Your search keyword '"Salmonella Infections"' showing total 343 results

1. Infection-associated gene regulation of L-tartrate metabolism in Salmonella enterica serovar Typhimurium.

Author

Rojas, Vivian K, Salama, Nina R1, Navarre, William Wiley, Rojas, Vivian K, Winter, Maria G, Jimenez, Angel G, Tanner, Natasha W, Crockett, Stacey L, Spiga, Luisella, Hendrixson, David R, Winter, Sebastian E, Rojas, Vivian K, Salama, Nina R1, Navarre, William Wiley, Rojas, Vivian K, Winter, Maria G, Jimenez, Angel G, Tanner, Natasha W, Crockett, Stacey L, Spiga, Luisella, Hendrixson, David R, and Winter, Sebastian E

Abstract

Enteric pathogens such as Salmonella enterica serovar Typhimurium experience spatial and temporal changes to the metabolic landscape throughout infection. Host reactive oxygen and nitrogen species non-enzymatically convert monosaccharides to alpha hydroxy acids, including L-tartrate. Salmonella utilizes L-tartrate early during infection to support fumarate respiration, while L-tartrate utilization ceases at later time points due to the increased availability of exogenous electron acceptors such as tetrathionate, nitrate, and oxygen. It remains unknown how Salmonella regulates its gene expression to metabolically adapt to changing nutritional environments. Here, we investigated how the transcriptional regulation for L-tartrate metabolism in Salmonella is influenced by infection-relevant cues. L-tartrate induces the transcription of ttdBAU, genes involved in L-tartrate utilization. L-tartrate metabolism is negatively regulated by two previously uncharacterized transcriptional regulators TtdV (STM3357) and TtdW (STM3358), and both TtdV and TtdW are required for the sensing of L-tartrate. The electron acceptors nitrate, tetrathionate, and oxygen repress ttdBAU transcription via the two-component system ArcAB. Furthermore, the regulation of L-tartrate metabolism is required for optimal fitness in a mouse model of Salmonella-induced colitis. TtdV, TtdW, and ArcAB allow for the integration of two cues, i.e., substrate availability and availability of exogenous electron acceptors, to control L-tartrate metabolism. Our findings provide novel insights into how Salmonella prioritizes the utilization of different electron acceptors for respiration as it experiences transitional nutrient availability throughout infection.ImportanceBacterial pathogens must adapt their gene expression profiles to cope with diverse environments encountered during infection. This coordinated process is carried out by the integration of cues that the pathogen senses to fine-tune gene expression in a

Published

2024

2. Intraluminal neutrophils limit epithelium damage by reducing pathogen assault on intestinal epithelial cells during Salmonella gut infection

Author

Gül, Ersin, Baumler, Andreas J1, Gül, Ersin, Enz, Ursina, Maurer, Luca, Younes, Andrew Abi, Fattinger, Stefan A, Nguyen, Bidong D, Hausmann, Annika, Furter, Markus, Barthel, Manja, Sellin, Mikael E, Hardt, Wolf-Dietrich, Gül, Ersin, Baumler, Andreas J1, Gül, Ersin, Enz, Ursina, Maurer, Luca, Younes, Andrew Abi, Fattinger, Stefan A, Nguyen, Bidong D, Hausmann, Annika, Furter, Markus, Barthel, Manja, Sellin, Mikael E, and Hardt, Wolf-Dietrich

Abstract

Recruitment of neutrophils into and across the gut mucosa is a cardinal feature of intestinal inflammation in response to enteric infections. Previous work using the model pathogen Salmonella enterica serovar Typhimurium (S.Tm) established that invasion of intestinal epithelial cells by S.Tm leads to recruitment of neutrophils into the gut lumen, where they can reduce pathogen loads transiently. Notably, a fraction of the pathogen population can survive this defense, re-grow to high density, and continue triggering enteropathy. However, the functions of intraluminal neutrophils in the defense against enteric pathogens and their effects on preventing or aggravating epithelial damage are still not fully understood. Here, we address this question via neutrophil depletion in different mouse models of Salmonella colitis, which differ in their degree of enteropathy. In an antibiotic pretreated mouse model, neutrophil depletion by an anti-Ly6G antibody exacerbated epithelial damage. This could be linked to compromised neutrophil-mediated elimination and reduced physical blocking of the gut-luminal S.Tm population, such that the pathogen density remained high near the epithelial surface throughout the infection. Control infections with a ssaV mutant and gentamicin-mediated elimination of gut-luminal pathogens further supported that neutrophils are protecting the luminal surface of the gut epithelium. Neutrophil depletion in germ-free and gnotobiotic mice hinted that the microbiota can modulate the infection kinetics and ameliorate epithelium-disruptive enteropathy even in the absence of neutrophil-protection. Together, our data indicate that the well-known protective effect of the microbiota is augmented by intraluminal neutrophils. After antibiotic-mediated microbiota disruption, neutrophils are central for maintaining epithelial barrier integrity during acute Salmonella-induced gut inflammation, by limiting the sustained pathogen assault on the epithelium in a critical wi

Published

2023

3. Formate oxidation in the intestinal mucus layer enhances fitness of Salmonella enterica serovar Typhimurium.

Author

Winter, Maria, Winter, Maria, Hughes, Elizabeth, Muramatsu, Matthew, Jimenez, Angel, Chanin, Rachael, Spiga, Luisella, Gillis, Caroline, Andrews-Polymenis, Helene, McClelland, Michael, Winter, Sebastian, Winter, Maria, Winter, Maria, Hughes, Elizabeth, Muramatsu, Matthew, Jimenez, Angel, Chanin, Rachael, Spiga, Luisella, Gillis, Caroline, Andrews-Polymenis, Helene, McClelland, Michael, and Winter, Sebastian

Abstract

Salmonella enterica serovar Typhimurium induces intestinal inflammation to create a niche that fosters the outgrowth of the pathogen over the gut microbiota. Under inflammatory conditions, Salmonella utilizes terminal electron acceptors generated as byproducts of intestinal inflammation to generate cellular energy through respiration. However, the electron donating reactions in these electron transport chains are poorly understood. Here, we investigated how formate utilization through the respiratory formate dehydrogenase-N (FdnGHI) and formate dehydrogenase-O (FdoGHI) contribute to gut colonization of Salmonella. Both enzymes fulfilled redundant roles in enhancing fitness in a mouse model of Salmonella-induced colitis, and coupled to tetrathionate, nitrate, and oxygen respiration. The formic acid utilized by Salmonella during infection was generated by its own pyruvate-formate lyase as well as the gut microbiota. Transcription of formate dehydrogenases and pyruvate-formate lyase was significantly higher in bacteria residing in the mucus layer compared to the lumen. Furthermore, formate utilization conferred a more pronounced fitness advantage in the mucus, indicating that formate production and degradation occurred predominantly in the mucus layer. Our results provide new insights into how Salmonella adapts its energy metabolism to the local microenvironment in the gut. IMPORTANCE Bacterial pathogens must not only evade immune responses but also adapt their metabolism to successfully colonize their host. The microenvironments encountered by enteric pathogens differ based on anatomical location, such as small versus large intestine, spatial stratification by host factors, such as mucus layer and antimicrobial peptides, and distinct commensal microbial communities that inhabit these microenvironments. Our understanding of how Salmonella populations adapt its metabolism to different environments in the gut is incomplete. In the current study, we discovered that Salmon

Published

2023

4. Predicting the Next Superspreader.

Author

Chavez-Arroyo, Alfredo, Chavez-Arroyo, Alfredo, Bäumler, Andreas J, Chavez-Arroyo, Alfredo, Chavez-Arroyo, Alfredo, and Bäumler, Andreas J

Abstract

The spread of multidrug-resistant zoonotic pathogens, such as Salmonella, within livestock is of concern for food safety. The spread of Salmonella on the farm is escalated by superspreaders, which shed the pathogen at high numbers with their feces. However, there are currently no biomarkers to identify potential superspreaders. Kempf and coworkers determined that a potent early inflammatory response to Salmonella infection and changes in the microbiota composition are associated with the superspreader phenotype in pigs (F. Kempf, G. Cordoni, A.M. Chaussé, R. Drumo, et al., mSystems, in press, https://doi.org/10.1128/msystems.00852-22). Since these biomarkers only develop during Salmonella infection, additional work is needed to predict animals that have the potential to become superspreaders.

Published

2023

5. Human Salmonellosis Outbreak Linked to Salmonella Typhimurium Epidemic in Wild Songbirds, United States, 2020-2021.

Author

Patel, Kane, Patel, Kane, Stapleton, G, Trevejo, Rosalie, Tellier, Waimon, Higa, Jeffrey, Adams, Jennifer, Hernandez, Sonia, Sanchez, Susan, Nemeth, Nicole, Debess, Emilio, Rogers, Krysta, Watson, Katherine, Foss, Leslie, Low, Mabel, Gollarza, Lauren, Nichols, Megin, Mete, Asli, Patel, Kane, Patel, Kane, Stapleton, G, Trevejo, Rosalie, Tellier, Waimon, Higa, Jeffrey, Adams, Jennifer, Hernandez, Sonia, Sanchez, Susan, Nemeth, Nicole, Debess, Emilio, Rogers, Krysta, Watson, Katherine, Foss, Leslie, Low, Mabel, Gollarza, Lauren, Nichols, Megin, and Mete, Asli

Abstract

Salmonella infection causes epidemic death in wild songbirds, with potential to spread to humans. In February 2021, public health officials in Oregon and Washington, USA, isolated a strain of Salmonella enterica serovar Typhimurium from humans and a wild songbird. Investigation by public health partners ultimately identified 30 illnesses in 12 states linked to an epidemic of Salmonella Typhimurium in songbirds. We report a multistate outbreak of human salmonellosis associated with songbirds, resulting from direct handling of sick and dead birds or indirect contact with contaminated birdfeeders. Companion animals might have contributed to the spread of Salmonella between songbirds and patients; the outbreak strain was detected in 1 ill dog, and a cat became ill after contact with a wild bird. This outbreak highlights a One Health issue where actions like regular cleaning of birdfeeders might reduce the health risk to wildlife, companion animals, and humans.

