Proteus mirabilis expresses several virulence factors including MR/P fimbriae and flagella. Bacte... more Proteus mirabilis expresses several virulence factors including MR/P fimbriae and flagella. Bacterial flagellin has frequently shown interesting adjuvant and protective properties in vaccine formulations. However, native P. mirabilis flagellin has not been analyzed so far. Native P. mirabilis flagellin was evaluated as a protective antigen and as an adjuvant in co-immunizations with MrpA (structural subunit of MR/P fimbriae) using an ascending UTI model in the mouse. Four groups of mice were intranasally treated with either MrpA, native flagellin, both proteins and PBS. Urine and blood samples were collected before and after immunization for specific antibodies determination. Cytokine production was assessed in immunized mice splenocytes cultures. Mice were challenged with P. mirabilis, and bacteria quantified in kidneys and bladders. MrpA immunization induced serum and urine specific anti-MrpA antibodies while MrpA coadministered with native flagellin did not. None of the animals developed significant anti-flagellin antibodies. Only MrpA-immunized mice showed a significant decrease of P. mirabilis in bladders and kidneys. Instead, infection levels in MrpA-flagellin or flagellin-treated mice showed no significant differences with the control group. IL-10 was significantly induced in splenocytes of mice that received native flagellin or MrpA-flagellin. Native P. mirabilis flagellin did not protect mice against an ascending UTI. Moreover, it showed an immunomodulatory effect, neutralizing the protective role of MrpA. P. mirabilis flagellin exhibits particular immunological properties compared to other bacterial flagellins.
The formation of intracellular bacterial communities (IBC) has been proposed as a new pathogenic ... more The formation of intracellular bacterial communities (IBC) has been proposed as a new pathogenic model for urinary tract infections. Scarce reports describe this phenomenon in humans. We describe the presence of IBC in uroepithelial cells of a child with recurrent urinary infections. Urine specimen was collected from a child with Escherichia coli UTI and analyzed by light and confocal laser scanning microscopy (CLSM). The capability of this strain to produce intracellular infection in bladder tissue was confirmed in mice models. Escherichia coli phylogenetic group, presence of virulence factors genes, and its multiple locus sequence type were determined. CLSM showed large collections of morphologically coccoid and rod bacteria in eukaryotic cells cytoplasm, even seemingly protruding from the cells. Escherichia coli EC7U, ST3626, harbored type 1, P, and S/F1C fimbriae and K1 capsule genes. In this report, we confirm the presence of IBC in children with UTI, as it has been described before in women.
Urinary tract infections (UTIs) are among the most common bacterial infections in humans. Proteus... more Urinary tract infections (UTIs) are among the most common bacterial infections in humans. Proteus mirabilis is an opportunistic pathogen, capable of causing severe UTIs, with serious kidney damage that may even lead to death. Several virulence factors are involved in the pathogenicity of this bacterium. Among these, adherence to the uroepithelium mediated by fimbriae appears to be a significant bacterial attribute related to urovirulence. Proteus mirabilis expresses several types of fimbriae that could be involved in the pathogenesis of UTI, including uroepithelial cell adhesin (UCA). In this report, we used an uropathogenic P. mirabilis wild-type strain and an isogenic ucaA mutant unable to express UCA to study the pathogenic role of this fimbria in UTI. Ability of the mutant to adhere to desquamated uroepithelial cells and to infect mice using different experimental UTI models was significantly impaired. These results allow us to conclude that P. mirabilis UCA plays an important role in the colonization of the urinary tract.
Although the vast majority of bacteria are harmless or beneficial, quite a few bacteria are patho... more Although the vast majority of bacteria are harmless or beneficial, quite a few bacteria are pathogenic. Pathogenic bacteria are only pathogenic under certain conditions, such as a wound that allows for entry into the blood, or a decrease in immune function. In this book, the authors present current research in the study of the virulence mechanisms, diagnosis and management of bacterial pathogens. Topics discussed include Pseudomonas aeruginosa (P. aeruginosa) in our environment; phage therapy in the treatment of bacterial infections; P. mirabilis virulence factor associated with urinary tract infections; efflux pumps for the multi-drug resistant phenotypes of bacterial pathogens; and the role of HtrA as a chaperone and protease in bacterial pathogenesis
This is a z-stack movie from the images obtained in the confocal microscope. The images were obta... more This is a z-stack movie from the images obtained in the confocal microscope. The images were obtained using an Olympus FV300 Microscope with the software Flouview and adquisition parameters were the ones described in the paper.
