter adherence and invasion of Shigella dysenteriae into human colonic epithelial cells.     

Multiple mechanisms may contribute to the adherence ofCandida yeasts to living cells

The adherence ofCandida yeasts to monolayers of human intestinal epithelium was studied in order to determine the specific and nonspecific mechanisms that might contribute to yeast adherence. Multiple factors were shown to significantly affect the adherence of yeasts to intestinal cells. It was demonstrated that hydrophobic yeasts adhered two times greater than normal yeasts, and positively charged yeasts adhered ten times greater than normal yeasts to monolayers of intestinal epithelium. The binding of yeasts to the intestinal cells was saturable and was most effectively blocked by mucin, which caused an 83% reduction in adherence, whereas the addition ofd-glucose caused a 41% reduction in adherence. Aggregation or coadherence of yeasts occurred as the yeast inocula were increased.Candida appears to possess the ability to adhere to living tissue by several mechanisms, such as adhesin-receptor interactions, nonspecific hydrophobic and ionic bonding, and aggregation or coadherence. This is the first demonstration of multiple forces that may act simultaneously in the process of adherence of yeasts to living cells.     

Cell surface Lactobacillus plantarum LA 318 glyceraldehyde-3-phosphate dehydrogenase (GAPDH) adheres to human colonic mucin

Aims:  To characterize the adhesion molecule of Lactobacillus plantarum LA 318 that shows high adhesion to human colonic mucin (HCM).
Methods and Results:  The adhesion test used the BIACORE assay where PBS-washed bacterial cells showed a significant decrease in adherence to HCM than distilled water-washed cells. A component in the PBS wash fraction adhered to the HCM and a main protein was detected as a c . 40-kDa band using SDS-PAGE. Using homology comparisons of the N-terminal amino acid sequences compared with sequence databases, this protein was identified as glyceraldehyde-3-phosphate dehydrogenase (GAPDH). The DNA sequence of LA 318 GAPDH was 100% identical to the GAPDH ( gapB ) of L. plantarum WCFS1. The purified GAPDH adhered to HCM.
Conclusions:  We found the adhesin of L. plantarum LA 318 to HCM in its culture PBS wash fraction. The molecule was identified as GAPDH. Because LA 318 possesses the same adhesin as many pathogens, the lactobacilli GAPDH may compete with pathogens infecting the intestine.
Significance and Impact of the Study:  This is the first report showing GAPDH expressed on the cell surface of lactobacilli adheres to mucin suggesting L. plantarum LA 318 adheres to HCM using GAPDH binding activity to colonize the human intestinal mucosa.     

Bovine recto-anal junction squamous epithelial (RSE) cell adhesion assay for studying Escherichia coli O157 adherence

Aim: To develop a new adherence assay, using cattle recto‐anal junction squamous epithelial (RSE) cells, for evaluating bacterial adherence to cells of bovine origin. Methods and Results: Proof of concept was demonstrated using the human gastrointestinal pathogen Escherichia coli O157:H7, for which cattle are reservoirs. Adherence assays were conducted using both RSE and HEp‐2 cells, in the presence and absence of D+Mannose. E. coli O157 specifically adhered in a type I fimbriae‐independent manner to RSE cells in significantly higher numbers and also bound significantly higher numbers of RSE cells than diverse laboratory strains of nonpathogenic E. coli. Conclusion: The RSE cell adhesion assay output highly reproducible and interpretable results that compared very well with those obtained using the more extensively used HEp‐2 cell adherence assay. Significance and Impact of the study: The RSE cell adhesion assay provides a convenient means of directly defining and evaluating pathogen factors operating at the bovine recto‐anal junction. The RSE cell adhesion assay further has the potential for extrapolation to diverse bacteria, including food‐borne pathogens that colonize cattle via adherence to this particular anatomical site.     