Published

2023

6. Raw Milk Product* Related Illnesses and Outbreaks in Utah : 5-year Illness Summary (January 1, 2018-December 31, 2022)

Abstract

Number of cases and illnesses from consuming raw milk products in Utah.

Published

2023

7. Intraluminal neutrophils limit epithelium damage by reducing pathogen assault on intestinal epithelial cells during Salmonella gut infection

Author

Gül, Ersin, Enz, Ursina, Maurer, Luca, Abi Younes, Andrew, Fattinger, Stefan A, Nguyen, Bidong D, Hausmann, Annika, Furter, Markus, Barthel, Manja, Sellin, Mikael E, Hardt, Wolf-Dietrich, Gül, Ersin, Enz, Ursina, Maurer, Luca, Abi Younes, Andrew, Fattinger, Stefan A, Nguyen, Bidong D, Hausmann, Annika, Furter, Markus, Barthel, Manja, Sellin, Mikael E, and Hardt, Wolf-Dietrich

Abstract

Recruitment of neutrophils into and across the gut mucosa is a cardinal feature of intestinal inflammation in response to enteric infections. Previous work using the model pathogen Salmonella enterica serovar Typhimurium (S.Tm) established that invasion of intestinal epithelial cells by S.Tm leads to recruitment of neutrophils into the gut lumen, where they can reduce pathogen loads transiently. Notably, a fraction of the pathogen population can survive this defense, re-grow to high density, and continue triggering enteropathy. However, the functions of intraluminal neutrophils in the defense against enteric pathogens and their effects on preventing or aggravating epithelial damage are still not fully understood. Here, we address this question via neutrophil depletion in different mouse models of Salmonella colitis, which differ in their degree of enteropathy. In an antibiotic pretreated mouse model, neutrophil depletion by an anti-Ly6G antibody exacerbated epithelial damage. This could be linked to compromised neutrophil-mediated elimination and reduced physical blocking of the gut-luminal S.Tm population, such that the pathogen density remained high near the epithelial surface throughout the infection. Control infections with a ssaV mutant and gentamicin-mediated elimination of gut-luminal pathogens further supported that neutrophils are protecting the luminal surface of the gut epithelium. Neutrophil depletion in germ-free and gnotobiotic mice hinted that the microbiota can modulate the infection kinetics and ameliorate epithelium-disruptive enteropathy even in the absence of neutrophil-protection. Together, our data indicate that the well-known protective effect of the microbiota is augmented by intraluminal neutrophils. After antibiotic-mediated microbiota disruption, neutrophils are central for maintaining epithelial barrier integrity during acute Salmonella-induced gut inflammation, by limiting the sustained pathogen assault on the epithelium in a critical

Published

2023

8. Intraluminal neutrophils limit epithelium damage by reducing pathogen assault on intestinal epithelial cells during Salmonella gut infection

Author

Gül, Ersin, Enz, Ursina, Maurer, Luca, Abi Younes, Andrew, Fattinger, Stefan A, Nguyen, Bidong D, Hausmann, Annika, Furter, Markus, Barthel, Manja, Sellin, Mikael E, Hardt, Wolf-Dietrich, Gül, Ersin, Enz, Ursina, Maurer, Luca, Abi Younes, Andrew, Fattinger, Stefan A, Nguyen, Bidong D, Hausmann, Annika, Furter, Markus, Barthel, Manja, Sellin, Mikael E, and Hardt, Wolf-Dietrich

Abstract

Recruitment of neutrophils into and across the gut mucosa is a cardinal feature of intestinal inflammation in response to enteric infections. Previous work using the model pathogen Salmonella enterica serovar Typhimurium (S.Tm) established that invasion of intestinal epithelial cells by S.Tm leads to recruitment of neutrophils into the gut lumen, where they can reduce pathogen loads transiently. Notably, a fraction of the pathogen population can survive this defense, re-grow to high density, and continue triggering enteropathy. However, the functions of intraluminal neutrophils in the defense against enteric pathogens and their effects on preventing or aggravating epithelial damage are still not fully understood. Here, we address this question via neutrophil depletion in different mouse models of Salmonella colitis, which differ in their degree of enteropathy. In an antibiotic pretreated mouse model, neutrophil depletion by an anti-Ly6G antibody exacerbated epithelial damage. This could be linked to compromised neutrophil-mediated elimination and reduced physical blocking of the gut-luminal S.Tm population, such that the pathogen density remained high near the epithelial surface throughout the infection. Control infections with a ssaV mutant and gentamicin-mediated elimination of gut-luminal pathogens further supported that neutrophils are protecting the luminal surface of the gut epithelium. Neutrophil depletion in germ-free and gnotobiotic mice hinted that the microbiota can modulate the infection kinetics and ameliorate epithelium-disruptive enteropathy even in the absence of neutrophil-protection. Together, our data indicate that the well-known protective effect of the microbiota is augmented by intraluminal neutrophils. After antibiotic-mediated microbiota disruption, neutrophils are central for maintaining epithelial barrier integrity during acute Salmonella-induced gut inflammation, by limiting the sustained pathogen assault on the epithelium in a critical

Published

2023

9. Complete Health Indicator Report of Foodborne Illness - Salmonella Infections (12/28/2022)

Abstract

Indicator report of the number of reported culture-confirmed cases of salmonellosis in Utah.

Published

2022

10. The ancestral stringent response potentiator, DksA has been adapted throughout Salmonella evolution to orchestrate the expression of metabolic, motility, and virulence pathways.

Author

Cohen, Helit, Cohen, Helit, Adani, Boaz, Cohen, Emiliano, Piscon, Bar, Azriel, Shalhevet, Desai, Prerak, Bähre, Heike, McClelland, Michael, Rahav, Galia, Gal-Mor, Ohad, Cohen, Helit, Cohen, Helit, Adani, Boaz, Cohen, Emiliano, Piscon, Bar, Azriel, Shalhevet, Desai, Prerak, Bähre, Heike, McClelland, Michael, Rahav, Galia, and Gal-Mor, Ohad

Abstract

DksA is a conserved RNA polymerase-binding protein known to play a key role in the stringent response of proteobacteria species, including many gastrointestinal pathogens. Here, we used RNA-sequencing of Escherichia coli, Salmonella bongori and Salmonella enterica serovar Typhimurium, together with phenotypic comparison to study changes in the DksA regulon, during Salmonella evolution. Comparative RNA-sequencing showed that under non-starved conditions, DksA controls the expression of 25%, 15%, and 20% of the E. coli, S. bongori, and S. enterica genes, respectively, indicating that DksA is a pleiotropic regulator, expanding its role beyond the canonical stringent response. We demonstrate that DksA is required for the growth of these three enteric bacteria species in minimal medium and controls the expression of the TCA cycle, glycolysis, pyrimidine biosynthesis, and quorum sensing. Interestingly, at multiple steps during Salmonella evolution, the type I fimbriae and various virulence genes encoded within SPIs 1, 2, 4, 5, and 11 have been transcriptionally integrated under the ancestral DksA regulon. Consequently, we show that DksA is necessary for host cells invasion by S. Typhimurium and S. bongori and for intracellular survival of S. Typhimurium in bone marrow-derived macrophages (BMDM). Moreover, we demonstrate regulatory inversion of the conserved motility-chemotaxis regulon by DksA, which acts as a negative regulator in E. coli, but activates this pathway in S. bongori and S. enterica. Overall, this study demonstrates the regulatory assimilation of multiple horizontally acquired virulence genes under the DksA regulon and provides new insights into the evolution of virulence genes regulation in Salmonella spp.

Published

2022

11. The ancestral stringent response potentiator, DksA has been adapted throughout Salmonella evolution to orchestrate the expression of metabolic, motility, and virulence pathways.

Author

Cohen, Helit, Cohen, Helit, Adani, Boaz, Cohen, Emiliano, Piscon, Bar, Azriel, Shalhevet, Desai, Prerak, Bähre, Heike, McClelland, Michael, Rahav, Galia, Gal-Mor, Ohad, Cohen, Helit, Cohen, Helit, Adani, Boaz, Cohen, Emiliano, Piscon, Bar, Azriel, Shalhevet, Desai, Prerak, Bähre, Heike, McClelland, Michael, Rahav, Galia, and Gal-Mor, Ohad

Abstract

DksA is a conserved RNA polymerase-binding protein known to play a key role in the stringent response of proteobacteria species, including many gastrointestinal pathogens. Here, we used RNA-sequencing of Escherichia coli, Salmonella bongori and Salmonella enterica serovar Typhimurium, together with phenotypic comparison to study changes in the DksA regulon, during Salmonella evolution. Comparative RNA-sequencing showed that under non-starved conditions, DksA controls the expression of 25%, 15%, and 20% of the E. coli, S. bongori, and S. enterica genes, respectively, indicating that DksA is a pleiotropic regulator, expanding its role beyond the canonical stringent response. We demonstrate that DksA is required for the growth of these three enteric bacteria species in minimal medium and controls the expression of the TCA cycle, glycolysis, pyrimidine biosynthesis, and quorum sensing. Interestingly, at multiple steps during Salmonella evolution, the type I fimbriae and various virulence genes encoded within SPIs 1, 2, 4, 5, and 11 have been transcriptionally integrated under the ancestral DksA regulon. Consequently, we show that DksA is necessary for host cells invasion by S. Typhimurium and S. bongori and for intracellular survival of S. Typhimurium in bone marrow-derived macrophages (BMDM). Moreover, we demonstrate regulatory inversion of the conserved motility-chemotaxis regulon by DksA, which acts as a negative regulator in E. coli, but activates this pathway in S. bongori and S. enterica. Overall, this study demonstrates the regulatory assimilation of multiple horizontally acquired virulence genes under the DksA regulon and provides new insights into the evolution of virulence genes regulation in Salmonella spp.

Published

2022

12. Genomic diversity and antimicrobial resistance among non-typhoidal Salmonella associated with human disease in The Gambia.

