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Pathogenesis and clinical significance of AIDA-I-positive <i>E. coli</i> in diarrhea of pigsRavi, Madhu Babu 03 July 2006
<i>Escherichia coli </i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of E. coli carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarr<i>Escherichia coli</i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of <i>E. coli</i> carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarrhea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in <i>E. coli</i> isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic <i>E. coli</i> isolates and that from a human <i>E. coli</i> isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I <i>E. coli</i> virotype are unknown in humans or in animals. <p>First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) <i>E. coli</i>; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic <i>E. coli</i> strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains.<p>Second, 110 F4 negative <i>E. coli</i> isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ <i>E. coli</i> isolates. <p>The clinical significance of the AIDA-I+ <i>E. coli</i> was studied using clinical data available for 35 of the 110 <i>E. coli</i> isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ <i>E. coli</i> and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic <i>E. coli</i> strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ <i>E. coli</i>. <p>In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs. .hea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in E. coli isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic E. coli isolates and that from a human E. coli isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I E. coli virotype are unknown in humans or in animals.
First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) E. coli; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic E. coli strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains.
Second, 110 F4 negative E. coli isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ E. coli isolates.
The clinical significance of the AIDA-I+ E. coli was studied using clinical data available for 35 of the 110 E. coli isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ E. coli and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic E. coli strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ E. coli.
In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs.
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Pathogenesis and clinical significance of AIDA-I-positive <i>E. coli</i> in diarrhea of pigsRavi, Madhu Babu 03 July 2006 (has links)
<i>Escherichia coli </i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of E. coli carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarr<i>Escherichia coli</i> remains a significant cause of diarrhea worldwide and in recent years a relatively high number of <i>E. coli</i> carrying gene for AIDA-I (adhesin involved in diffuse adherence) has been isolated from cases of neonatal and post-weaning diarrhea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in <i>E. coli</i> isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic <i>E. coli</i> isolates and that from a human <i>E. coli</i> isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I <i>E. coli</i> virotype are unknown in humans or in animals. <p>First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) <i>E. coli</i>; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic <i>E. coli</i> strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains.<p>Second, 110 F4 negative <i>E. coli</i> isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ <i>E. coli</i> isolates. <p>The clinical significance of the AIDA-I+ <i>E. coli</i> was studied using clinical data available for 35 of the 110 <i>E. coli</i> isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ <i>E. coli</i> and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic <i>E. coli</i> strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ <i>E. coli</i>. <p>In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs. .hea in pigs. AIDA-I adhesin and its gene aidA were first identified and characterized in E. coli isolated from a human case of infantile diarrhea. Recent studies have demonstrated a significant degree of homology between the AIDA-I adhesin isolated from porcine neonatal diarrheagenic E. coli isolates and that from a human E. coli isolate; however, the role of AIDA-I adhesin in the pathogenesis of diarrhea and the clinical significance of the AIDA-I E. coli virotype are unknown in humans or in animals.
First, in order to evaluate the role of AIDA-I adhesin, colostrum deprived newborn pigs were infected with: i) a wild strain PD20 (AIDA-I+/STb+) E. coli; ii) a mutant strain PD20M (AIDA-I-/STb+), generated by partial deletion of the aidA gene from the wild strain, iii) a complemented strain PD20C (AIDA-I+/STb+), generated by reintroducing the full length aidA gene into PD20M strain, and iv) a nonpathogenic E. coli strain PD71 used as negative control. Pigs infected with wild type (PD20) and complemented (PD20C) strains developed diarrhea between 15-19 h and 27-31 h after oral inoculation, respectively, in contrast to pigs infected with strains PD20M or PD71 that did not developed diarrhea. Intestinal colonization was evaluated by histology, imunohistochemistry (IHC), transmission electron microscopy (TEM), including immunogold electron microscopy (IGEM), and showed heavy bacterial colonization with biofilm formation in the large intestine with AIDA-I+ strains (PD20 and PD20C), but not in pigs infected with AIDA-I- strains (PD20M and PD71). In vitro assays showed marked diffuse adherence to HeLa cells, enhanced bacterial autoaggregation and significant biofilm formation by AIDA-I+ strains, when compared to AIDA-I- strains.
Second, 110 F4 negative E. coli isolates from problematic cases of diarrhea in pigs were subjected to multiplex polymerase chain reaction (M-PCR) for detection of the genes encoding the virulence factors F4, F5, F6, F18, F41, AIDA-I, EAE, STa, STb, LT, EAST1 and Stx2e. In this study, the prevalence of aidA gene among the 110 isolates was 8.2%, and the aidA gene was shown to be associated most commonly with EAST1 and STb genes. The genes for the F4, F5, F6 and F41 fimbriae were absent in all the AIDA-I+ E. coli isolates.
