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3. Siderophore-mediated zinc acquisition enhances enterobacterial colonization of the inflamed gut

Author

Behnsen, Judith, Zhi, Hui, Aron, Allegra T, Subramanian, Vivekanandan, Santus, William, Lee, Michael H, Gerner, Romana R, Petras, Daniel, Liu, Janet Z, Green, Keith D, Price, Sarah L, Camacho, Jose, Hillman, Hannah, Tjokrosurjo, Joshua, Montaldo, Nicola P, Hoover, Evelyn M, Treacy-Abarca, Sean, Gilston, Benjamin A, Skaar, Eric P, Chazin, Walter J, Garneau-Tsodikova, Sylvie, Lawrenz, Matthew B, Perry, Robert D, Nuccio, Sean-Paul, Dorrestein, Pieter C, and Raffatellu, Manuela

Subjects
Microbiology, Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Microbiome, Complementary and Integrative Health, Digestive Diseases, Nutrition, Infectious Diseases, Emerging Infectious Diseases, Biodefense, Infection, ATP-Binding Cassette Transporters, Animals, Bacterial Proteins, Carrier Proteins, Colon, Enterobacteriaceae, Escherichia coli, Escherichia coli Proteins, Female, Leukocyte L1 Antigen Complex, Membrane Transport Proteins, Mice, Mice, Inbred C57BL, Phenols, Salmonella typhi, Siderophores, Thiazoles, Zinc
Abstract

Zinc is an essential cofactor for bacterial metabolism, and many Enterobacteriaceae express the zinc transporters ZnuABC and ZupT to acquire this metal in the host. However, the probiotic bacterium Escherichia coli Nissle 1917 (or "Nissle") exhibits appreciable growth in zinc-limited media even when these transporters are deleted. Here, we show that Nissle utilizes the siderophore yersiniabactin as a zincophore, enabling Nissle to grow in zinc-limited media, to tolerate calprotectin-mediated zinc sequestration, and to thrive in the inflamed gut. We also show that yersiniabactin's affinity for iron or zinc changes in a pH-dependent manner, with increased relative zinc binding as the pH increases. Thus, our results indicate that siderophore metal affinity can be influenced by the local environment and reveal a mechanism of zinc acquisition available to commensal and pathogenic Enterobacteriaceae.

Published
2021

5. Approaches for the Inactivation of Yersinia pestis.

Author

Brady, Amanda, Tomaszewski, Maggie, Garrison, Taylor M., and Lawrenz, Matthew B.

Abstract

Introduction:Yersinia pestis is the gram-negative, facultative intracellular bacterium that causes the disease known as plague. Due to the risk for aerosol transmission, a low infectious dose, and the acute and lethal nature of pneumonic plague, research activities with Y. pestis require Biosafety Level 3 (BSL-3) facilities to provide the appropriate safeguards to minimize accidental exposures and environmental release. However, many experimental assays cannot be performed in BSL-3 due to equipment availability, and thus require removal of samples from the BSL-3 laboratory to be completed. Objectives: To remove samples from BSL-3 containment and safely handle them at lower containment requires effective inactivation of any viable organisms from the samples prior to removal. While commonly used inactivation methods have been published for various select agents, there is an absence in the literature of a single source providing detailed examples for inactivation methods for Y. pestis. Our objective here is to provide examples of dose-dependent kill curves for commonly used inactivation approaches against Y. pestis. Methods: Time- and dose-dependent kill curves using heat, methanol, and formaldehyde inactivation methods, and common nucleic acid extraction procedures. Results/Conclusions: We show data demonstrating the complete inactivation of Y. pestis using these methods. While not all-inclusive, this study provides data and examples that can be used by other researchers to develop their own in-house validated inactivation protocols for Y. pestis. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Distinct mechanisms of type 3 secretion system recognition control LTB4 synthesis in neutrophils and macrophages.

Author

Brady, Amanda, Mora Martinez, Leonardo C., Hammond, Benjamin, Whitefoot-Keliin, Kaitlyn M., Haribabu, Bodduluri, Uriarte, Silvia M., and Lawrenz, Matthew B.