Proteus mirabilis is frequently associated with complicated urinary tract infections (UTI). It is... more Proteus mirabilis is frequently associated with complicated urinary tract infections (UTI). It is proposed that several virulence factors are associated with P. mirabilis uropathogenicity. The aim of this work was to elucidate genotoxic and cytotoxic effects mediated by MR/P fimbriae and flagella in eukaryotic cells in vitro. Two cell lines (kidney- and bladder-derived) were infected with a clinical wild type P. mirabilis strain and a MR/P and a flagellar mutant. We evaluated adhesion, genotoxicity and cytotoxicity by microscopy, comet assay and triple staining technique respectively. Mutant strains displayed lower adhesion rates than the P. mirabilis wild type strain and were significantly less effective to induce genotoxic and cytotoxic effects compared to the wild type. We report for the first time that P. mirabilis MR/P fimbriae and flagella mediate genotoxic and cytotoxic effects on eukaryotic cells, at least in in vitro conditions. These results could contribute to design new ...
Uropathogenic Escherichia coli (UPEC) is the most common agent of urinary tract infection (UTI). ... more Uropathogenic Escherichia coli (UPEC) is the most common agent of urinary tract infection (UTI). The classic model of pathogenesis proposes the ascent of UPEC by the urethra and external adherence to the urothelium. Recently, the ability of UPEC to invade urothelial cells and to form intracellular bacterial communities (IBCs) has been described. The objective of the present study was to determine the presence of intracellular bacteria (IB) in children with UTI caused by E. coli and to characterize its virulence attributes and its relation with clinical outcomes. One hundred thirty-three children with E. coli UTI who attended a reference children's hospital between June and November 2012 were included. Urine samples were analyzed by optical and confocal microscopy looking for exfoliated urothelial cells with IB. Phylogenetic group and 24 virulence factors of UPEC were determined using multiplex polymerase chain reaction. Medical records were analyzed. The presence of IB was detected in 49 of 133 (36.8%) samples by confocal microscopy, in 30 cases as IBC, and in 19 as isolated intracellular bacteria (IIB). Only 50% of these cases could be detected by light microscopy. Seventy-four medical records were analyzed, 34 with IBC/IIB, 40 without IB. Any virulence gene was associated with IBC/IIB. The presence of IBC/IIB was associated with recurrent UTI (odds ratio [OR], 3.3; 95% confidence interval [CI], 1.3-9; P = .017), especially in children without urinary tract functional or morphological abnormalities (OR, 8.0; 95% CI, 2.3-27.4; P = .000). IBCs were associated with lower urinary tract syndrome (OR, 3.6; 95% CI, 1.1-11.8; P = .05) and absence of fever (P = .009). IBCs/IIB could explain a high proportion of children with recurrent UTI.
Proteus mirabilis is commonly associated with complicated UTI and expresses several virulence fac... more Proteus mirabilis is commonly associated with complicated UTI and expresses several virulence factors, including MR/P fimbriae. In the present study mice were immunised nasally with MrpA, the structural subunit of MR/P, with or without CT as a mucosal adjuvant. The animals were then challenged with P. mirabilis and induction of specific serum and urine IgG and IgA, IFN-γ production and bacterial kidney and bladder colonization were assessed. MrpA-immunised mice exhibited significant induction of serum IgA and urine IgA and IgG. MrpA/CT-immunised mice showed both significant serum and urine IgA and IgG production. Only this group showed significant IFN-γ production. Both groups of animals had significant decrease in bacterial colonization of kidneys but not of bladders. No correlation between specific antibody induction in serum and CFU decrease was observed in any group of animals. Our results suggest that a mucosal adjuvant (CT) in the urinary tract enhanced humoral and cytokine response although it did not influence the degree of protection against UTI provided by MrpA. Further studies are necessary to understand immune modulation in the urinary tract.