The clinical significance of the AIDA-I+ E. coli was studied using clinical data available for 35 of the 110 E. coli isolates, originating from 18 cases of diarrhea. Among these 18 diarrhea cases, 3 cases (5 isolates) were found to have AIDA-I+ E. coli and these were significantly associated with diarrhea cases of post-weaning age group. Enterotoxigenic E. coli strains were isolated from the majority (72.5%) of 18 diarrhea cases and a high proportion (23.1%) of these ETEC cases carried AIDA-I+ E. coli.
In conclusion, AIDA-I adhesin appears to be a significant virulence factor for intestinal colonization and induction of biofilm formation. Further, experimental studies and clinical data suggest that the AIDA-I/STb virotype may be important in the pathogenesis of pre-weaning and post-weaning diarrhea in pigs. Our results suggest that AIDA-I may play a significant role in the development of diarrhea in pigs.
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Influence of recombinant passenger properties and process conditions on surface expression using the AIDA-I autotransporterGustavsson, Martin January 2013 (has links)
Surface expression has attracted much recent interest, and it has been suggested for a variety of applications. Two such applications are whole-cell biocatalysis and the creation of live vaccines. For successful implementation of these applications there is a need for flexible surface expression systems that can yield a high level of expression with a variety of recombinant fusion proteins. The aim of this work was thus to create a surface expression system that would fulfil these requirements. A novel surface expression system based on the AIDA-I autotransporter was created with the key qualities being are good, protein-independent detection of the expression through the presence of two epitope tags flanking the recombinant protein, and full modularity of the different components of the expression cassette. To evaluate the flexibility of this construct, 8 different model proteins with potential use as live-vaccines or biocatalysts were expressed and their surface expression levels were analysed. Positive signals were detected for all of the studied proteins using antibody labelling followed by flow cytometric analysis, showing the functionality of the expression system. The ratio of the signal from the two epitope tags indicated that several of the studied proteins were present mainly in proteolytically degraded forms, which was confirmed by Western blot analysis of the outer membrane protein fraction. This proteolysis was suggested to be due to protein-dependent stalling of translocation intermediates in the periplasm, with indications that larger size and higher cysteine content had a negative impact on expression levels. Process design with reduced cultivation pH and temperature was used to increase total surface expression yield of one of the model proteins by 400 %, with a simultaneous reduction of proteolysis by a third. While not sufficient to completely remove proteolysis, this shows that process design can be used to greatly increase surface expression. Thus, it is recommended that future work combine this with engineering of the bacterial strain or the expression system in order to overcome the observed proteolysis and maximise the yield of surface expressed protein. / <p>QC 20130516</p>
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Characterization of porcine AIDA-I adhesin and its receptorsFang, Yuanmu 25 April 2007
A relatively high percentage of porcine <i>Escherichia coli</i> isolates from cases associated with neonatal and post-weaning diarrhea are positive for the gene encoding the adhesin involved in diffuse adherence I (AIDA-I). This gene and its corresponding protein were first identified and characterized in <i>E. coli</i> strain 2787 isolated from human infantile diarrhea. Little is known about the role of the AIDA-I protein in pathogenesis of porcine enteric disease caused by AIDA-I positive E. coli and the properties of AIDA-I protein expressed by porcine AIDA-I positive <i>E. coli</i> isolates and its receptors. <p>In this study, we demonstrated that AIDA-I adhesin isolated from porcine AIDA-I positive <i>E. coli</i> PD20 and PD58 is an acidic protein consisting of five isoforms. It has a molecular weight (100 kDa) similar to the AIDA-I adhesin expressed by human AIDA-I positive <i>E. coli</i> strain 2787 and has a relatively high amino acid homology (78-87%) with it. Immunodetection of AIDA-I positive <i>E. coli</i> strains using polyclonal anti-AIDA-I antibodies had relatively low sensitivity and specificity, accordingly these tests are unlikely to be used for regular diagnostic detection. <p>Using affinity chromatography, we isolated from porcine intestinal mucus proteins that bind to purified AIDA-I adhesin. These proteins were separated by one- and two-dimensional electrophoresis and subjected to overlay Western blot with purified AIDA-I adhesin and AIDA-I positive <i>E. coli</i> to demonstrate 65 and 120 kDa (p65 and p120) proteins as AIDA-I binding proteins. The identity of p65 was not determined based on LCMS/MS data, whereas p120 was matched to two nuclear proteins (namely, DNA damage binding protein and splicing factor 3b) and one cytoplasmic protein, which is an IgG Fc binding protein. Based on similar amino acid homology, molecular weight, structural similarity to mucin and reported evidence of being secreted by goblet cells into the intestinal lumen, we think that the IgG Fc binding protein is the most likely candidate to serve as a potential receptor in intestinal mucus for AIDA-I adhesin.