Interaction of the salivary low-molecular-weight mucin (MG2) with Actinobacillus actinomycetemcomitans

Periodontitis is associated with the presence of certain Gram-negative bacteria in the oral cavity, among these Actinobacillus actinomycetemcomitans. In order to determine which types of salivary components interact with A. actinomycetemcomitans two strains (HG 1175 and FDC Y4) were incubated with whole saliva and individual glandular secretions, viz. parotid, submandibular, and sublingual saliva. Immunochemical analysis by immunoblotting of bacteria-bound salivary proteins showed that IgA, the low-molecular mucin MG2, parotid agglutinin, and a 300 kDa sublingual and submandibular glycoprotein, were bound to the bacterial strains tested. In addition, adherence of A. actinomycetemcomitans to salivary proteins in a solid-phase was studied. After electrophoresis and transfer of salivary proteins to nitrocellulose membranes A. actinomycetemcomitans adhered only to MG2. In this assay periodate treatment, mild acid hydrolysis or neuraminidase digestion of the saliva glycoproteins abolished binding of two clinical isolates (HG 1175 and NY 664), suggesting that sialic acid residues on MG2 are involved in the binding. In contrast, adherence of the smooth laboratory strain Y4 was not affected by removal of sialic acid residues or even periodate treatment of MG2.Abbreviations S-IgA Secretory IgA - MG1 high-molecular-weight mucin - MG2 low-molecular-weight mucin - EP-GP extra parotid-glycoprotein - PRPs proline-rich proteins - SNA Sambucus nigra agglutinin - MAA Maackia amurensis agglutinin - PNA peanut agglutinin - UEA Ulex europaeus agglutinin     

Evaluation of bifidobacterial adhesion to acidic sugar chains of porcine colonic mucins

The aim of this study was to assess the adhesion of Bifidobacterium strains to acidic carbohydrate moieties of porcine colonic mucin. Mucins were extracted and purified via gel filtration chromatography followed by density-gradient ultracentrifugation. The presence of sulfated and sialylated carbohydrates in mucins was shown by enzyme-linked immunosorbent assays using PGM34 and HMC31 monoclonal antibodies (mAbs), respectively. Adhesion of Bifidobacterium strains to mucin preparations was markedly affected by the degree of purification. In eight of 22 strains, we observed increased adhesion to mucin preparations purified by ultracentrifugation. Moreover, in some of these eight strains, adhesion to mucin was reduced by pretreatment with sulfatase and/or sialidase, and competitively inhibited by pretreatment with PGM34 and/or HCM31 mAbs. Our results showed that some Bifidobacterium strains adhered to sulfo- and/or sialomucin and were able to recognize carbohydrate structures of the mAbs epitopes.     

Functional Heterogeneity of Colonic Adenocarcinoma Mucins for Inhibition of Entamoeba histolytica Adherence to Target Cells1

Mucins secreted from the gastrointestinal epithelium form the basis of the adherent mucus layer which is the host's first line of defense against invasion by Entamoeba histolytica. Galactose and N-acetyl-D-galactosamine residues of mucins specifically inhibit binding of the amebic 170 kDa heavy subunit Gal-lectin to target cells, an absolute prerequisite for pathogenesis. Herein we characterized the secretory mucins isolated from the human colon and from three human colonic adenocarcinoma cell lines: two with goblet cell-like (LS174T and T84) and one with absorptive cell-like morphology (Caco-2). By Northern blot analysis the intestinal mucin genes MUC2 and MUC3 were constitutively expressed by confluent LS174T and Caco-2 cells, whereas T84 cells only transcribed MUC2 and not MUC3 mRNA. ³H-glucosamine and ³H-threonine metabolically labeled proteins separated as high M_r mucins in the void (V_o > 10⁶ Da) of Sepharose-4B column chromatography and remained in the stacking gel of SDS-PAGE as depicted by fluorography. All mucin preparations contained high amounts of N-acetyl-glucosamine, galactose, N-acetyl-galactosamine, fucose and sialic acid, saccharides typical of the O-linked carbohydrate side chains. Mucin samples from the human colon and from LS174T and Caco-2 cells inhibited E. histolytica adherence to Chinese hamster ovary cells, whereas mucins from T84 cells did not. These results suggest that genetic heterogeneity and/or posttranslational modification in glycosylation of colonic mucins can affect specific epithelial barrier function against intestinal pathogens.     