Subjects
YERSINIA pestis, SECRETION, MITOGEN-activated protein kinases, CASCADE control, IMMUNE recognition, PHAGOCYTOSIS
Abstract

Leukotriene B4 (LTB4) is an inflammatory lipid produced in response to pathogens that is critical for initiating the inflammatory cascade needed to control infection. However, during plague, Yersinia pestis inhibits the timely synthesis of LTB4 and subsequent inflammation. Using bacterial mutants, we previously determined that Y. pestis inhibits LTB4 synthesis via the action of the Yop effector proteins that are directly secreted into host cells through a type 3 secretion system (T3SS). Here, we show that the T3SS is the primary pathogen associated molecular pattern (PAMP) required for production of LTB4 in response to both Yersinia and Salmonella. However, we also unexpectantly discovered that T3SS-mediated LTB4 synthesis by neutrophils and macrophages require the activation of two distinctly different host signaling pathways. We identified that phagocytosis and the NLRP3/CASP1 inflammasome significantly impact LTB4 synthesis by macrophages but not neutrophils. Instead, the SKAP2/PLC signaling pathway is required for T3SS-mediated LTB4 production by neutrophils. Finally, while recognition of the T3SS is required for LTB4 production, we also discovered that a second unrelated PAMP-mediated signal activates the MAP kinase pathway needed for synthesis. Together, these data demonstrate significant differences in the host factors and signaling pathways required by macrophages and neutrophils to quickly produce LTB4 in response to bacteria. Moreover, while macrophages and neutrophils might rely on different signaling pathways for T3SS-dependent LTB4 synthesis, Y. pestis has evolved virulence mechanisms to counteract this response by either leukocyte to inhibit LTB4 synthesis and colonize the host. Author summary: The production of inflammatory lipid mediators by the host is essential for timely inflammation in response to invasion by bacterial pathogens. Therefore, defining how immune cells recognize pathogens and rapidly produce these lipids is essential for us to understand how our immune system effectively controls infection. In this study, we discovered that the host signaling pathways required for leukotriene B4 (LTB4) synthesis differ between neutrophils and macrophages, highlighting important differences in how immune cells respond to infection. Together, these data represent a significant improvement in our understanding of how neutrophils and macrophages rapidly react to bacteria and provide new insights into how Yersinia pestis manipulates leukocytes to evade immune recognition to cause disease. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Type 3 secretion system induced leukotriene B4 synthesis by leukocytes is actively inhibited by Yersinia pestis to evade early immune recognition

Author

Brady, Amanda, primary, Sheneman, Katelyn R., additional, Pulsifer, Amanda R., additional, Price, Sarah L., additional, Garrison, Taylor M., additional, Maddipati, Krishna Rao, additional, Bodduluri, Sobha R., additional, Pan, Jianmin, additional, Boyd, Nolan L., additional, Zheng, Jing-Juan, additional, Rai, Shesh N., additional, Hellmann, Jason, additional, Haribabu, Bodduluri, additional, Uriarte, Silvia M., additional, and Lawrenz, Matthew B., additional

Published
2024
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12. Inhibition of type III secretion system induced leukotriene B4production byYersinia pestis: A mechanism for early immune evasion

Author

Brady, Amanda, primary, Pulsifer, Amanda R., additional, Price, Sarah L., additional, Sheneman, Katelyn R., additional, Maddipati, Krishna Rao, additional, Bodduluri, Sobha R., additional, Pan, Jianmin, additional, Rai, Shesh N., additional, Haribabu, Bodduluri, additional, Uriarte, Silvia M., additional, and Lawrenz, Matthew B., additional

Published
2023
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14. Validated Preclinical Mouse Model for Therapeutic Testing against Multidrug-Resistant Pseudomonas aeruginosa Strains

Author

Warawa, Jonathan M., primary, Duan, Xiaoxian, additional, Anderson, Charles D., additional, Sotsky, Julie B., additional, Cramer, Daniel E., additional, Pfeffer, Tia L., additional, Guo, Haixun, additional, Adcock, Scott, additional, Lepak, Alexander J., additional, Andes, David R., additional, Slone, Stacey A., additional, Stromberg, Arnold J., additional, Gabbard, Jon D., additional, Severson, William E., additional, and Lawrenz, Matthew B., additional

Published
2022
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15. Validated Preclinical Murine Model for Therapeutic Testing against Multidrug Resistant Pseudomonas aeruginosa

Author

Warawa, Jonathan M., primary, Duan, Xiaoxian, additional, Anderson, Charles D., additional, Sotsky, Julie B., additional, Cramer, Daniel E., additional, Pfeffer, Tia L., additional, Guo, Haixun, additional, Adcock, Robert S., additional, Lepak, Alexander J., additional, Andes, David R., additional, Slone, Stacey A., additional, Stromberg, Arnold J., additional, Gabbard, Jon D., additional, Severson, William E., additional, and Lawrenz, Matthew B., additional

Published
2022
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19. The Yersinia pestis autotransporter YapC mediates host cell binding, autoaggregation and biofilm formation

Author

Felek, Suleyman, Lawrenz, Matthew B., and Krukonis, Eric S.