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Characterization of porcine AIDA-I adhesin and its receptorsFang, Yuanmu 25 April 2007 (has links)
A relatively high percentage of porcine <i>Escherichia coli</i> isolates from cases associated with neonatal and post-weaning diarrhea are positive for the gene encoding the adhesin involved in diffuse adherence I (AIDA-I). This gene and its corresponding protein were first identified and characterized in <i>E. coli</i> strain 2787 isolated from human infantile diarrhea. Little is known about the role of the AIDA-I protein in pathogenesis of porcine enteric disease caused by AIDA-I positive E. coli and the properties of AIDA-I protein expressed by porcine AIDA-I positive <i>E. coli</i> isolates and its receptors. <p>In this study, we demonstrated that AIDA-I adhesin isolated from porcine AIDA-I positive <i>E. coli</i> PD20 and PD58 is an acidic protein consisting of five isoforms. It has a molecular weight (100 kDa) similar to the AIDA-I adhesin expressed by human AIDA-I positive <i>E. coli</i> strain 2787 and has a relatively high amino acid homology (78-87%) with it. Immunodetection of AIDA-I positive <i>E. coli</i> strains using polyclonal anti-AIDA-I antibodies had relatively low sensitivity and specificity, accordingly these tests are unlikely to be used for regular diagnostic detection. <p>Using affinity chromatography, we isolated from porcine intestinal mucus proteins that bind to purified AIDA-I adhesin. These proteins were separated by one- and two-dimensional electrophoresis and subjected to overlay Western blot with purified AIDA-I adhesin and AIDA-I positive <i>E. coli</i> to demonstrate 65 and 120 kDa (p65 and p120) proteins as AIDA-I binding proteins. The identity of p65 was not determined based on LCMS/MS data, whereas p120 was matched to two nuclear proteins (namely, DNA damage binding protein and splicing factor 3b) and one cytoplasmic protein, which is an IgG Fc binding protein. Based on similar amino acid homology, molecular weight, structural similarity to mucin and reported evidence of being secreted by goblet cells into the intestinal lumen, we think that the IgG Fc binding protein is the most likely candidate to serve as a potential receptor in intestinal mucus for AIDA-I adhesin.
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Étude et inhibition de l'adhésine impliquée dans l'adhérence diffuse (AIDA-I) d'escherichia coliGirard, Victoria January 2008 (has links)
Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Étude et inhibition de l'adhésine impliquée dans l'adhérence diffuse (AIDA-I) d'escherichia coliGirard, Victoria January 2008 (has links)
Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal
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Strategies for improved Escherichia coli bioprocessing performanceJarmander, Johan January 2015 (has links)
Escherichia coli has a proven track record for successful production of anything from small molecules like organic acids to large therapeutic proteins, and has thus important applications in both R&D and commercial production. The versatility of this organism in combination with the accumulated knowledge of its genome, metabolism and physiology, has allowed for development of specialty strains capable of performing very specific tasks, opening up opportunities within new areas. The work of this thesis has been devoted to alter membrane transport proteins and the regulation of these, in order for E. coli to find further application within two such important areas. The first area was vaccine development, where it was investigated if E. coli could be a natural vehicle for live vaccine production. The hypothesis was that the introduction and manipulation of a protein surface translocation system from pathogenic E. coli would result in stable expression levels of Salmonella subunit antigens on the surface of laboratory E. coli. While different antigen combinations were successfully expressed on the surface of E. coli, larger proteins were affected by proteolysis, which manipulation of cultivation conditions could reduce, but not eliminate completely. The surface expressed antigens were further capable of inducing proinflammatory responses in epithelial cells. The second area was biorefining. By altering the regulation of sugar assimilation, it was hypothesized that simultaneous uptake of the sugars present in lignocellulose hydrolyzates could be achieved, thereby improving the yield and productivity of important bio-based chemicals. The dual-layered catabolite repression was identified and successfully removed in the engineered E. coli, and the compound (R)-3-hydroxybutyric acid was produced from simultaneous assimilation of glucose, xylose and arabinose. / <p>QC 20150508</p>
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Improved detection and performance of surface expression from the AIDA-I autotransporterJarmander, Johan January 2013 (has links)