Flagella are bacterial virulence factors allowing microorganisms to move over surfaces. Flagellin... more Flagella are bacterial virulence factors allowing microorganisms to move over surfaces. Flagellin, the structural component of flagella, is sensed by the host via Toll and NOD-like receptors and triggers pro-inflammatory responses. The use of Toll-like receptors agonists to modulate innate immune responses has aroused great interest as an alternative to improve the treatment of diverse infectious diseases. Proteus mirabilis is a Gram negative bacterium that causes urinary tract infections in humans. In the present work we used different approaches to study the ability of P. mirabilis flagellin to induce an innate immune response. We demonstrated that P. mirabilis flagellin has the ability to induce pro-inflammatory chemokines expression in T24 bladder cultures cells and in the mouse bladder after instillation. It was evidenced also that flagellin from different P. mirabilis strains differed in their capacity to induce an innate immune response in the CacoCCL20-Luc system. Also, flagellin elicited inflammation, with recruitment of leukocytes to the bladder epithelium. Flagellin instillation before an experimental P. mirabilis infection showed that the inflammatory response due to flagellin did not help to clear the infection but favored bacterial colonization. Thus, induction of inflammatory response in the bladder did not contribute to P. mirabilis infection neutralization.
This work studies the development of the 3D architecture of batch culture P. mirabilis biofilms o... more This work studies the development of the 3D architecture of batch culture P. mirabilis biofilms on the basis of morpho-topological descriptors calculated from confocal laser scanning microscopy (CLSM) stacks with image processing routines. A precise architectonical understanding of biofilm organization on a morphotopological level is necessary to understand emergent interactions with the environment and the appearance of functionally different progeny swarmer cells. P. mirabilis biofilms were grown on glass coverslips for seven days on LB broth and subjected to in situ immunofluorescence. Confocal image stacks were deconvolved prior to segmentation of regions of interest (ROI) that identify individual bacteria and extracellular material, followed by 3D reconstruction and calculation of different morpho-topological key descriptors. Results showed that P. mirabilis biofilm formation followed a five stage process: (i) reversible adhesion to the surface characterized by slow growth, presence of elongated bacteria, and absence of extracellular material, (ii) irreversible bacterial adhesion concomitant to decreasing elongation, and the beginning of extracellular polymer production, (iii) accelerated bacterial growth concomitant to continuously decreasing elongation and halting of extracellular polymer production, (iv) maturation of biofilm defined by maximum bacterial density, volume, minimum elongation, maximum extracellular material, and highest compaction, and (v) decreased bacterial density and extracellular material through detachment and dispersion. Swarmer cells do not play a role in P. mirabilis biofilm formation under the applied conditions. Our approach sets the basis for future studies of 3D biofilm architecture using dynamic in vivo models and different environmental conditions that assess clinical impacts of P. mirabilis biofilm.
The development of effective strategies to prevent urinary tract infections (UTIs) has become an ... more The development of effective strategies to prevent urinary tract infections (UTIs) has become an important goal in public health. Proteus mirabilis is commonly associated with complicated UTIs and expresses several virulence factors, including mannose-resistant Proteus-like (MR/P) fimbriae. Here, a fusion protein formed from MrpA, the structural protein of MR/P fimbriae, and TetC, a non-toxic but highly immunogenic fragment of tetanus toxin, to be delivered by an attenuated Salmonella Typhimurium mutant in vivo was constructed. The ability of this strain to induce an immune response and to protect mice against a urinary tract challenge with P. mirabilis was investigated. The protein was successfully expressed in S. Typhimurium. After two immunization doses, intra-nasally vaccinated mice showed a significant increase in specific serum IgG against MrpA and against Salmonella lipopolysaccharide, as well as a significant decrease in kidney and bladder colonization by P. mirabilis after challenge. However, no significant correlation was observed between antibody response and kidney or bladder colonization. MrpA fused to TetC and expressed in S. Typhimurium effectively protected mice against an experimental P. mirabilis UTI.
The nontyphoidal Salmonella enterica serovar Dublin is adapted to cattle but infrequently infects... more The nontyphoidal Salmonella enterica serovar Dublin is adapted to cattle but infrequently infects humans, very often resulting in invasive infections with high levels of morbidity and mortality. A Salmonella-induced intestinal acute inflammatory response is postulated as a mechanism to prevent bacterial dissemination to systemic sites. In S. enterica serovar Typhimurium, flagella contribute to this response by providing motility and FliC-mediated activation of pattern recognition receptors. In this study, we found 4 Salmonella enterica isolates, with the antigenic formula 9,12:-:-, that, based on fliC sequence and multilocus sequence type (MLST) analyses, are aflagellate S. Dublin isolates. Interestingly, all were obtained from human bloodstream infections. Thus, we investigated the potential role of flagella in the unusual invasiveness exhibited by S. Dublin in humans by analyzing flagellation and proinflammatory properties of a collection of 10 S. Dublin human clinical isolates. We found that 4 of 7 blood isolates were aflagellate due to significantly reduced levels of fliC expression, whereas all 3 isolates from other sources were flagellated. Lack of flagella correlated with a reduced ability of triggering interleukin-8 (IL-8) and CCL20 chemokine expression in human intestinal Caco-2 cells and with reduced early inflammation in the ceca of streptomycin-pretreated C57/BL6 mice. These results indicate that flagella contribute to the host intestinal inflammatory response to Salmonella serovar Dublin and suggest that their absence may contribute to its systemic dissemination through dampening of the gut immune response. Analysis of FliC production in a collection of cattle isolates indicated that the aflagellate phenotype is widely distributed in field isolates of S. Dublin.