Identification of a novel lectin inStreptococcus pyogenes and its possible role in bacterial adherence to pharyngeal cells

During investigation of the interaction of human lactoferrin (HLf) with variou bacteria, it was found that inStreptococcus pyogenes, HLf binding occurred to agar-rather than broth-grown cells irrespective of the nutrients used. Furthermore, binding of HLf to broth-grown, heat-killed bacteria was induced by overnight incubation on agar media or short-time exposure of the cells to water-soluble agar extract. The binding pattern was revealed in most of 92S. pyogenes strains representing various M-or T-types with no apparent type variation. The component thus bridging the attachment of HLf to the streptococcal cell surface was recovered in extracts of agar-grown cells and isolated by affinity chromatography on HLf-sepharose. By gel filtration in the presence of radiolabeled HLf, this component exhibited similar elution position as crude water-soluble agar extract. Chemical analysis identified the active HLf-binding agar component to be a galactose-rich polysaccharide (GRP). Further binding tests showed that the interaction between streptococci and GRP was stable in the presence of high molar NaCl, KSCN, or urea and was unaffected by various serum or matrix proteins or by streptococcal lipoteichoic acid; however, a moderate inhibition by heparin or bovine mucin was observed. Studies on isogenic mutants ofS. pyogenes did not support the involvement of M-protein or the hyaluronate capsule in the binding of GRP. SDS-PAGE and Western blot analyses revealed a GRP-binding protein of approximately 70 kDa in the cell-wall extracts of two strains ofS. pyogenes, types M19 and M55. Finally, the adherence of (broth-grown)³H-thymidine-labeledS. pyogenes, type M19, to the pharyngeal epithelial cell line DT-562 or to normal tonsillar epithelial cells was inhibited by GRP in a dose-related manner. We thus propose that the streptococcal GRP-binding component may represent a novel surface lectin acting as a mucosal adhesin forS. pyogenes, in accordance with previous data indicating that galactosecontaining sugar moieties may serve as ligands for the adherence of streptococci to pharyngeal cells. Our results also indicate that GRP-like components such as mucin or heparin might act to block epithelial adherence ofS. pyogenes at the mucosal level.     

Utilization of mucin by oral Streptococcus species

The ability of oral Streptococcus strains to utilize oligosaccharide chains in mucin as a source of carbohydrate was studied in batch cultures. Pig gastric mucin, as a substitute of human salivary mucin, was added to chemically defined medium containing no other carbohydrates. Strains of S. mitior attained the highest cell density, while mutans streptococci: S. mutans, S. sobrinus, S. rattus, grew very little in the medium with mucin. S. mitis, S. sanguis, and S. milleri in decreasing order, showed intermediate growth. Mucin break-down as measured by sugar analyses indicated that oligosaccharide chains were only partially degraded. Every strain produced one or more exoglycosidases potentially involved in hydrolysis of oligosaccharide. The enzyme activities occurred mainly associated with the cells, and very little activity was found in the culture fluids. The relationships between glycosidase activities and growth, or mucin degradation were not always clear.     

Removal of mucus for ultrastructural observation of the surface of human gastric epithelium using pronase

Background. Helicobacter pylori adhering to the human gastric epithelium causes gastric diseases such as ulcer, carcinoma and lymphoma. It is thus important to observe in detail both the surface of the epithelial cells and the H. pylori that adhered to it for the elucidation of H. pylori‐induced diseases by scanning electron microscopy (SEM). Since the thick mucus layer blocks the observation of the cell surface and the bacteria, it is generally eliminated during the processing for SEM by roughly mechanical methods, but these treatments also demolish the ultrastructure of the cells. We studied the nonmechanical method for removal of mucus layer of gastric epithelium using pronase. Materials and Methods. To determine the optimal concentration of pronase, mucin was used as a substrate for inhibition of the viscosity. Pronase was added in 2% mucin at the concentration of 10, 50, 100, 500, 1000, 2000 or 5000 unit/ml and the flowing time of the mixture was measured. Based on the digestion experiment, biopsied specimens from 24 patients with dyspepsic symptoms were fixed in glutaraldehyde and then washed in rolling with different concentration of pronase. After the pretreatment by pronase, the specimens were treated according to the standard process for SEM. Results. We succeeded in removing the mucus layer on the surface of epithelial cells from the biopsied specimens fixed in glutaraldehyde by rinsing with 2000 unit/ml pronase for 24 hours. Conclusions. Using our digestive method without destroying the ultrastructure, the earliest stage which H. pylori has adhered onto the human gastric epithelium can be observed for the investigation of H. pylori‐induced gastric disorders by SEM.     