Subjects
Yersinia pestis -- Physiological aspects, Bacterial proteins -- Properties, Biological sciences
Abstract

YapC, a putative Yersinia pestis autotransporter protein, shows strong homology to the enterotoxigenic Escherichia coil adhesin TibA. As a potentially important surface protein of Y. pestis, we analysed YapC for several activities. When expressed in the non-pathogenic [Fim.sup.-] E. coil strain AAEC185, YapC mediated attachment to both murine-derived macrophage-like cells (RAW264.7) and human-derived epithelial-like cells (HEp-2). In addition, expression of YapC on the surface of E. coil led to autoaggregation in DMEM tissue culture medium, a phenomenon associated with virulence in Yersinia species. YapC also mediated formation of biofilm-like deposits by E. coil AAEC185. Deletion of yapC in Y. pestis strain KIM5 resulted in no change in adhesion to either RAW264.7 or HEp-2 cells, or in biofilm formation. Lack of a phenotype for the Y. pestis AyapC mutant may reflect the relatively low level of yapC expression in vitro, as assessed by RT-PCR, and/or redundant functions expressed in vitro. These data demonstrate several activities for YapC that may function during Y. pestis infection.

Published
2008

20. Comparative analysis of the regulation of rovA from the pathogenic yersiniae

Author

Lawrenz, Matthew B. and Miller, Virginia L.

Subjects
Genetic regulation -- Comparative analysis, Genetic transcription -- Research, Bacteria, Pathogenic -- Genetic aspects, Bacteria, Pathogenic -- Research, Biological sciences
Abstract

RovA is a MarR/SlyA-type regulator that mediates the transcription of inv in Yersinia enterocolitica and Y. pseudotuberculosis. In Y. pseudotuberculosis, rovA transcription is controlled primarily by H-NS and RovA, which bind to similar regions within the rovA promoter. At 37[degrees]C, rovA transcription is repressed by H-NS. Transcription of rovA results when RovA relieves H-NS-mediated repression. The region of the rovA promoter that H-NS and RovA bind is not conserved in the Y. enterocolitica promoter. Using green fluorescent protein reporters, we determined that the Y. enterocolitica rovA ([rovA.sub.Yent]) promoter is weaker than the Y. pseudotuberculosis promoter. However, despite the missing H-NS/RovA binding site in the [rovA.sub.Yent] promoter, H-NS and RovA are still involved in the regulation of [rovA.sub.Yent] DNA binding studies suggest that H-NS and RovA bind with a higher affinity to the Y. pseudotuberculosis/Y. pestis rovA ([rovA.sub.Ypstb/Ypestis]) promoter than to the [rovA.sub.Yent] promoter. Furthermore, H-NS appears to bind to two regions in a cooperative fashion within the [rovA.sub.Yent] promoter that is not observed with the [rovA.sub.Ypstb/Ypestis] promoter. Finally, using a transposon mutagenesis approach, we identified a new positive regulator of rovA in Y. enterocolitica, LeuO. In Escherichia coli, LeuO regulates gene expression via changes in levels of RpoS and H-NS, but LeuO-mediated regulation of [rovA.sub.Yent] appears to be independent of either of these two proteins. Together, these data demonstrate that while the rovA regulatory factors are conserved in Yersinia, divergence of Y. enterocolitica and Y. pseudotuberculosis/Y. pestis during evolution has resulted in modifications in the mechanisms that are responsible for controlling rovA transcription.

Published
2007

23. FDA Public Workshop Summary: Advancing Animal Models for Antibacterial Drug Development

Author

Byrne, James M., primary, Waack, Ursula, additional, Weinstein, Edward A., additional, Joshi, Abhay, additional, Shurland, Simone M., additional, Iarikov, Dmitri, additional, Bulitta, Jürgen B., additional, Diep, Binh An, additional, Guina, Tina, additional, Hope, William W., additional, Lawrenz, Matthew B., additional, Lepak, Alexander J., additional, Luna, Brian M., additional, Miesel, Lynn, additional, Phipps, Andrew J., additional, Walsh, Thomas J., additional, Weiss, William, additional, Amini, Thushi, additional, and Farley, John J., additional

Published
2020
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24. Siderophore-mediated zinc acquisition enhances enterobacterial colonization of the inflamed gut