Proteus mirabilis is a common cause of urinary tract infection (UTI) and produce several types of... more Proteus mirabilis is a common cause of urinary tract infection (UTI) and produce several types of different fimbriae, including mannose-resistant/Proteus-like fimbriae, uroepithelial cell adhesin (UCA), and P. mirabilis fimbriae (PMF). Different authors have related these fimbriae with different aspects of P. mirabilis pathogenesis, although the precise role of fimbriae in UTI has not yet been elucidated. In this work we expressed and purified recombinant structural fimbrial proteins of these fimbriae (MrpA, UcaA, and PmfA) and assessed their role as protective antigens using an ascending and a haematogenous model of UTI in the mouse. MrpA protected subcutaneously immunised mice in both models, suggesting that it could be taken into account as a promising vaccine candidate against P. mirabilis UTI. UcaA could also be an interesting subunit to be studied although it only protected mice that were challenged intravenously. All subunits elicited a strong specific serum IgG response but there was no significant correlation between antibody levels and protection. Only PmfAimmunised mice elicited a significant urinary antibody response but this protein was unable to confer protection against P. mirabilis experimental challenges. These results may contribute to the development of vaccines against P. mirabilis, an important cause of complicated UTI.
Probiotics are increasingly being considered as non-pharmaceutical and safe potential alternative... more Probiotics are increasingly being considered as non-pharmaceutical and safe potential alternatives for the treatment and prevention of a variety of pathologies including urinary tract infections. These are the most common infections in medical practice and are frequently treated with antibiotics, which have generated an intense selective pressure over bacterial populations. Proteus mirabilis is a common cause of urinary tract infections in catheterised patients and people with abnormalities of the urinary tract. In this work we isolated, identified and characterised an indigenous Lactobacillus murinus strain (LbO2) from the vaginal tract of a female mouse. In vitro characterisation of LbO2 included acid and bile salts tolerance, growth in urine, adherence to uroepithelial cells and in vitro antimicrobial activity. The selected strain showed interesting properties, suitable for its use as a probiotic. The ability of LbO2 to prevent and even treat ascending P. mirabilis urinary tract infection was assessed using an experimental model in the mouse. Kidney and bladder P. mirabilis counts were significantly lower in mice preventively treated with the probiotic than in non-treated mice. When LbO2 was used for therapeutic treatment, bladder counts of treated mice were significantly lower although no significant differences were detected in P. mirabilis kidney colonisation of treated and non-treated animals. These results are encouraging and prompt further research related to probiotic strains and the basis of their effects for their use in human and animal health.
Proteus mirabilis, a common cause of urinary tract infections in humans, can express different fi... more Proteus mirabilis, a common cause of urinary tract infections in humans, can express different fimbriae. MR/P fimbriae may contribute to bacterial colonisation, and its structural protein MrpA represents a promising candidate antigen for mucosal vaccination. Commercial complex vaccines have limited, short-lived protection and are incapable of eliciting mucosal responses against putative antigens related to virulence. The development of mucosal live vaccines using food-grade lactic acid bacterium Lactococcus lactis as antigen vehicle is an attractive alternative and a safe vaccination strategy against P. mirabilis infection. Here, we report the construction of L. lactis strains modified to produce MrpA via two cellular locations, cell wall-anchored and secreted. Protection assays against P. mirabilis infection and evaluation of the immune response generated after immunisation were conducted in a mouse model. MrpA protein was efficiently expressed by L. lactis strain and caused a significant induction of specific serum IgG and IgA in the animals immunised with L. lactis pSEC:mrpA and L. lactis pCWA:mrpA respectively. A significant reduction of renal bacterial colonisation was observed in both groups of mice (P < 0.05) after P. mirabilis challenge. This is the first example of a P. mirabilis fimbrial antigen expressed in a food-grade live strain with promising applications in vaccine design.