Surface expression of recombinant proteins has attracted a lot of attention due to its potential in applications such as enzyme production, vaccine delivery and bioremediation. Autotransporters have been used for surface expression of a variety of proteins, but the expression systems reported in literature have typically been inflexible and incapable of detecting proteolysis, thereby limiting surface expression yield. In this thesis, a modular surface expression system, utilizing dual tag detection, was therefore created. It was based on the adhesin involved in diffuse adherence (AIDA-I) autotransporter, and was here used to express the model proteins SefA and H:gm on the cell surface of Escherichia coli. Due to the dual tag detection system, proteolysed H:gm could be successfully verified on the cell surface. By optimizing cultivation conditions, surface expression yield of SefA was increased by 300 %, and proteolysis reduced by 33 %. While proteolysis could not be eliminated completely, the work presented in this thesis is a major step towards a general system for surface expression of a wide range of proteins in varied applications. / <p>QC 20130506</p>
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L’apolipoprotéine A-I interagit avec l’adhésine impliquée dans l’adhérence diffuse (AIDA-I) d’Escherichia coli : rôle lors du processus d’adhésion et d’invasionRené, Mélissa 05 1900 (has links)
L’adhésine impliquée dans l’adhérence diffuse (AIDA-I) est une adhésine bactérienne présente chez certaines souches d’Escherichia coli qui, associée aux toxines Stx2e ou STb, contribue à l’apparition de la maladie de l’œdème ou de la diarrhée post-sevrage chez les porcelets. AIDA-I est un autotransporteur qui confère des capacités d’autoaggrégation, de formation de biofilms et d’adhésion. L’objectif principal du projet de recherche consistait en la recherche de récepteur(s) potentiel(s) d’AIDA-I.
Les bactéries pathogènes adhèrent aux cellules-cibles soit en liant directement des molécules à la surface cellulaire ou en utilisant des molécules intermédiaires qui permettent de diminuer la distance séparant la bactérie de la cellule-cible. Puisque le sérum est un fluide qui contient de nombreuses molécules, celui-ci a été utilisé comme matériel de départ pour l’isolement de récepteur(s) potentiels. Nous avons isolé un récepteur potentiel à partir du sérum porcin : l’apolipoprotéine A-I. L’interaction entre l’apolipoprotéine A-I et AIDA-I a été confirmée par ELISA et microscopie à fluorescence.
La capacité à envahir les cellules épithéliales offre aux pathogènes la possibilité d’établir une niche intracellulaire qui les protègent contre les attaques du milieu extérieur. La présente étude a démontré que la présence d’AIDA-I en tant que seul facteur de virulence chez une souche de laboratoire permet de conférer la capacité d’envahir les cellules sans promouvoir la survie intracellulaire. L’étude de la souche sauvage 2787, exprimant AIDA-I en association avec d’autres facteurs de virulence, a démontré une différence significative pour les phénotypes d’invasion et de survie intracellulaire face à la souche de laboratoire exprimant AIDA-I. / The adhesin involved in diffuse adherence (AIDA-I) is a bacterial adhesin associated with some Escherichia coli strains that might, when associated with toxin Stx2e or STb, contribute to the development of edema disease or post-weaning diarrhea in piglets. AIDA-I is an autotransporter that mediates various phenotypes such as adhesion, autoaggregation and biofilm formation. The main aim of our project was to find potential receptor(s) for AIDA-I.
Pathogens can either bind cell directly by targeting exposed cell surface molecules or use an intermediate molecule as a bridge to lessen the space separating them from their target cell. Serum is known to contain a wide range of molecules so it has been used as raw material for the isolation of a putative receptor for AIDA-I. We isolated a putative receptor for AIDA-I: the apolipoprotein A-I. The interaction between the apolipoprotein A-I and AIDA-I was confirmed by ELISA and fluorescent microscopy.
The capacity to invade epithelial cell enables pathogens to create an intracellular niche that protects them against attacks from the extracellular environment. The present report has shown that the presence of AIDA-I as the sole virulence factor in a laboratory strain, enable bacteria to invade cultured cells but does not promote intracellular survival. Studies conducted on wild-type strain 2787, which express AIDA-I in association with other virulence factors, has shown a significant difference in invasion and intracellular survival phenotypes compared to the laboratory strain expressing AIDA-I.
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