Author

Darboe, Saffiatou, Darboe, Saffiatou, Bradbury, Richard S, Phelan, Jody, Kanteh, Abdoulie, Muhammad, Abdul-Khalie, Worwui, Archibald, Yang, Shangxin, Nwakanma, Davis, Perez-Sepulveda, Blanca, Kariuki, Samuel, Kwambana-Adams, Brenda, Antonio, Martin, Darboe, Saffiatou, Darboe, Saffiatou, Bradbury, Richard S, Phelan, Jody, Kanteh, Abdoulie, Muhammad, Abdul-Khalie, Worwui, Archibald, Yang, Shangxin, Nwakanma, Davis, Perez-Sepulveda, Blanca, Kariuki, Samuel, Kwambana-Adams, Brenda, and Antonio, Martin

Abstract

Non-typhoidal Salmonella associated with multidrug resistance cause invasive disease in sub-Saharan Africa. Specific lineages of serovars Typhimurium and Enteritidis have been implicated. Here we characterized the genomic diversity of 100 clinical non-typhoidal Salmonella collected from 93 patients in 2001 from the eastern, and in 2006-2018 from the western regions of The Gambia respectively. A total of 93 isolates (64 invasive, 23 gastroenteritis and six other sites) representing a single infection episode were phenotypically tested for antimicrobial susceptibility using the Kirby-Bauer disc diffusion technique. Whole genome sequencing of 100 isolates was performed using Illumina, and the reads were assembled and analysed using SPAdes. The Salmonella in Silico Typing Resource (SISTR) was used for serotyping. SNP differences among the 93 isolates were determined using Roary, and phylogenetic analysis was performed in the context of 495 African strains from the European Nucleotide Archive. Salmonella serovars Typhimurium (26/64; 30.6 %) and Enteritidis (13/64; 20.3 %) were associated with invasive disease, whilst other serovars were mainly responsible for gastroenteritis (17/23; 73.9 %). The presence of three major serovar Enteritidis clades was confirmed, including the invasive West African clade, which made up more than half (11/16; 68.8 %) of the genomes. Multidrug resistance was confined among the serovar Enteritidis West African clade. The presence of this epidemic virulent clade has potential for spread of resistance and thus important implications for systematic patient management. Surveillance and epidemiological investigations to inform control are warranted.

Published

2022

13. Effect of biannual azithromycin distribution on antibody responses to malaria, bacterial, and protozoan pathogens in Niger.

Author

Arzika, Ahmed M, Arzika, Ahmed M, Maliki, Ramatou, Goodhew, E Brook, Rogier, Eric, Priest, Jeffrey W, Lebas, Elodie, O'Brien, Kieran S, Le, Victoria, Oldenburg, Catherine E, Doan, Thuy, Porco, Travis C, Keenan, Jeremy D, Lietman, Thomas M, Martin, Diana L, Arnold, Benjamin F, MORDOR-Niger Study Group, Arzika, Ahmed M, Arzika, Ahmed M, Maliki, Ramatou, Goodhew, E Brook, Rogier, Eric, Priest, Jeffrey W, Lebas, Elodie, O'Brien, Kieran S, Le, Victoria, Oldenburg, Catherine E, Doan, Thuy, Porco, Travis C, Keenan, Jeremy D, Lietman, Thomas M, Martin, Diana L, Arnold, Benjamin F, and MORDOR-Niger Study Group

Abstract

The MORDOR trial in Niger, Malawi, and Tanzania found that biannual mass distribution of azithromycin to children younger than 5 years led to a 13.5% reduction in all-cause mortality (NCT02048007). To help elucidate the mechanism for mortality reduction, we report IgG responses to 11 malaria, bacterial, and protozoan pathogens using a multiplex bead assay in pre-specified substudy of 30 communities in the rural Niger placebo-controlled trial over a three-year period (n = 5642 blood specimens, n = 3814 children ages 1-59 months). Mass azithromycin reduces Campylobacter spp. force of infection by 29% (hazard ratio = 0.71, 95% CI: 0.56, 0.89; P = 0.004) but serological measures show no significant differences between groups for other pathogens against a backdrop of high transmission. Results align with a recent microbiome study in the communities. Given significant sequelae of Campylobacter infection among preschool aged children, our results support an important mechanism through which biannual mass distribution of azithromycin likely reduces mortality in Niger.

Published

2022

14. Traveler's Health Guide : Gastrointestinal (GI) Illness Prevention

Abstract

GI illnesses are commonly acquired during travel to developing countries with poor sanitation systems or tropical areas like Asia, Africa, and Central and South America. It is important to follow precautions when traveling to prevent a GI infection.

Published

2022

15. Typhoid Fever/Paratyphoid Fever (Enteric Fever) : Disease Plan (April 7, 2022)

Author

Moore, Delaney and Moore, Delaney

Abstract

Disease investigation plan for typhoid fever/paratyphoid fever (enteric fever). Includes information on the disease and epidemiology, public health control measures, and case investigation.

Published

2022

16. Complete Health Indicator Report of Foodborne Illness - Salmonella Infections (01/13/2022)

Abstract

Indicator report of the number of reported culture-confirmed cases of salmonellosis in Utah.

Published

2022

17. Complete Health Indicator Report of Foodborne Illness - Salmonella Infections (12/28/2022)

Abstract

Indicator report of the number of reported culture-confirmed cases of salmonellosis in Utah.

Published

2022

18. Surface Glycans Regulate Salmonella Infection-Dependent Directional Switch in Macrophage Galvanotaxis Independent of NanH.

Author

Sun, YH, Raffatellu, Manuela1, Sun, YH, Luxardi, G, Xu, G, Zhu, K, Reid, B, Guo, BP, Lebrilla, CB, Maverakis, E, Zhao, M, Sun, YH, Raffatellu, Manuela1, Sun, YH, Luxardi, G, Xu, G, Zhu, K, Reid, B, Guo, BP, Lebrilla, CB, Maverakis, E, and Zhao, M

Abstract

Salmonella invades and disrupts gut epithelium integrity, creating an infection-generated electric field that can drive directional migration of macrophages, a process called galvanotaxis. Phagocytosis of bacteria reverses the direction of macrophage galvanotaxis, implicating a bioelectrical mechanism to initiate life-threatening disseminations. The force that drives direction reversal of macrophage galvanotaxis is not understood. One hypothesis is that Salmonella can alter the electrical properties of the macrophages by modifying host cell surface glycan composition, which is supported by the fact that cleavage of surface-exposed sialic acids with a bacterial neuraminidase severely impairs macrophage galvanotaxis, as well as phagocytosis. Here, we utilize N-glycan profiling by nanoLC-chip QTOF mass cytometry to characterize the bacterial neuraminidase-associated compositional shift of the macrophage glycocalyx, which revealed a decrease in sialylated and an increase in fucosylated and high mannose structures. The Salmonella nanH gene, encoding a putative neuraminidase, is required for invasion and internalization in a human colonic epithelial cell infection model. To determine whether NanH is required for the Salmonella infection-dependent direction reversal, we constructed and characterized a nanH deletion mutant and found that NanH is partially required for Salmonella infection in primary murine macrophages. However, compared to wild type Salmonella, infection with the nanH mutant only marginally reduced the cathode-oriented macrophage galvonotaxis, without canceling direction reversal. Together, these findings strongly suggest that while neuraminidase-mediated N-glycan modification impaired both macrophage phagocytosis and galvanotaxis, yet to be defined mechanisms other than NanH may play a more important role in bioelectrical control of macrophage trafficking, which potentially triggers dissemination.

Published

2022

19. Typhoid Fever/Paratyphoid Fever (Enteric Fever) : Disease Plan (April 7, 2022)

Author

Moore, Delaney and Moore, Delaney

Abstract

Disease investigation plan for typhoid fever/paratyphoid fever (enteric fever). Includes information on the disease and epidemiology, public health control measures, and case investigation.

Published

2022

20. Complete Health Indicator Report of Foodborne Illness - Salmonella Infections (12/28/2022)

Abstract

Indicator report of the number of reported culture-confirmed cases of salmonellosis in Utah.

Published

2022

21. Traveler's Health Guide : Gastrointestinal (GI) Illness Prevention

Abstract

GI illnesses are commonly acquired during travel to developing countries with poor sanitation systems or tropical areas like Asia, Africa, and Central and South America. It is important to follow precautions when traveling to prevent a GI infection.

Published

2022

22. Complete Health Indicator Report of Foodborne Illness - Salmonella Infections (01/13/2022)

Abstract

Indicator report of the number of reported culture-confirmed cases of salmonellosis in Utah.

Published

2022

23. Tolerogenic Immunoregulation towards Salmonella Enteritidis Contributes to Colonization Persistence in Young Chicks.

Author

Mon, Khin KZ, Mon, Khin KZ, Kern, Colin, Chanthavixay, Ganrea, Wang, Ying, Zhou, Huaijun, Mon, Khin KZ, Mon, Khin KZ, Kern, Colin, Chanthavixay, Ganrea, Wang, Ying, and Zhou, Huaijun

Abstract

Long-term survival and the persistence of bacteria in the host suggest either host unresponsiveness or induction of an immunological tolerant response to the pathogen. The role of the host immunological response to persistent colonization of Salmonella Enteritidis (SE) in chickens remains poorly understood. In the current study, we performed a cecal tonsil transcriptome analysis in a model of SE persistent infection in 2-week-old chickens to comprehensively examine the dynamics of host immunological responses in the chicken gastrointestinal tract. Our results revealed overall host tolerogenic adaptive immune regulation in a major gut-associated lymphoid tissue, the cecal tonsil, during SE infection. Specifically, we observed consistent downregulation of the metallothionein 4 gene at all four postinfection time points (3, 7, 14, and 21 days postinfection [dpi]), which suggested potential pathogen-associated manipulation of the host zinc regulation as well as a possible immune modulatory effect. Furthermore, delayed activation in the B cell receptor signaling pathway and failure to sustain its active state during the lag phase of infection were further supported by an insignificant production of both intestinal and circulatory antibodies. Tug-of-war for interleukin 2 (IL-2) regulation between effector T cells and regulatory T cells appears to have consequences for upregulation in the transducer of ERBB2 (TOB) pathway, a negative regulator of T cell proliferation. In conclusion, this work highlights the overall host tolerogenic immune response that promotes persistent colonization by SE in young layer chicks.