Author

Zhi, Hui, primary, Behnsen, Judith, additional, Aron, Allegra, additional, Subramanian, Vivekanandan, additional, Liu, Janet Z., additional, Gerner, Romana R., additional, Petras, Daniel, additional, Green, Keith D., additional, Price, Sarah L., additional, Camacho, Jose, additional, Hillman, Hannah, additional, Tjokrosurjo, Joshua, additional, Montaldo, Nicola P., additional, Hoover, Evelyn, additional, Treacy-Abarca, Sean, additional, Gilston, Benjamin A., additional, Skaar, Eric P., additional, Chazin, Walter J., additional, Garneau-Tsodikova, Sylvie, additional, Lawrenz, Matthew B., additional, Perry, Robert D., additional, Nuccio, Sean-Paul, additional, Dorrestein, Pieter C., additional, and Raffatellu, Manuela, additional

Published
2020
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28. Discovering Yersinia–Host Interactions by Tissue Dual RNA-Seq

Author

Kusmierek, Maria, Heroven, Ann Kathrin, Beckstette, Michael, Nuss, Aaron M., Dersch, Petra, Vadyvaloo, Viveka, and Lawrenz, Matthew B.

Subjects
0303 health sciences, biology, 030306 microbiology, Host–pathogen interaction, RNA, RNA-Seq, Computational biology, Yersinia, biology.organism_classification, Transcriptome, 03 medical and health sciences, Yersinia pseudotuberculosis, Gene, Pathogen, 030304 developmental biology
Abstract

A detailed knowledge about virulence-relevant genes, as well as where and when they are expressed during the course of an infection is required to obtain a comprehensive understanding of the complex host-pathogen interactions. The development of unbiased probe-independent RNA sequencing (RNA-seq) approaches has dramatically changed transcriptomics. It allows simultaneous monitoring of genome-wide, infection-linked transcriptional alterations of the host tissue and colonizing pathogens. Here, we provide a detailed protocol for the preparation and analysis of lymphatic tissue infected with the mainly extracellularly growing pathogen Yersinia pseudotuberculosis. This method can be used as a powerful tool for the discovery of Yersinia-induced host responses, colonization and persistence strategies of the pathogen, and underlying regulatory processes. Furthermore, we describe computational methods with which we analyzed obtained datasets.

Published
2019
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29. Redundant and Cooperative Roles for Yersinia pestis Yop Effectors in the Inhibition of Human Neutrophil Exocytic Responses Revealed by Gain-of-Function Approach

Author

Pulsifer, Amanda R., primary, Vashishta, Aruna, additional, Reeves, Shane A., additional, Wolfe, Jennifer K., additional, Palace, Samantha G., additional, Proulx, Megan K., additional, Goguen, Jon, additional, Bodduluri, Sobha R., additional, Haribabu, Bodduluri, additional, Uriarte, Silvia M., additional, and Lawrenz, Matthew B., additional

Published
2020
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31. The Evolution of SlyA/RovA Transcription Factors from Repressors to Countersilencers in Enterobacteriaceae

Author

Will, W. Ryan, primary, Brzovic, Peter, additional, Le Trong, Isolde, additional, Stenkamp, Ronald E., additional, Lawrenz, Matthew B., additional, Karlinsey, Joyce E., additional, Navarre, William W., additional, Main-Hester, Kara, additional, Miller, Virginia L., additional, Libby, Stephen J., additional, and Fang, Ferric C., additional

Published
2019
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33. The Evolution of SlyA/RovA Transcription Factors From Repressors to Counter-Silencers inEnterobacteriaceae

Author

Will, W. Ryan, primary, Brzovic, Peter, additional, Trong, Isolde Le, additional, Stenkamp, Ronald E., additional, Lawrenz, Matthew B., additional, Karlinsey, Joyce E., additional, Navarre, William W., additional, Main-Hester, Kara, additional, Miller, Virginia L., additional, Libby, Stephen J., additional, and Fang, Ferric C., additional

Published
2018
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39. Zinc transporters YbtX and ZnuABC are required for the virulence of Yersinia pestis in bubonic and pneumonic plague in mice

Author

Bobrov, Alexander G., primary, Kirillina, Olga, additional, Fosso, Marina Y., additional, Fetherston, Jacqueline D., additional, Miller, M. Clarke, additional, VanCleave, Tiva T., additional, Burlison, Joseph A., additional, Arnold, William K., additional, Lawrenz, Matthew B., additional, Garneau-Tsodikova, Sylvie, additional, and Perry, Robert D., additional

Published
2017
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42. Inflammasome-Independent Leukotriene B4 Production Drives Crystalline Silica-Induced Sterile Inflammation.