Dose-Response Envelope for Escherichia coli O157:H7

Escherichia coli O157:H7 is an emerging food and waterborne pathogen in the U.S. and internationally. The objective of this work was to develop a dose-response model for illness by this organism that bounds the uncertainty in the dose-response relationship. No human clinical trial data are available for E. coli O157:H7, but such data are available for two surrogate pathogens: enteropathogenic E. coli (EPEC) and Shigella dysenteriae. E. coli O157:H7 outbreak data provide an initial estimate of the most likely value of the dose-response relationship within the bounds of an envelope defined by beta-Poisson dose-response models fit to the EPEC and S. dysenteriae data. The most likely value of the median effective dose for E. coli O157:H7 is estimated to be approximately 190[emsp4 ]000 colony forming units (cfu). At a dose level of 100[emsp4 ]cfu, the median response predicted by the model is six percent.     

Muc1 Limits Helicobacter felis Binding to Gastric Epithelial Cells But Does not Limit Colonization and Gastric Pathology Following Infection

Background: The mucin Muc1 is constitutively expressed by the gastric mucosa and is likely the first point of direct contact between the host stomach and the adherent pathogens. The expression of Muc1 has been shown to limit colonization of mice by Helicobacter pylori, known to adhere to the gastric epithelium, as well as associated pathology. However, the potential role of this mucin against nonadherent Helicobacter has not been previously studied. We therefore examined the importance of Muc1 on the pathogenesis of Helicobacter felis, believed not to adhere to the murine mucosa. Methods and results: Using primary cell cultures, we found that H. felis can bind gastric epithelial cells in vitro, and adherence to epithelial cells deficient in Muc1 was increased compared to controls that expressed the mucin. However, following infection of deficient mice, we found that Muc1 did not impact on H. felis colonization or pathogenesis in vivo, in contrast to previous observations with H. pylori. Conclusions: This demonstrates a variable effect of Muc1 on protection against closely related adherent and nonadherent Helicobacter species, and supports a key role for Muc1 in limiting attachment of adherent bacteria to the gastric mucosal surface.     

Basement membrane carbohydrate as a target for bacterial adhesion: binding of type I fimbriae of Salmonella enterica and Escherichia coli to laminin

Adherence of type-1-fimbriate Salmonella enterica and Escherichia coli to immobilized proteins of the extracellular matrix and reconstituted basement membranes was studied. The type-1-fimbriate strain SH401 of S. enterica serovar Enteritidis showed good adherence to laminin, whereas the adherence to fibronectin, type I, type III, type IV or type V collagens was poor. Only minimal adherence to the matrix proteins was seen with a non-fimbriate strain of S. enterica serovar Typhimurium. A specific and mannoside-inhibitable adhesion to laminin was exhibited by the recombinant E. coli strain HB101(plSF101) possessing fim genes of Typhimurium. Adherence to laminin of strain SH401 was inhibited by Fab fragments against purified SH401 fimbriae, and a specific binding to laminin, of the purified fimbriae, was demonstrated using fimbriae-coated fluorescent microparticles. Periodate treatment of laminin abolished the bacterial adhesion as well as the fimbrial binding. Specific adhesion to immobilized laminin was also shown by the type-1 -fimbriate E. coli strain 2131 and the recombinant strain E. coli HB101(pPKL4) expressing the cloned type-1-fimbriae genes of E. coli. Adhesion to laminin of strain HB101(pPKL4) was inhibited by mannoside, and no adherence was seen with the fimH mutant E. coli HB101(pPKL5/pPKL53) lacking the fimbrial lectin subunit. The type-1 fimbriate strains also adhered to reconstituted basement membranes from mouse sarcoma cells and human placenta. Adhesion of strains HB101(plSF101) and HB101(pPKL4) to both basement membrane preparations was inhibited by mannoside. We conclude that type-1 fimbriae of S. enterica and E. coli bind to oMgomannoside chains of the lamjnjn network in basement membranes.     

In vitro binding ofBifidobacterium bifidum DSM 20082 to mucosal glycoproteins and hemagglutinating activity

Adhesive properties ofBifidobacterium bifidum strain DSM 20082 were studied by the hemagglutination test and an enzyme-linked immunosorbent assay (ELISA).B. bifidum caused agglutination of human A, B, and O erythrocytes and rabbit erythrocytes, but the interactions were not specific of blood group antigens. The hemagglutination was inhibited by porcine gastric mucin and rat intestinal and colonic mucin.B. bidifum was shown to adhere to different immobilized mucosal glycoproteins and to glycophorin A, a specific erythrocyte membrane glycoprotein. The data obtained with many glycosylated components indicated thatB. bifidum receptors involved in the hemagglutination test were not the same as those that adhere to mucus glycoproteins. The results suggest that the mucosal preparations contain receptors for specific bacterial adhesins, but their structures remain to be determined.     