Published

2021

24. Tolerogenic Immunoregulation towards Salmonella Enteritidis Contributes to Colonization Persistence in Young Chicks.

Author

Mon, Khin KZ, Raffatellu, Manuela1, Mon, Khin KZ, Kern, Colin, Chanthavixay, Ganrea, Wang, Ying, Zhou, Huaijun, Mon, Khin KZ, Raffatellu, Manuela1, Mon, Khin KZ, Kern, Colin, Chanthavixay, Ganrea, Wang, Ying, and Zhou, Huaijun

Abstract

Long-term survival and the persistence of bacteria in the host suggest either host unresponsiveness or induction of an immunological tolerant response to the pathogen. The role of the host immunological response to persistent colonization of Salmonella Enteritidis (SE) in chickens remains poorly understood. In the current study, we performed a cecal tonsil transcriptome analysis in a model of SE persistent infection in 2-week-old chickens to comprehensively examine the dynamics of host immunological responses in the chicken gastrointestinal tract. Our results revealed overall host tolerogenic adaptive immune regulation in a major gut-associated lymphoid tissue, the cecal tonsil, during SE infection. Specifically, we observed consistent downregulation of the metallothionein 4 gene at all four postinfection time points (3, 7, 14, and 21 days postinfection [dpi]), which suggested potential pathogen-associated manipulation of the host zinc regulation as well as a possible immune modulatory effect. Furthermore, delayed activation in the B cell receptor signaling pathway and failure to sustain its active state during the lag phase of infection were further supported by an insignificant production of both intestinal and circulatory antibodies. Tug-of-war for interleukin 2 (IL-2) regulation between effector T cells and regulatory T cells appears to have consequences for upregulation in the transducer of ERBB2 (TOB) pathway, a negative regulator of T cell proliferation. In conclusion, this work highlights the overall host tolerogenic immune response that promotes persistent colonization by SE in young layer chicks.

Published

2021

25. Salmonellosis (Non-Typhoid) : Disease Plan (07/19/2021)

Author

Moore, Delaney and Moore, Delaney

Abstract

Disease investigation plan for salmonellosis (non-typhoid). Includes information on the disease and epidemiology, public health control measures, and case investigation.

Published

2021

26. The modulatory effects of alfalfa polysaccharide on intestinal microbiota and systemic health of Salmonella serotype (ser.) Enteritidis-challenged broilers.

Author

Li, Zemin, Li, Zemin, Zhang, Chongyu, Li, Bo, Zhang, Shimin, Haj, Fawaz G, Zhang, Guiguo, Lee, Yunkyoung, Li, Zemin, Li, Zemin, Zhang, Chongyu, Li, Bo, Zhang, Shimin, Haj, Fawaz G, Zhang, Guiguo, and Lee, Yunkyoung

Abstract

Salmonella serotype (ser.) Enteritidis infection in broilers is a main foodborne illness that substantially threatens food security. This study aimed to examine the effects of a novel polysaccharide isolated from alfalfa (APS) on the intestinal microbiome and systemic health of S. ser. Enteritidis-infected broilers. The results indicated that broilers receiving the APS-supplemented diet had the improved (P < 0.05) growth performance and gut health than those fed no APS-supplemented diet. Supplementation with APS enhanced (P < 0.05) the richness of gut beneficial microbes such as Bacteroidetes, Barnesiella, Parabacteroides, Butyricimonas, and Prevotellaceae, while decreased (P < 0.05) the abundance of facultative anaerobic bacteria including Proteobacteria, Actinobacteria, Ruminococcaceae, Lachnospiraceae, and Burkholderiaceae in the S. ser. Enteritidis-infected broilers. The Bacteroides and Odoribacter were identified as the two core microbes across all treatments and combined with their syntrophic microbes formed the hub in co-occurrence networks linking microbiome structure to performance of broilers. Taken together, dietary APS supplementation improved the systemic health of broilers by reshaping the intestinal microbiome regardless of whether S. ser. Enteritidis infection was present. Therefore, APS can be employed as a potential functional additives to inhibit the S. ser. Enteritidis and enhance the food safety in poultry farming.

Published

2021

27. Precision of Serologic Testing from Dried Blood Spots Using a Multiplex Bead Assay.

Author

Gwyn, Sarah, Gwyn, Sarah, Aragie, Solomon, Wittberg, Dionna M, Melo, Jason S, Dagnew, Adane, Hailu, Dagnachew, Tadesse, Zerihun, Haile, Mahteme, Zeru, Taye, Nash, Scott D, Arnold, Benjamin F, Martin, Diana L, Keenan, Jeremy D, Gwyn, Sarah, Gwyn, Sarah, Aragie, Solomon, Wittberg, Dionna M, Melo, Jason S, Dagnew, Adane, Hailu, Dagnachew, Tadesse, Zerihun, Haile, Mahteme, Zeru, Taye, Nash, Scott D, Arnold, Benjamin F, Martin, Diana L, and Keenan, Jeremy D

Abstract

Multiplex bead assays (MBAs) for serologic testing have become more prevalent in public health surveys, but few studies have assessed their test performance. As part of a trachoma study conducted in a rural part of Ethiopia in 2016, dried blood spots (DBS) were collected from a random sample of 393 children aged 0 to 9 years, with at least two separate 6-mm DBS collected on a filter card. Samples eluted from DBS were processed using an MBA on the Luminex platform for antibodies against 13 antigens of nine infectious organisms: Chlamydia trachomatis, Vibrio cholera, enterotoxigenic Escherichia coli, Cryptosporidium parvum, Entamoeba histolytica, Camplyobacter jejuni, Salmonella typhimurium Group B, Salmonella enteritidis Group D, and Giardia lamblia. Two separate DBS from each child were processed. The first DBS was run a single time, with the MBA set to read 100 beads per well. The second DBS was run twice, first at 100 beads per well and then at 50 beads per well. Results were expressed as the median fluorescence intensity minus background (MFI-BG), and classified as seropositive or seronegative according to external standards. Agreement between the three runs was high, with intraclass correlation coefficients of > 0.85 for the two Salmonella antibody responses and > 0.95 for the other 11 antibody responses. Agreement was also high for the dichotomous seropositivity indicators, with Cohen's kappa statistics exceeding 0.87 for each antibody assay. These results suggest that serologic testing on the Luminex platform had strong test performance characteristics for analyzing antibodies using DBS.

Published

2021

28. Epithelium-autonomous NAIP/NLRC4 prevents TNF-driven inflammatory destruction of the gut epithelial barrier in Salmonella-infected mice.

Author

Fattinger, Stefan, Fattinger, Stefan, Geiser, Petra, Samperio Ventayol, Pilar, Di Martino, Maria, Furter, Markus, Felmy, Boas, Bakkeren, Erik, Hausmann, Annika, Barthel-Scherrer, Manja, Gül, Ersin, Hardt, Wolf-Dietrich, Sellin, Mikael, Fattinger, Stefan, Fattinger, Stefan, Geiser, Petra, Samperio Ventayol, Pilar, Di Martino, Maria, Furter, Markus, Felmy, Boas, Bakkeren, Erik, Hausmann, Annika, Barthel-Scherrer, Manja, Gül, Ersin, Hardt, Wolf-Dietrich, and Sellin, Mikael

Abstract

The gut epithelium is a critical protective barrier. Its NAIP/NLRC4 inflammasome senses infection by Gram-negative bacteria, including Salmonella Typhimurium (S.Tm) and promotes expulsion of infected enterocytes. During the first ~12-24 h, this reduces mucosal S.Tm loads at the price of moderate enteropathy. It remained unknown how this NAIP/NLRC4-dependent tradeoff would develop during subsequent infection stages. In NAIP/NLRC4-deficient mice, S.Tm elicited severe enteropathy within 72 h, characterized by elevated mucosal TNF (>20 pg/mg) production from bone marrow-derived cells, reduced regeneration, excessive enterocyte loss, and a collapse of the epithelial barrier. TNF-depleting antibodies prevented this destructive pathology. In hosts proficient for epithelial NAIP/NLRC4, a heterogeneous enterocyte death response with both apoptotic and pyroptotic features kept S.Tm loads persistently in check, thereby preventing this dire outcome altogether. Our results demonstrate that immediate and selective removal of infected enterocytes, by locally acting epithelium-autonomous NAIP/NLRC4, is required to avoid a TNF-driven inflammatory hyper-reaction that otherwise destroys the epithelial barrier.

Published

2021

29. Systematic reconstruction of an effector-gene network reveals determinants of Salmonella cellular and tissue tropism.

Author

Chen, Didi, Chen, Didi, Burford, Wesley B, Pham, Giang, Zhang, Lishu, Alto, Laura T, Ertelt, James M, Winter, Maria G, Winter, Sebastian E, Way, Sing Sing, Alto, Neal M, Chen, Didi, Chen, Didi, Burford, Wesley B, Pham, Giang, Zhang, Lishu, Alto, Laura T, Ertelt, James M, Winter, Maria G, Winter, Sebastian E, Way, Sing Sing, and Alto, Neal M

Abstract

The minimal genetic requirements for microbes to survive within multiorganism communities, including host-pathogen interactions, remain poorly understood. Here, we combined targeted gene mutagenesis with phenotype-guided genetic reassembly to identify a cooperative network of SPI-2 T3SS effector genes that are sufficient for Salmonella Typhimurium (STm) to cause disease in a natural host organism. Five SPI-2 effector genes support pathogen survival within the host cell cytoplasm by coordinating bacterial replication with Salmonella-containing vacuole (SCV) division. Unexpectedly, this minimal genetic repertoire does not support STm systemic infection of mice. In vivo screening revealed a second effector-gene network, encoded by the spv operon, that expands the life cycle of STm from growth in cells to deep-tissue colonization in a murine model of typhoid fever. Comparison between Salmonella infection models suggests how cooperation between effector genes drives tissue tropism in a pathogen group.