Author

Dong-Hoon Chung, Lawrenz, Matthew B., Hegde, Bindu, Bodduluri, Sobha R., Satpathy, Shuchismita R., Alghsham, Ruqaih S., Jala, Venkatakrishna R., Haribabu, Bodduluri, and Uriarte, Silvia M.

Subjects
*LEUKOTRIENES, *SILICOSIS, *PHAGOSOMES, *PHAGOCYTOSIS, *INFLAMMASOMES
Abstract

Silicosis is a lung inflammatory disease caused by chronic exposure to crystalline silica (CS). Leukotriene B4 (LTB4) plays an important role in neutrophilic inflammation, which drives silicosis and promotes lung cancer. In this study, we examined the mechanisms involved in CS-induced inflammatory pathways. Phagocytosis of CS particles is essential for the production of LTB4 and IL-1β in mouse macrophages, mast cells, and neutrophils. Phagosomes enclosing CS particles trigger the assembly of lipidosome in the cytoplasm, which is likely the primary source of CS-induced LTB4 production. Activation of the JNK pathway is essential for both CS-induced LTB4 and IL-1β production. Studies with bafilomycin-A1- and NLRP3-deficient mice revealed that LTB4 synthesis in the lipidosome is independent of inflammasome activation. Small interfering RNA knockdown and confocal microscopy studies showed that GTPases Rab5c, Rab40c along with JNK1 are essential for lipidosome formation and LTB4 production. BI-78D3, a JNK inhibitor, abrogated CS-induced neutrophilic inflammation in vivo in an air pouch model. These results highlight an inflammasome-independent and JNK activation-dependent lipidosome pathway as a regulator of LTB4 synthesis and CS-induced sterile inflammation. [ABSTRACT FROM AUTHOR]

Published
2018
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44. Crystal structure of Yersinia pestis virulence factor YfeA reveals two polyspecific metal-binding sites.

Author

Radka, Christopher D., DeLucas, Lawrence J., Wilson, Landon S., Lawrenz, Matthew B., Perry, Robert D., and Aller, Stephen G.

Subjects
GRAM-negative bacteria, CRYSTAL structure, MEMBRANE transport proteins
Abstract

Gram-negative bacteria use siderophores, outer membrane receptors, inner membrane transporters and substrate-binding proteins (SBPs) to transport transition metals through the periplasm. The SBPs share a similar protein fold that has undergone significant structural evolution to communicate with a variety of differentially regulated transporters in the cell. In Yersinia pestis, the causative agent of plague, YfeA (YPO2439, y1897), an SBP, is important for full virulence during mammalian infection. To better understand the role of YfeA in infection, crystal structures were determined under several environmental conditions with respect to transition-metal levels. Energy-dispersive X-ray spectroscopy and anomalous X-ray scattering data show that YfeA is polyspecific and can alter its substrate specificity. In minimal-media experiments, YfeA crystals grown after iron supplementation showed a threefold increase in iron fluorescence emission over the iron fluorescence emission from YfeA crystals grown from nutrient-rich conditions, and YfeA crystals grown after manganese supplementation during overexpression showed a fivefold increase in manganese fluorescence emission over the manganese fluorescence emission from YfeA crystals grown from nutrient-rich conditions. In all experiments, the YfeA crystals produced the strongest fluorescence emission from zinc and could not be manipulated otherwise. Additionally, this report documents the discovery of a novel surface metal-binding site that prefers to chelate zinc but can also bind manganese. Flexibility across YfeA crystal forms in three loops and a helix near the buried metal-binding site suggest that a structural rearrangement is required for metal loading and unloading. [ABSTRACT FROM AUTHOR]

Published
2017
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45. Zinc transporters YbtX and ZnuABC are required for the virulence of Yersinia pestis in bubonic and pneumonic plague in mice.

Author

BobrovCurrent address: Department of Veterinary Microbiology Paul G. Allen School of Global Animal Health Washington State University Pullman WA USA., Alexander G., Kirillina, Olga, Fosso, Marina Y., Fetherston, Jacqueline D., Miller, M. Clarke, VanCleave, Tiva T., Burlison, Joseph A., Arnold, William K., Lawrenz, Matthew B., Garneau-Tsodikova, Sylvie, and Perry, Robert D.

Published
2017
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