Proteus mirabilis expresses several virulence factors including MR/P fimbriae and flagella. Bacte... more Proteus mirabilis expresses several virulence factors including MR/P fimbriae and flagella. Bacterial flagellin has frequently shown interesting adjuvant and protective properties in vaccine formulations. However, native P. mirabilis flagellin has not been analyzed so far. Native P. mirabilis flagellin was evaluated as a protective antigen and as an adjuvant in co-immunizations with MrpA (structural subunit of MR/P fimbriae) using an ascending UTI model in the mouse. Four groups of mice were intranasally treated with either MrpA, native flagellin, both proteins and PBS. Urine and blood samples were collected before and after immunization for specific antibodies determination. Cytokine production was assessed in immunized mice splenocytes cultures. Mice were challenged with P. mirabilis, and bacteria quantified in kidneys and bladders. MrpA immunization induced serum and urine specific anti-MrpA antibodies while MrpA coadministered with native flagellin did not. None of the animals developed significant anti-flagellin antibodies. Only MrpA-immunized mice showed a significant decrease of P. mirabilis in bladders and kidneys. Instead, infection levels in MrpA-flagellin or flagellin-treated mice showed no significant differences with the control group. IL-10 was significantly induced in splenocytes of mice that received native flagellin or MrpA-flagellin. Native P. mirabilis flagellin did not protect mice against an ascending UTI. Moreover, it showed an immunomodulatory effect, neutralizing the protective role of MrpA. P. mirabilis flagellin exhibits particular immunological properties compared to other bacterial flagellins.
The formation of intracellular bacterial communities (IBC) has been proposed as a new pathogenic ... more The formation of intracellular bacterial communities (IBC) has been proposed as a new pathogenic model for urinary tract infections. Scarce reports describe this phenomenon in humans. We describe the presence of IBC in uroepithelial cells of a child with recurrent urinary infections. Urine specimen was collected from a child with Escherichia coli UTI and analyzed by light and confocal laser scanning microscopy (CLSM). The capability of this strain to produce intracellular infection in bladder tissue was confirmed in mice models. Escherichia coli phylogenetic group, presence of virulence factors genes, and its multiple locus sequence type were determined. CLSM showed large collections of morphologically coccoid and rod bacteria in eukaryotic cells cytoplasm, even seemingly protruding from the cells. Escherichia coli EC7U, ST3626, harbored type 1, P, and S/F1C fimbriae and K1 capsule genes. In this report, we confirm the presence of IBC in children with UTI, as it has been described before in women.
Urinary tract infections (UTIs) are among the most common bacterial infections in humans. Proteus... more Urinary tract infections (UTIs) are among the most common bacterial infections in humans. Proteus mirabilis is an opportunistic pathogen, capable of causing severe UTIs, with serious kidney damage that may even lead to death. Several virulence factors are involved in the pathogenicity of this bacterium. Among these, adherence to the uroepithelium mediated by fimbriae appears to be a significant bacterial attribute related to urovirulence. Proteus mirabilis expresses several types of fimbriae that could be involved in the pathogenesis of UTI, including uroepithelial cell adhesin (UCA). In this report, we used an uropathogenic P. mirabilis wild-type strain and an isogenic ucaA mutant unable to express UCA to study the pathogenic role of this fimbria in UTI. Ability of the mutant to adhere to desquamated uroepithelial cells and to infect mice using different experimental UTI models was significantly impaired. These results allow us to conclude that P. mirabilis UCA plays an important role in the colonization of the urinary tract.
Although the vast majority of bacteria are harmless or beneficial, quite a few bacteria are patho... more Although the vast majority of bacteria are harmless or beneficial, quite a few bacteria are pathogenic. Pathogenic bacteria are only pathogenic under certain conditions, such as a wound that allows for entry into the blood, or a decrease in immune function. In this book, the authors present current research in the study of the virulence mechanisms, diagnosis and management of bacterial pathogens. Topics discussed include Pseudomonas aeruginosa (P. aeruginosa) in our environment; phage therapy in the treatment of bacterial infections; P. mirabilis virulence factor associated with urinary tract infections; efflux pumps for the multi-drug resistant phenotypes of bacterial pathogens; and the role of HtrA as a chaperone and protease in bacterial pathogenesis
This is a z-stack movie from the images obtained in the confocal microscope. The images were obta... more This is a z-stack movie from the images obtained in the confocal microscope. The images were obtained using an Olympus FV300 Microscope with the software Flouview and adquisition parameters were the ones described in the paper.