Published

2021

30. In vitro and in vivo effects of palm kernel cake oligosaccharides on Salmonella enterica serovar enteritidis infection

Author

Foo, Rui Qing and Foo, Rui Qing

Abstract

Non-digestible oligosaccharides (NDOs) have been reported to possess prebiotic and immunomodulatory properties. With the European Union (EU) wide ban on the use of antibiotic growth promoters (AGP) in the livestock industry, the search for AGP alternatives to maintain livestock productivity is highly sought after. Previous studies have shown that NDOs from palm kernel cake (PKC), a by-product of the palm oil industry were able to confer a protective effect against Salmonella colonization in young chickens. Being young vertebrae with an immature immune system, they would have to rely on the strength of their innate immune responses to prevent Salmonella infection. Therefore the objective of this study was to investigate the ability of NDOs from PKC to affect the innate immune response in a Salmonella enterica serovar (ser.) Enteritidis (S. Enteritidis) infection model utilizing in vitro and in vivo approaches. The in vitro approach consisted of an anti-adherence assay using Caco-2 cells, a Salmonella killing assay using U-937 macrophages and a lactate dehydrogenase (LDH) assay to monitor cellular damage. The in vivo approached utilized zebrafish larvae to observe the effects of NDOs from PKC on lipopolysaccharide (LPS) induced nitric oxide (NO) levels, S. Enteritidis colonization patterns and its effect on zebrafish’s gene expression. The results of the in vitro study revealed that the NDOs fraction from PKC with a lower degree of polymerization (DP), termed ‘Small’ (DP ≤ 6), was better than the NDOs fraction from PKC with a larger DP, termed ‘Big’ (DP > 6), at significantly (p ≤ 0.05) reducing S. Enteritidis adherence to Caco-2 epithelial cells. Both Small and Big fractions were comparable to one another at increasing the rate of Salmonella killing in U-937 macrophages. In terms of reducing cellular damage, both the Small and Big were capable of significantly reducing cellular damage in Caco-2 cells although the Small fraction showed a stronger correlation between d

Published

2021

31. Molecular determinants of peaceful coexistence versus invasiveness of non-Typhoidal Salmonella: Implications in long-term side-effects.

Author

Rana, Sarika, Maurya, Sonalika, Chadrasekhar, Hridya, Srikanth, Chittur Venkateshwaran, Rana, Sarika, Maurya, Sonalika, Chadrasekhar, Hridya, and Srikanth, Chittur Venkateshwaran

Abstract

The genus Salmonella represents a wide range of strains including Typhoidal and Non-Typhoidal Salmonella (NTS) isolates that exhibit illnesses of varied pathophysiologies. The more frequent NTS ensues a self-limiting enterocolitis with rare occasions of bacteremia or systemic infections. These self-limiting Salmonella strains are capable of subverting and dampening the host immune system to achieve a more prolonged survival inside the host system thus leading to chronic manifestations. Notably, emergence of new invasive NTS isolates known as invasive Non-Typhoidal Salmonella (iNTS) have worsened the disease burden significantly in some parts of the world. NTS strains adapt to attain persister phenotype intracellularly and cause relapsing infections. These chronic infections, in susceptible hosts, are also capable of causing diseases like IBS, IBD, reactive arthritis, gallbladder cancer and colorectal cancer. The present understanding of molecular mechanism of how these chronic infections are manifested is quite limited. The current work is an effort to review the prevailing knowledge emanating from a large volume of research focusing on various forms of NTS infections including those that cause localized, systemic and persistent disease. The review will further dwell into the understanding of how this pathogen contributes to the associated long term sequelae., info:eu-repo/semantics/published

Published

2021

32. Salmonellosis (Non-Typhoid) : Disease Plan (07/19/2021)

Author

Moore, Delaney and Moore, Delaney

Abstract

Disease investigation plan for salmonellosis (non-typhoid). Includes information on the disease and epidemiology, public health control measures, and case investigation.

Published

2021

33. In vitro and in vivo effects of palm kernel cake oligosaccharides on Salmonella enterica serovar enteritidis infection

Author

Foo, Rui Qing and Foo, Rui Qing

Abstract

Non-digestible oligosaccharides (NDOs) have been reported to possess prebiotic and immunomodulatory properties. With the European Union (EU) wide ban on the use of antibiotic growth promoters (AGP) in the livestock industry, the search for AGP alternatives to maintain livestock productivity is highly sought after. Previous studies have shown that NDOs from palm kernel cake (PKC), a by-product of the palm oil industry were able to confer a protective effect against Salmonella colonization in young chickens. Being young vertebrae with an immature immune system, they would have to rely on the strength of their innate immune responses to prevent Salmonella infection. Therefore the objective of this study was to investigate the ability of NDOs from PKC to affect the innate immune response in a Salmonella enterica serovar (ser.) Enteritidis (S. Enteritidis) infection model utilizing in vitro and in vivo approaches. The in vitro approach consisted of an anti-adherence assay using Caco-2 cells, a Salmonella killing assay using U-937 macrophages and a lactate dehydrogenase (LDH) assay to monitor cellular damage. The in vivo approached utilized zebrafish larvae to observe the effects of NDOs from PKC on lipopolysaccharide (LPS) induced nitric oxide (NO) levels, S. Enteritidis colonization patterns and its effect on zebrafish’s gene expression. The results of the in vitro study revealed that the NDOs fraction from PKC with a lower degree of polymerization (DP), termed ‘Small’ (DP ≤ 6), was better than the NDOs fraction from PKC with a larger DP, termed ‘Big’ (DP > 6), at significantly (p ≤ 0.05) reducing S. Enteritidis adherence to Caco-2 epithelial cells. Both Small and Big fractions were comparable to one another at increasing the rate of Salmonella killing in U-937 macrophages. In terms of reducing cellular damage, both the Small and Big were capable of significantly reducing cellular damage in Caco-2 cells although the Small fraction showed a stronger correlation between d

Published

2021

34. Vitamin A supplementation boosts control of antibiotic-resistant Salmonella infection in malnourished mice.

Author

Stull-Lane, Annica R, Stull-Lane, Annica R, Lokken-Toyli, Kristen L, Diaz-Ochoa, Vladimir E, Walker, Gregory T, Cevallos, Stephanie A, Winter, Andromeda LN, Muñoz, Ariel Del Hoyo, Yang, Guiyan G, Velazquez, Eric M, Wu, Chun-Yi, Tsolis, Renée M, Stull-Lane, Annica R, Stull-Lane, Annica R, Lokken-Toyli, Kristen L, Diaz-Ochoa, Vladimir E, Walker, Gregory T, Cevallos, Stephanie A, Winter, Andromeda LN, Muñoz, Ariel Del Hoyo, Yang, Guiyan G, Velazquez, Eric M, Wu, Chun-Yi, and Tsolis, Renée M

Abstract

Disseminated disease from non-typhoidal Salmonella enterica strains results in >20% mortality globally. Barriers to effective treatment include emerging multidrug resistance, antibiotic treatment failure, and risk factors such as malnutrition and related micronutrient deficiencies. Individuals in sub-Saharan Africa are disproportionately affected by non-typhoidal S. enterica bloodstream infections. To inform a clinical trial in people, we investigated vitamin A as a treatment in the context of antibiotic treatment failure in a mouse model of vitamin A deficiency. Vitamin A-deficient (VAD) mice exhibited higher systemic bacterial levels with a multidrug-resistant clinical isolate in comparison to mice on a control diet. Sex-specific differences in vitamin A deficiency and disseminated infection with S. enterica serotype Typhimurium (S. Typhimurium) were observed. VAD male mice had decreased weight gain compared to control male mice. Further, infected VAD male mice had significant weight loss and decreased survival during the course of infection. These differences were not apparent in female mice. In a model of disseminated S. Typhimurium infection and antibiotic treatment failure, we assessed the potential of two consecutive doses of vitamin A in alleviating infection in male and female mice on a VAD or control diet. We found that subtherapeutic antibiotic treatment synergized with vitamin A treatment in infected VAD male mice, significantly decreasing systemic bacterial levels, mitigating weight loss and improving survival. These results suggest that assessing vitamin A as a therapy during bacteremia in malnourished patients may lead to improved health outcomes in a subset of patients, especially in the context of antibiotic treatment failure.

Published

2020

35. Integrative analysis of gut microbiome and metabolites revealed novel mechanisms of intestinal Salmonella carriage in chicken.

Author

Mon, Khin KZ, Mon, Khin KZ, Zhu, Yuhua, Chanthavixay, Ganrea, Kern, Colin, Zhou, Huaijun, Mon, Khin KZ, Mon, Khin KZ, Zhu, Yuhua, Chanthavixay, Ganrea, Kern, Colin, and Zhou, Huaijun

Abstract

Intestinal carriage of Salmonella Enteritidis (SE) in the chicken host serves as a reservoir for transmission of Salmonella to humans through the consumption of poultry products. The aim of the current study was to examine the three-way interaction that occurred between host metabolites, resident gut microbiota and Salmonella following inoculation of SE in two-week-old layer chicks. Our results revealed an overall alteration in gut microbiome and metabolites in association with SE infection. Enriched colonization by different microbial members throughout the course of experimental infection highlighted significant fluctuation in the intestinal microbial community in response to Salmonella infection. As changes in community membership occurred, there was also subsequent impact on differential regulation of interlinked predicted functional activities within the intestinal environment dictated by Salmonella-commensal interaction. Alteration in the overall microbial community following infection also has a ripple effect on the host regulation of cecum-associated metabolic networks. The findings showed that there was differential regulation in many of the metabolites in association with SE colonization in chickens. Perturbation in metabolic pathways related to arginine and proline metabolism as well as TCA cycle was most prominently detected. Taken together, the present findings provided a starting point in understanding the effect of intestinal Salmonella carriage on the microbiome and metabolome of developing young layer chicks.