Endo-beta-galactosidase of Escherichia freundii. Hydrolysis of pig colonic mucin and milk oligosaccharides by endoglycosidic action.

The purified keratansulfate degrading enzyme from $\text{Eschericia freundii}$ could hydrolyze desialyzed pig colonic mucin and milk oligosaccharides. Desialyzed pig colonic mucin was digested to produce GlcNAcβ(1→3)Gal, GlcNAc-6Sβ(1→3)Gal and resistant polymer. Lacto-N-tetraose and lacto-N-tetraitol were hydrolyzed endoglycosidically to release glucose and sorbitol, respectively. Therefore, this enzyme was found to be an endo-β-galactosidase of rather wide specificity.     

In vitro evaluation of adherence of Candida albicans,Candida glabrata,and Streptococcus mutans to an acrylic resin modified by experimental coatings

This study evaluated the effect of experimental coatings, containing zwitterion or hydrophilic monomers, on the adherence of Candida albicans, Candida glabrata, and Streptococcus mutans to an acrylic resin. Acrylic samples (smooth or rough surfaces) were left untreated (control) or coated with one of the following experimental coatings: 3-hydroxypropylmethacrylate (HP) or sulfobetaine methacrylate (S), at concentrations of 25, 30, or 35%. Half of the specimens were coated with saliva. The adhesion test was performed by incubating specimens in C. albicans, C. glabrata, and S. mutans suspensions at 37°C for 90?min. The number of adhered microorganisms was determined by metabolic activity (XTT) and by cell viability (CFU). All coated specimens exhibited lower absorbance and CFU values compared to control specimens. Saliva and roughness did not promote microorganism adherence. An XPS analysis confirmed the modification in the chemical composition of the coatings in the experimental samples. These experimental coatings significantly reduced the adherence of C. albicans, C. glabrata and S. mutans to acrylic resin.     

Monoclonal antibodies directed against the galactose-binding lectin of Entamoeba histolytica enhance adherence.

The Entamoeba histolytica galactose-binding lectin is a surface glycoprotein composed of 170- and 35-kDa subunits. Inhibition of this lectin with galactose or anti-170 kDa subunit polyclonal antibody blocks amebic adherence to target cells and colonic mucin glycoproteins. We describe the properties of 10 mAb with specificity for the 170-kDa subunit. Based on competitive binding studies, six nonoverlapping antigenic determinants on the lectin were identified. The effect of the mAb on adherence of amebic trophozoites to both Chinese hamster ovary (CHO) cells and human colonic mucins was measured. Antilectin antibodies directed against epitopes 1 and 2 enhanced adherence, with the number of amebae having at least three adherent CHO cells increasing with the addition of epitope 1 mAb from 26 +/- 9 to 88 +/- 2% and the binding of colonic mucins increasing from 34 +/- 1 to 164 +/- 3 pg/10(5) amebae. Antibody-enhanced adherence remained 90 to 100% galactose inhibitable, occurred at 4 degrees C and was not Fc mediated. Univalent Fab fragments of epitope 1 mAb augmented mucin binding by 238% and CHO cell adherence by 338%. The binding of purified lectin to CHO cells was increased from 1.1 +/- 0.1 to 2.4 +/- 0.3 ng/10(3) CHO cells by mAb directed to epitope 1, demonstrating that enhanced adherence was due to direct activation of the lectin. mAb to epitope 3 bound to the lectin only upon its solubilization from the membrane and had no effect on adherence. Adherence to CHO cells and mucins was inhibited from 50 to 75% by mAb to epitopes 4 and 5; epitope 6 mAb inhibited amebic adherence to CHO cells but not mucins. The pooled sera from 10 patients with amebic liver abscess blocked the binding to the 170-kDa subunit of mAb directed to all six epitopes. Striking individual variations in the effects of immune sera on adherence were observed. Although the sera of all 44 South African patients with amebic liver abscess had high titer anti-lectin antibodies, 16 patients' sera significantly (more than 3 SEM) enhanced adherence whereas 25 patients' sera significantly inhibited adherence. Antilectin antibodies exert profound functional effects on the interaction of E. histolytica with target cells and human colonic mucins. Exploration of the clinical consequences of adherence-enhancing and inhibitory antibody responses may give insight into the role of antilectin antibodies in immunity to invasive amebiasis.