Proteus mirabilis is frequently associated with complicated urinary tract infections (UTI). It is... more Proteus mirabilis is frequently associated with complicated urinary tract infections (UTI). It is proposed that several virulence factors are associated with P. mirabilis uropathogenicity. The aim of this work was to elucidate genotoxic and cytotoxic effects mediated by MR/P fimbriae and flagella in eukaryotic cells in vitro. Two cell lines (kidney- and bladder-derived) were infected with a clinical wild type P. mirabilis strain and a MR/P and a flagellar mutant. We evaluated adhesion, genotoxicity and cytotoxicity by microscopy, comet assay and triple staining technique respectively. Mutant strains displayed lower adhesion rates than the P. mirabilis wild type strain and were significantly less effective to induce genotoxic and cytotoxic effects compared to the wild type. We report for the first time that P. mirabilis MR/P fimbriae and flagella mediate genotoxic and cytotoxic effects on eukaryotic cells, at least in in vitro conditions. These results could contribute to design new ...
Uropathogenic Escherichia coli (UPEC) is the most common agent of urinary tract infection (UTI). ... more Uropathogenic Escherichia coli (UPEC) is the most common agent of urinary tract infection (UTI). The classic model of pathogenesis proposes the ascent of UPEC by the urethra and external adherence to the urothelium. Recently, the ability of UPEC to invade urothelial cells and to form intracellular bacterial communities (IBCs) has been described. The objective of the present study was to determine the presence of intracellular bacteria (IB) in children with UTI caused by E. coli and to characterize its virulence attributes and its relation with clinical outcomes. One hundred thirty-three children with E. coli UTI who attended a reference children&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;#39;s hospital between June and November 2012 were included. Urine samples were analyzed by optical and confocal microscopy looking for exfoliated urothelial cells with IB. Phylogenetic group and 24 virulence factors of UPEC were determined using multiplex polymerase chain reaction. Medical records were analyzed. The presence of IB was detected in 49 of 133 (36.8%) samples by confocal microscopy, in 30 cases as IBC, and in 19 as isolated intracellular bacteria (IIB). Only 50% of these cases could be detected by light microscopy. Seventy-four medical records were analyzed, 34 with IBC/IIB, 40 without IB. Any virulence gene was associated with IBC/IIB. The presence of IBC/IIB was associated with recurrent UTI (odds ratio [OR], 3.3; 95% confidence interval [CI], 1.3-9; P = .017), especially in children without urinary tract functional or morphological abnormalities (OR, 8.0; 95% CI, 2.3-27.4; P = .000). IBCs were associated with lower urinary tract syndrome (OR, 3.6; 95% CI, 1.1-11.8; P = .05) and absence of fever (P = .009). IBCs/IIB could explain a high proportion of children with recurrent UTI.
Proteus mirabilis is commonly associated with complicated UTI and expresses several virulence fac... more Proteus mirabilis is commonly associated with complicated UTI and expresses several virulence factors, including MR/P fimbriae. In the present study mice were immunised nasally with MrpA, the structural subunit of MR/P, with or without CT as a mucosal adjuvant. The animals were then challenged with P. mirabilis and induction of specific serum and urine IgG and IgA, IFN-γ production and bacterial kidney and bladder colonization were assessed. MrpA-immunised mice exhibited significant induction of serum IgA and urine IgA and IgG. MrpA/CT-immunised mice showed both significant serum and urine IgA and IgG production. Only this group showed significant IFN-γ production. Both groups of animals had significant decrease in bacterial colonization of kidneys but not of bladders. No correlation between specific antibody induction in serum and CFU decrease was observed in any group of animals. Our results suggest that a mucosal adjuvant (CT) in the urinary tract enhanced humoral and cytokine response although it did not influence the degree of protection against UTI provided by MrpA. Further studies are necessary to understand immune modulation in the urinary tract.