Published

2020

36. Carriage and Subtypes of Foodborne Pathogens Identified in Wild Birds Residing near Agricultural Lands in California: a Repeated Cross-Sectional Study.

Author

Navarro-Gonzalez, N, McBain, Andrew J1, Navarro-Gonzalez, N, Wright, S, Aminabadi, P, Gwinn, A, Suslow, TV, Jay-Russell, MT, Navarro-Gonzalez, N, McBain, Andrew J1, Navarro-Gonzalez, N, Wright, S, Aminabadi, P, Gwinn, A, Suslow, TV, and Jay-Russell, MT

Abstract

Current California agricultural practices strive to comanage food safety and habitat conservation on farmland. However, the ecology of foodborne pathogens in wild bird populations, especially those avian species residing in proximity to fresh produce production fields, is not fully understood. In this repeated cross-sectional study, avifauna within agricultural lands in California were sampled over 1 year. Feces, oral swabs, and foot/feather swabs were cultured for zoonotic Salmonella spp., Escherichia coli O157:H7, and non-O157 Shiga toxin-producing E. coli (STEC) and characterized by serotyping and pulsed-field gel electrophoresis. Of 60 avian species sampled, 8 species (13.3%, bird groups of sparrows, icterids, geese, wrens, and kinglets) were positive for at least one of these foodborne pathogens. At the individual bird level, the detection of foodborne pathogens was infrequent in feces (n = 583; 0.5% Salmonella, 0.34% E. coli O157:H7, and 0.5% non-O157 STEC) and in feet/feathers (n = 401; 0.5% non-O157 STEC), and it was absent from oral swabs (n = 353). Several subtypes of public health importance were identified, including Salmonella enterica serotype Newport, E. coli O157:H7, and STEC serogroups O103 and O26. In late summer and autumn, the same STEC subtype was episodically found in several individuals of the same and different avian species, suggesting a common source of contamination in the environment. Sympatric free-range cattle shared subtypes of STEC O26 and O163 with wild geese. A limited rate of positive detection in wild birds provides insights into broad risk profile for contamination considerations but cannot preclude or predict risk on an individual farm.IMPORTANCE The shedding dynamics of foodborne pathogens by wild birds on farmland are not well characterized. This yearlong study sampled wild birds for foodborne pathogens within agricultural lands in northern California. There was a low prevalence of Salmonella spp., Escherichia coli O157:H7, an

Published

2020

37. Apurinic/Apyrimidinic Endonuclease 1 Restricts the Internalization of Bacteria Into Human Intestinal Epithelial Cells Through the Inhibition of Rac1.

Author

den Hartog, Gerco, den Hartog, Gerco, Butcher, Lindsay D, Ablack, Amber L, Pace, Laura A, Ablack, Jailal NG, Xiong, Richard, Das, Soumita, Stappenbeck, Thaddeus S, Eckmann, Lars, Ernst, Peter B, Crowe, Sheila E, den Hartog, Gerco, den Hartog, Gerco, Butcher, Lindsay D, Ablack, Amber L, Pace, Laura A, Ablack, Jailal NG, Xiong, Richard, Das, Soumita, Stappenbeck, Thaddeus S, Eckmann, Lars, Ernst, Peter B, and Crowe, Sheila E

Abstract

Pathogenic intestinal bacteria lead to significant disease in humans. Here we investigated the role of the multifunctional protein, Apurinic/apyrimidinic endonuclease 1 (APE1), in regulating the internalization of bacteria into the intestinal epithelium. Intestinal tumor-cell lines and primary human epithelial cells were infected with Salmonella enterica serovar Typhimurium or adherent-invasive Escherichia coli. The effects of APE1 inhibition on bacterial internalization, the regulation of Rho GTPase Rac1 as well as the epithelial cell barrier function were assessed. Increased numbers of bacteria were present in APE1-deficient colonic tumor cell lines and primary epithelial cells. Activation of Rac1 was augmented following infection but negatively regulated by APE1. Pharmacological inhibition of Rac1 reversed the increase in intracellular bacteria in APE1-deficient cells whereas overexpression of constitutively active Rac1 augmented the numbers in APE1-competent cells. Enhanced numbers of intracellular bacteria resulted in the loss of barrier function and a delay in its recovery. Our data demonstrate that APE1 inhibits the internalization of invasive bacteria into human intestinal epithelial cells through its ability to negatively regulate Rac1. This activity also protects epithelial cell barrier function.

Published

2020

38. Complete Health Indicator Report of Foodborne Illness - Salmonella Infections (10/21/2020)

Abstract

Indicator report of the number of reported culture-confirmed cases of salmonellosis in Utah.

Published

2020

39. Maintenance of Type IV Secretion Function During Helicobacter pylori Infection in Mice.

Author

Skoog, Emma C, Blaser, Martin J1, Skoog, Emma C, Martin, Miriam E, Barrozo, Roberto M, Hansen, Lori M, Cai, Lucy P, Lee, Seung-Joo, Benoun, Joseph M, McSorley, Stephen J, Solnick, Jay V, Skoog, Emma C, Blaser, Martin J1, Skoog, Emma C, Martin, Miriam E, Barrozo, Roberto M, Hansen, Lori M, Cai, Lucy P, Lee, Seung-Joo, Benoun, Joseph M, McSorley, Stephen J, and Solnick, Jay V

Abstract

The Helicobacter pylori type IV secretion system (T4SS) encoded on the cag pathogenicity island (cagPAI) secretes the CagA oncoprotein and other effectors into the gastric epithelium. During murine infection, T4SS function is lost in an immune-dependent manner, typically as a result of in-frame recombination in the middle repeat region of cagY, though single nucleotide polymorphisms (SNPs) in cagY or in other essential genes may also occur. Loss of T4SS function also occurs in gerbils, nonhuman primates, and humans, suggesting that it is biologically relevant and not simply an artifact of the murine model. Here, we sought to identify physiologically relevant conditions under which T4SS function is maintained in the murine model. We found that loss of H. pylori T4SS function in mice was blunted by systemic Salmonella coinfection and completely eliminated by dietary iron restriction. Both have epidemiologic parallels in humans, since H. pylori strains from individuals in developing countries, where iron deficiency and systemic infections are common, are also more often cagPAI+ than strains from developed countries. These results have implications for our fundamental understanding of the cagPAI and also provide experimental tools that permit the study of T4SS function in the murine model.IMPORTANCE The type IV secretion system (T4SS) is the major Helicobacter pylori virulence factor, though its function is lost during murine infection. Loss of function also occurs in gerbils and in humans, suggesting that it is biologically relevant, but the conditions under which T4SS regulation occurs are unknown. Here, we found that systemic coinfection with Salmonella and iron deprivation each promote retention of T4SS function. These results improve our understanding of the cag pathogenicity island (cagPAI) and provide experimental tools that permit the study of T4SS function in the murine model.

Published

2020

40. Vitamin A supplementation boosts control of antibiotic-resistant Salmonella infection in malnourished mice.

Author

Stull-Lane, Annica R, Torres, Alfredo G1, Stull-Lane, Annica R, Lokken-Toyli, Kristen L, Diaz-Ochoa, Vladimir E, Walker, Gregory T, Cevallos, Stephanie A, Winter, Andromeda LN, Muñoz, Ariel Del Hoyo, Yang, Guiyan G, Velazquez, Eric M, Wu, Chun-Yi, Tsolis, Renée M, Stull-Lane, Annica R, Torres, Alfredo G1, Stull-Lane, Annica R, Lokken-Toyli, Kristen L, Diaz-Ochoa, Vladimir E, Walker, Gregory T, Cevallos, Stephanie A, Winter, Andromeda LN, Muñoz, Ariel Del Hoyo, Yang, Guiyan G, Velazquez, Eric M, Wu, Chun-Yi, and Tsolis, Renée M

Abstract

Disseminated disease from non-typhoidal Salmonella enterica strains results in >20% mortality globally. Barriers to effective treatment include emerging multidrug resistance, antibiotic treatment failure, and risk factors such as malnutrition and related micronutrient deficiencies. Individuals in sub-Saharan Africa are disproportionately affected by non-typhoidal S. enterica bloodstream infections. To inform a clinical trial in people, we investigated vitamin A as a treatment in the context of antibiotic treatment failure in a mouse model of vitamin A deficiency. Vitamin A-deficient (VAD) mice exhibited higher systemic bacterial levels with a multidrug-resistant clinical isolate in comparison to mice on a control diet. Sex-specific differences in vitamin A deficiency and disseminated infection with S. enterica serotype Typhimurium (S. Typhimurium) were observed. VAD male mice had decreased weight gain compared to control male mice. Further, infected VAD male mice had significant weight loss and decreased survival during the course of infection. These differences were not apparent in female mice. In a model of disseminated S. Typhimurium infection and antibiotic treatment failure, we assessed the potential of two consecutive doses of vitamin A in alleviating infection in male and female mice on a VAD or control diet. We found that subtherapeutic antibiotic treatment synergized with vitamin A treatment in infected VAD male mice, significantly decreasing systemic bacterial levels, mitigating weight loss and improving survival. These results suggest that assessing vitamin A as a therapy during bacteremia in malnourished patients may lead to improved health outcomes in a subset of patients, especially in the context of antibiotic treatment failure.

Published

2020

41. Salmonella Typhimurium discreet-invasion of the murine gut absorptive epithelium.

Author

Fattinger, Stefan, Fattinger, Stefan, Böck, Desirée, Di Martino, Maria, Deuring, Sabrina, Samperio Ventayol, Pilar, Ek, Viktor, Furter, Markus, Kreibich, Saskia, Bosia, Francesco, Müller-Hauser, Anna, Nguyen, Bidong, Rohde, Manfred, Pilhofer, Martin, Hardt, Wolf-Dietrich, Sellin, Mikael, Fattinger, Stefan, Fattinger, Stefan, Böck, Desirée, Di Martino, Maria, Deuring, Sabrina, Samperio Ventayol, Pilar, Ek, Viktor, Furter, Markus, Kreibich, Saskia, Bosia, Francesco, Müller-Hauser, Anna, Nguyen, Bidong, Rohde, Manfred, Pilhofer, Martin, Hardt, Wolf-Dietrich, and Sellin, Mikael

Abstract

Salmonella enterica serovar Typhimurium (S.Tm) infections of cultured cell lines have given rise to the ruffle model for epithelial cell invasion. According to this model, the Type-Three-Secretion-System-1 (TTSS-1) effectors SopB, SopE and SopE2 drive an explosive actin nucleation cascade, resulting in large lamellipodia- and filopodia-containing ruffles and cooperative S.Tm uptake. However, cell line experiments poorly recapitulate many of the cell and tissue features encountered in the hosts gut mucosa. Here, we employed bacterial genetics and multiple imaging modalities to compare S.Tm invasion of cultured epithelial cell lines and the gut absorptive epithelium in vivo in mice. In contrast to the prevailing ruffle-model, we find that absorptive epithelial cell entry in the mouse gut occurs through discreet-invasion. This distinct entry mode requires the conserved TTSS-1 effector SipA, involves modest elongation of local microvilli in the absence of expansive ruffles, and does not favor cooperative invasion. Discreet-invasion preferentially targets apicolateral hot spots at cell-cell junctions and shows strong dependence on local cell neighborhood. This proof-of-principle evidence challenges the current model for how S.Tm can enter gut absorptive epithelial cells in their intact in vivo context.

Published

2020

42. Intestinal epithelial NAIP/NLRC4 restricts systemic dissemination of the adapted pathogen Salmonella Typhimurium due to site-specific bacterial PAMP expression.

Author

Hausmann, Annika, Hausmann, Annika, Böck, Desirée, Geiser, Petra, Berthold, Dorothée, Fattinger, Stefan, Furter, Markus, Bouman, Judith, Barthel-Scherrer, Manja, Lang, Crispin, Bakkeren, Erik, Kolinko, Isabel, Diard, Médéric, Bumann, Dirk, Slack, Emma, Regoes, Roland, Pilhofer, Martin, Sellin, Mikael, Hardt, Wolf-Dietrich, Hausmann, Annika, Hausmann, Annika, Böck, Desirée, Geiser, Petra, Berthold, Dorothée, Fattinger, Stefan, Furter, Markus, Bouman, Judith, Barthel-Scherrer, Manja, Lang, Crispin, Bakkeren, Erik, Kolinko, Isabel, Diard, Médéric, Bumann, Dirk, Slack, Emma, Regoes, Roland, Pilhofer, Martin, Sellin, Mikael, and Hardt, Wolf-Dietrich

Abstract

Inflammasomes can prevent systemic dissemination of enteropathogenic bacteria. As adapted pathogens including Salmonella Typhimurium (S. Tm) have evolved evasion strategies, it has remained unclear when and where inflammasomes restrict their dissemination. Bacterial population dynamics establish that the NAIP/NLRC4 inflammasome specifically restricts S. Tm migration from the gut to draining lymph nodes. This is solely attributable to NAIP/NLRC4 within intestinal epithelial cells (IECs), while S. Tm evades restriction by phagocyte NAIP/NLRC4. NLRP3 and Caspase-11 also fail to restrict S. Tm mucosa traversal, migration to lymph nodes, and systemic pathogen growth. The ability of IECs (not phagocytes) to mount a NAIP/NLRC4 defense in vivo is explained by particularly high NAIP/NLRC4 expression in IECs and the necessity for epithelium-invading S. Tm to express the NAIP1-6 ligands-flagella and type-III-secretion-system-1. Imaging reveals both ligands to be promptly downregulated following IEC-traversal. These results highlight the importance of intestinal epithelial NAIP/NLRC4 in blocking bacterial dissemination in vivo, and explain why this constitutes a uniquely evasion-proof defense against the adapted enteropathogen S. Tm.

Published

2020

43. Perfil de resistencia de la Salmonella sp durante un periodo de tres años en un hospital de Colombia

Author

Pérez Ardila, Maria Alejandra, Noreña, Iván, Millán, Henry Augusto, Naranjo, Julián Alberto, Castellanos, Juan, Ladino, Laura, Luna, Fredy Andrés, Rincón, Laura Fernanda, Duarte, Luisa, Pérez Ardila, Maria Alejandra, Noreña, Iván, Millán, Henry Augusto, Naranjo, Julián Alberto, Castellanos, Juan, Ladino, Laura, Luna, Fredy Andrés, Rincón, Laura Fernanda, and Duarte, Luisa

Abstract

Objective: In Colombia, from 2000 to 2012, a progressive increase in resistance to beta-lactams and quinolones was described in isolates of Salmonella sp. As of this date, the evolution of resistance rates in the country is unknown. The objective of this study is to describe the susceptibility profile from 2014 to 2017, as well as to evaluate the association between the clinical and sociodemographic characteristics of the population with the resistance patterns of Salmonella sp. Materials and methods: The study is a cross-sectional study between 2014 and 2017 at the Fundación Cardioinfantil, in patients over 18 years of age with Salmonella sp, in any type of biologic sample. Results: The authors found 60 cases, no isolate was resistant to quinolones. One showed resistant to ampicillin, and another one was characterized as amp-C; 95% had a usual susceptibility profile. No association was found between the variables studied and the presence of resistance. Conclusion: The results may reflect a change in the susceptibility profile of Salmonella sp in Colombia, with a decrease in resistance to betalactams and quinolones as of 2014; however, a larger population sample is required to corroborate this hypothesis., Objetivo: Na Colômbia do ano 2000 ao 2012 se descreveu um aumento progressivo na resistência a beta-lactâmicos e quinolonas nos isolamentos de Salmonella sp. A partir desta data se desconhece a evolução das taxas de resistência no país. O objetivo deste estudo é descrever o perfil de susceptibilidade do ano 2014 ao 2017, assim como avaliar a associação entre as características clínicas e sociodemográficas da população com os patrões de resistência Salmonella sp. Materiais e métodos: Estudo de corte transversal do ano 2014 ao ano 2017 realizado na Fundación Cardioinfantil em maiores de 18 anos com isolamento de Salmonella sp, em qualquer tipo de amostra biológica. Resultados: se encontraram 60 casos, nenhum isolamento foi resistente a quinolonas, um mostrou resistência a ampicilina e um se caracterizou como AMP–C, o 95 % tinha perfil de susceptibilidade usual. Não se encontrou associação entre as variáveis estudadas e a presença de resistência. Conclusão: Os resultados podem refletir uma mudança no perfil de susceptibilidade de Salmonella sp. Na Colômbia, com uma diminuição na resistência a beta-lactâmicos e quinolonas a partir do ano 2014, no entanto se requere uma maior amostra populacional para corroborar esta hipótese., Introducción: en Colombia, del 2000 al 2012, se describió un aumento progresivo en la resistencia a betalactámicos y a quinolonas en los aislamientos de Salmonella sp. A partir de esta fecha, se desconoce la evolución de las tasas de resistencia en el país. El objetivo de este estudio fue describir el perfil de susceptibilidad durante el periodo 2014-2017, así como evaluar la asociación entre las características clínicas sociodemográficas de la población con los patrones de resistencia de Salmonella sp. Materiales y métodos: estudio de corte transversal del 2014 al 2017, realizado en la Fundación Cardioinfantil en mayores de 18 años, con aislamiento de Salmonella sp en cualquier tipo de muestra biológica. Resultados: se encontraron sesenta casos, ningún aislamiento fue resistente a quinolonas, uno mostró resistencia a ampicilina y uno se caracterizó como AMP–c; el 95 % tenía perfil de susceptibilidad usual. No se encontró asociación entre las variables estudiadas y la presencia de resistencia. Conclusión: los resultados pueden reflejar un cambio en el perfil de susceptibilidad de Salmonella sp en Colombia, con una disminución en la resistencia a betalactámicos y a quinolonas a partir del 2014. Sin embargo, se requiere una mayor muestra poblacional para corroborar esta hipótesis.

Published

2020

44. Complete Health Indicator Report of Foodborne Illness - Salmonella Infections (10/21/2020)

Abstract

Indicator report of the number of reported culture-confirmed cases of salmonellosis in Utah.

Published

2020

45. Prevalence, antibiotic resistance and biofilm formation of Salmonella in raw chicken meats at selected slaughterhouses in Peninsular Malaysia

Author

Ismail, Zuraidah and Ismail, Zuraidah

Abstract

Salmonella is one of the most common causes of foodborne diseases. The objectives of this research were to isolate and identify Salmonella from raw chicken meat, determine its antibiotic resistance and its ability to form biofilm on the surfaces using microtitre plate surface in a growth media at different incubation period. Raw chicken meat was obtained from selected slaughterhouses located in four different zones in Peninsular Malaysia; Northern Zone (States of Perlis, Kedah, Penang and Perak); Central Zone (States of Selangor, Negeri Sembilan and Melaka; Southern Zone (States of Johor) and Eastern Zone (States of Terengganu, Kelantan and Pahang). The samples were collected and isolated at the Veterinary Public Health Laboratory (VPHL), Department of Veterinary Services (DVS), Sepang, Selangor. Isolation and identification of samples were performed using an in-house conventional (VPHL) culture method adopted from the American Association of Analytical Chemists (AOAC, 1995), the Food Safety and Inspection Services of USDA (FSIS, 1998) and the Australian Standard (AS 1766.2.5, 1991). Positive isolates were serotyped at the Veterinary Research Institute, Ipoh Perak using the White-Kauffmann-Le Minor scheme comprising of commercial somatic and flagellar antisera. The antibiotic resistance of 135 Salmonella isolates was investigated via the Kirby-Bauer disk-diffusion method, using 12 antibiotics. The biofilm-forming ability of the isolates was assessed using two media; a tryptic soy broth (TSB) and a 1/20 TSB with incubation periods of 24 and 48 hours at 37 °C. Crystal violet staining was used for the quantification of Salmonella isolates based on the difference between optical density measurements of the test and negative control samples (ΔOD590nm). It was found that 17.31% (135/780) of the raw chicken meat tested positive for Salmonella. Serotyping of the total 135 isolates demonstrated that 87 (64.44%) belonged to 12 different serovars; S. Corvallis, S. Brancester