Flagella are bacterial virulence factors allowing microorganisms to move over surfaces. Flagellin... more Flagella are bacterial virulence factors allowing microorganisms to move over surfaces. Flagellin, the structural component of flagella, is sensed by the host via Toll and NOD-like receptors and triggers pro-inflammatory responses. The use of Toll-like receptors agonists to modulate innate immune responses has aroused great interest as an alternative to improve the treatment of diverse infectious diseases. Proteus mirabilis is a Gram negative bacterium that causes urinary tract infections in humans. In the present work we used different approaches to study the ability of P. mirabilis flagellin to induce an innate immune response. We demonstrated that P. mirabilis flagellin has the ability to induce pro-inflammatory chemokines expression in T24 bladder cultures cells and in the mouse bladder after instillation. It was evidenced also that flagellin from different P. mirabilis strains differed in their capacity to induce an innate immune response in the CacoCCL20-Luc system. Also, flagellin elicited inflammation, with recruitment of leukocytes to the bladder epithelium. Flagellin instillation before an experimental P. mirabilis infection showed that the inflammatory response due to flagellin did not help to clear the infection but favored bacterial colonization. Thus, induction of inflammatory response in the bladder did not contribute to P. mirabilis infection neutralization.
This work studies the development of the 3D architecture of batch culture P. mirabilis biofilms o... more This work studies the development of the 3D architecture of batch culture P. mirabilis biofilms on the basis of morpho-topological descriptors calculated from confocal laser scanning microscopy (CLSM) stacks with image processing routines. A precise architectonical understanding of biofilm organization on a morphotopological level is necessary to understand emergent interactions with the environment and the appearance of functionally different progeny swarmer cells. P. mirabilis biofilms were grown on glass coverslips for seven days on LB broth and subjected to in situ immunofluorescence. Confocal image stacks were deconvolved prior to segmentation of regions of interest (ROI) that identify individual bacteria and extracellular material, followed by 3D reconstruction and calculation of different morpho-topological key descriptors. Results showed that P. mirabilis biofilm formation followed a five stage process: (i) reversible adhesion to the surface characterized by slow growth, presence of elongated bacteria, and absence of extracellular material, (ii) irreversible bacterial adhesion concomitant to decreasing elongation, and the beginning of extracellular polymer production, (iii) accelerated bacterial growth concomitant to continuously decreasing elongation and halting of extracellular polymer production, (iv) maturation of biofilm defined by maximum bacterial density, volume, minimum elongation, maximum extracellular material, and highest compaction, and (v) decreased bacterial density and extracellular material through detachment and dispersion. Swarmer cells do not play a role in P. mirabilis biofilm formation under the applied conditions. Our approach sets the basis for future studies of 3D biofilm architecture using dynamic in vivo models and different environmental conditions that assess clinical impacts of P. mirabilis biofilm.
The development of effective strategies to prevent urinary tract infections (UTIs) has become an ... more The development of effective strategies to prevent urinary tract infections (UTIs) has become an important goal in public health. Proteus mirabilis is commonly associated with complicated UTIs and expresses several virulence factors, including mannose-resistant Proteus-like (MR/P) fimbriae. Here, a fusion protein formed from MrpA, the structural protein of MR/P fimbriae, and TetC, a non-toxic but highly immunogenic fragment of tetanus toxin, to be delivered by an attenuated Salmonella Typhimurium mutant in vivo was constructed. The ability of this strain to induce an immune response and to protect mice against a urinary tract challenge with P. mirabilis was investigated. The protein was successfully expressed in S. Typhimurium. After two immunization doses, intra-nasally vaccinated mice showed a significant increase in specific serum IgG against MrpA and against Salmonella lipopolysaccharide, as well as a significant decrease in kidney and bladder colonization by P. mirabilis after challenge. However, no significant correlation was observed between antibody response and kidney or bladder colonization. MrpA fused to TetC and expressed in S. Typhimurium effectively protected mice against an experimental P. mirabilis UTI.
The nontyphoidal Salmonella enterica serovar Dublin is adapted to cattle but infrequently infects... more The nontyphoidal Salmonella enterica serovar Dublin is adapted to cattle but infrequently infects humans, very often resulting in invasive infections with high levels of morbidity and mortality. A Salmonella-induced intestinal acute inflammatory response is postulated as a mechanism to prevent bacterial dissemination to systemic sites. In S. enterica serovar Typhimurium, flagella contribute to this response by providing motility and FliC-mediated activation of pattern recognition receptors. In this study, we found 4 Salmonella enterica isolates, with the antigenic formula 9,12:-:-, that, based on fliC sequence and multilocus sequence type (MLST) analyses, are aflagellate S. Dublin isolates. Interestingly, all were obtained from human bloodstream infections. Thus, we investigated the potential role of flagella in the unusual invasiveness exhibited by S. Dublin in humans by analyzing flagellation and proinflammatory properties of a collection of 10 S. Dublin human clinical isolates. We found that 4 of 7 blood isolates were aflagellate due to significantly reduced levels of fliC expression, whereas all 3 isolates from other sources were flagellated. Lack of flagella correlated with a reduced ability of triggering interleukin-8 (IL-8) and CCL20 chemokine expression in human intestinal Caco-2 cells and with reduced early inflammation in the ceca of streptomycin-pretreated C57/BL6 mice. These results indicate that flagella contribute to the host intestinal inflammatory response to Salmonella serovar Dublin and suggest that their absence may contribute to its systemic dissemination through dampening of the gut immune response. Analysis of FliC production in a collection of cattle isolates indicated that the aflagellate phenotype is widely distributed in field isolates of S. Dublin.