Published

2019

46. A macrophage-based screen identifies antibacterial compounds selective for intracellular Salmonella Typhimurium.

Author

Ellis, Michael J, Ellis, Michael J, Tsai, Caressa N, Johnson, Jarrod W, French, Shawn, Elhenawy, Wael, Porwollik, Steffen, Andrews-Polymenis, Helene, McClelland, Michael, Magolan, Jakob, Coombes, Brian K, Brown, Eric D, Ellis, Michael J, Ellis, Michael J, Tsai, Caressa N, Johnson, Jarrod W, French, Shawn, Elhenawy, Wael, Porwollik, Steffen, Andrews-Polymenis, Helene, McClelland, Michael, Magolan, Jakob, Coombes, Brian K, and Brown, Eric D

Abstract

Salmonella Typhimurium (S. Tm) establishes systemic infection in susceptible hosts by evading the innate immune response and replicating within host phagocytes. Here, we sought to identify inhibitors of intracellular S. Tm replication by conducting parallel chemical screens against S. Tm growing in macrophage-mimicking media and within macrophages. We identify several compounds that inhibit Salmonella growth in the intracellular environment and in acidic, ion-limited media. We report on the antimicrobial activity of the psychoactive drug metergoline, which is specific against intracellular S. Tm. Screening an S. Tm deletion library in the presence of metergoline reveals hypersensitization of outer membrane mutants to metergoline activity. Metergoline disrupts the proton motive force at the bacterial cytoplasmic membrane and extends animal survival during a systemic S. Tm infection. This work highlights the predictive nature of intracellular screens for in vivo efficacy, and identifies metergoline as a novel antimicrobial active against Salmonella.

Published

2019

47. Genomic comparison of diverse Salmonella serovars isolated from swine.

Author

Gupta, Sushim K, Gupta, Sushim K, Sharma, Poonam, McMillan, Elizabeth A, Jackson, Charlene R, Hiott, Lari M, Woodley, Tiffanie, Humayoun, Shaheen B, Barrett, John B, Frye, Jonathan G, McClelland, Michael, Gupta, Sushim K, Gupta, Sushim K, Sharma, Poonam, McMillan, Elizabeth A, Jackson, Charlene R, Hiott, Lari M, Woodley, Tiffanie, Humayoun, Shaheen B, Barrett, John B, Frye, Jonathan G, and McClelland, Michael

Abstract

Food animals act as a reservoir for many foodborne pathogens. Salmonella enterica is one of the leading pathogens that cause food borne illness in a broad host range including animals and humans. They can also be associated with a single host species or a subset of hosts, due to genetic factors associated with colonization and infection. Adult swine are often asymptomatic carriers of a broad range of Salmonella servoars and can act as an important reservoir of infections for humans. In order to understand the genetic variations among different Salmonella serovars, Whole Genome Sequences (WGS) of fourteen Salmonella serovars from swine products were analyzed. More than 75% of the genes were part of the core genome in each isolate and the higher fraction of gene assign to different functional categories in dispensable genes indicated that these genes acquired for better adaptability and diversity. High concordance (97%) was detected between phenotypically confirmed antibiotic resistances and identified antibiotic resistance genes from WGS. The resistance determinants were mainly located on mobile genetic elements (MGE) on plasmids or integrated into the chromosome. Most of known and putative virulence genes were part of the core genome, but a small fraction were detected on MGE. Predicted integrated phage were highly diverse and many harbored virulence, metal resistance, or antibiotic resistance genes. CRISPR (Clustered regularly interspaced short palindromic repeats) patterns revealed the common ancestry or infection history among Salmonella serovars. Overall genomic analysis revealed a great deal of diversity among Salmonella serovars due to acquired genes that enable them to thrive and survive during infection.

Published

2019

48. TLR induces reorganization of the IgM-BCR complex regulating murine B-1 cell responses to infections.

Author

Savage, Hannah P, Savage, Hannah P, Kläsener, Kathrin, Smith, Fauna L, Luo, Zheng, Reth, Michael, Baumgarth, Nicole, Savage, Hannah P, Savage, Hannah P, Kläsener, Kathrin, Smith, Fauna L, Luo, Zheng, Reth, Michael, and Baumgarth, Nicole

Abstract

In mice, neonatally-developing, self-reactive B-1 cells generate steady levels of natural antibodies throughout life. B-1 cells can, however, also rapidly respond to infections with increased local antibody production. The mechanisms regulating these two seemingly very distinct functions are poorly understood, but have been linked to expression of CD5, an inhibitor of BCR-signaling. Here we demonstrate that TLR-mediated activation of CD5+ B-1 cells induced the rapid reorganization of the IgM-BCR complex, leading to the eventual loss of CD5 expression, and a concomitant increase in BCR-downstream signaling, both in vitro and in vivo after infections of mice with influenza virus and Salmonella typhimurium. Both, initial CD5 expression and TLR-mediated stimulation, were required for the differentiation of B-1 cells to IgM-producing plasmablasts after infections. Thus, TLR-mediated signals support participation of B-1 cells in immune defense via BCR-complex reorganization.

Published

2019

49. Infection-generated electric field in gut epithelium drives bidirectional migration of macrophages.

Author

Sun, Yaohui, Sun, Yaohui, Reid, Brian, Ferreira, Fernando, Luxardi, Guillaume, Ma, Li, Lokken, Kristen L, Zhu, Kan, Xu, Gege, Sun, Yuxin, Ryzhuk, Volodymyr, Guo, Betty P, Lebrilla, Carlito B, Maverakis, Emanual, Mogilner, Alex, Zhao, Min, Sun, Yaohui, Sun, Yaohui, Reid, Brian, Ferreira, Fernando, Luxardi, Guillaume, Ma, Li, Lokken, Kristen L, Zhu, Kan, Xu, Gege, Sun, Yuxin, Ryzhuk, Volodymyr, Guo, Betty P, Lebrilla, Carlito B, Maverakis, Emanual, Mogilner, Alex, and Zhao, Min

Abstract

Many bacterial pathogens hijack macrophages to egress from the port of entry to the lymphatic drainage and/or bloodstream, causing dissemination of life-threatening infections. However, the underlying mechanisms are not well understood. Here, we report that Salmonella infection generates directional electric fields (EFs) in the follicle-associated epithelium of mouse cecum. In vitro application of an EF, mimicking the infection-generated electric field (IGEF), induces directional migration of primary mouse macrophages to the anode, which is reversed to the cathode upon Salmonella infection. This infection-dependent directional switch is independent of the Salmonella pathogenicity island 1 (SPI-1) type III secretion system. The switch is accompanied by a reduction of sialic acids on glycosylated surface components during phagocytosis of bacteria, which is absent in macrophages challenged by microspheres. Moreover, enzymatic cleavage of terminally exposed sialic acids reduces macrophage surface negativity and severely impairs directional migration of macrophages in response to an EF. Based on these findings, we propose that macrophages are attracted to the site of infection by a combination of chemotaxis and galvanotaxis; after phagocytosis of bacteria, surface electrical properties of the macrophage change, and galvanotaxis directs the cells away from the site of infection.

Published

2019

50. An unusual case of cardiac tamponade: Bronchogenic cyst infection due to Salmonella bredeney.

Author

UCL - (SLuc) Service de médecine interne générale, UCL - (SLuc) Service de chirurgie cardiovasculaire et thoracique, UCL - (SLuc) Service de radiologie, UCL - (SLuc) Service d'anatomie pathologique, UCL - (SLuc) Service de médecine nucléaire, UCL - SSS/IREC/CARD - Pôle de recherche cardiovasculaire, UCL - SSS/IREC/IMAG - Pôle d'imagerie médicale, UCL - SSS/IREC/MIRO - Pôle d'imagerie moléculaire, radiothérapie et oncologie, UCL - SSS/IREC/SLUC - Pôle St.-Luc, Yildiz, Halil, Reichwein, Ruth, Poncelet, Alain, Lacroix, Valerie, D'Abadie, Philippe, Ghaye, Benoît, Hoton, Delphine, Yombi, Jean Cyr, UCL - (SLuc) Service de médecine interne générale, UCL - (SLuc) Service de chirurgie cardiovasculaire et thoracique, UCL - (SLuc) Service de radiologie, UCL - (SLuc) Service d'anatomie pathologique, UCL - (SLuc) Service de médecine nucléaire, UCL - SSS/IREC/CARD - Pôle de recherche cardiovasculaire, UCL - SSS/IREC/IMAG - Pôle d'imagerie médicale, UCL - SSS/IREC/MIRO - Pôle d'imagerie moléculaire, radiothérapie et oncologie, UCL - SSS/IREC/SLUC - Pôle St.-Luc, Yildiz, Halil, Reichwein, Ruth, Poncelet, Alain, Lacroix, Valerie, D'Abadie, Philippe, Ghaye, Benoît, Hoton, Delphine, and Yombi, Jean Cyr

Abstract

We present an unusual case of cardiac tamponade in a 17-year-old girl immunocompetent patient due to Salmonella enterica ssp. bredeney following infection of a bronchogenic cyst. The patient was admitted to hospital with pleuritic chest pain, dyspnoea and fever. Pulmonary angio-CT showed a bronchogenic cyst compressing the left atrium. The echocardiography showed diffuse pericardial effusion with right ventricular collapse consistent with cardiac tamponade. Pericardiocentesis was performed and microbiological cultures of the pericardial fluid became positive for Salmonella species confirmed later as bredeney subspecies by PCR. Empirical antibiotherapy was started with intravenous (IV) ceftriaxone. Bronchogenic cyst infection was suspected and confirmed by FDG PET CT. The patient was successfully treated by complete resection of the cyst and continuation of IV ceftriaxone followed by oral amoxicillin/clavulanate for a total duration of 6 weeks. She then completely recovered and didn't present any relapse after 6 months of follow up.

Published

2019