Proteus mirabilis is a common cause of urinary tract infection (UTI) and produce several types of... more Proteus mirabilis is a common cause of urinary tract infection (UTI) and produce several types of different fimbriae, including mannose-resistant/Proteus-like fimbriae, uroepithelial cell adhesin (UCA), and P. mirabilis fimbriae (PMF). Different authors have related these fimbriae with different aspects of P. mirabilis pathogenesis, although the precise role of fimbriae in UTI has not yet been elucidated. In this work we expressed and purified recombinant structural fimbrial proteins of these fimbriae (MrpA, UcaA, and PmfA) and assessed their role as protective antigens using an ascending and a haematogenous model of UTI in the mouse. MrpA protected subcutaneously immunised mice in both models, suggesting that it could be taken into account as a promising vaccine candidate against P. mirabilis UTI. UcaA could also be an interesting subunit to be studied although it only protected mice that were challenged intravenously. All subunits elicited a strong specific serum IgG response but there was no significant correlation between antibody levels and protection. Only PmfAimmunised mice elicited a significant urinary antibody response but this protein was unable to confer protection against P. mirabilis experimental challenges. These results may contribute to the development of vaccines against P. mirabilis, an important cause of complicated UTI.
Probiotics are increasingly being considered as non-pharmaceutical and safe potential alternative... more Probiotics are increasingly being considered as non-pharmaceutical and safe potential alternatives for the treatment and prevention of a variety of pathologies including urinary tract infections. These are the most common infections in medical practice and are frequently treated with antibiotics, which have generated an intense selective pressure over bacterial populations. Proteus mirabilis is a common cause of urinary tract infections in catheterised patients and people with abnormalities of the urinary tract. In this work we isolated, identified and characterised an indigenous Lactobacillus murinus strain (LbO2) from the vaginal tract of a female mouse. In vitro characterisation of LbO2 included acid and bile salts tolerance, growth in urine, adherence to uroepithelial cells and in vitro antimicrobial activity. The selected strain showed interesting properties, suitable for its use as a probiotic. The ability of LbO2 to prevent and even treat ascending P. mirabilis urinary tract infection was assessed using an experimental model in the mouse. Kidney and bladder P. mirabilis counts were significantly lower in mice preventively treated with the probiotic than in non-treated mice. When LbO2 was used for therapeutic treatment, bladder counts of treated mice were significantly lower although no significant differences were detected in P. mirabilis kidney colonisation of treated and non-treated animals. These results are encouraging and prompt further research related to probiotic strains and the basis of their effects for their use in human and animal health.
Proteus mirabilis, a common cause of urinary tract infections in humans, can express different fi... more Proteus mirabilis, a common cause of urinary tract infections in humans, can express different fimbriae. MR/P fimbriae may contribute to bacterial colonisation, and its structural protein MrpA represents a promising candidate antigen for mucosal vaccination. Commercial complex vaccines have limited, short-lived protection and are incapable of eliciting mucosal responses against putative antigens related to virulence. The development of mucosal live vaccines using food-grade lactic acid bacterium Lactococcus lactis as antigen vehicle is an attractive alternative and a safe vaccination strategy against P. mirabilis infection. Here, we report the construction of L. lactis strains modified to produce MrpA via two cellular locations, cell wall-anchored and secreted. Protection assays against P. mirabilis infection and evaluation of the immune response generated after immunisation were conducted in a mouse model. MrpA protein was efficiently expressed by L. lactis strain and caused a significant induction of specific serum IgG and IgA in the animals immunised with L. lactis pSEC:mrpA and L. lactis pCWA:mrpA respectively. A significant reduction of renal bacterial colonisation was observed in both groups of mice (P < 0.05) after P. mirabilis challenge. This is the first example of a P. mirabilis fimbrial antigen expressed in a food-grade live strain with promising applications in vaccine design.
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Papers by Paola Scavone