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9. Heterotypic protection of mice against chlamydial salphingitis and colonization of the lower genital tract with a human serovar F isolate of Chlamydia trachomatis by prior immunization with recombinant serovar L1 major outer-membrane protein

Author

Tuffrey, Maureen, Alexander, Frances, Conlan, Wayne, Woods, Clare, and Ward, Michael

Subjects
Salpingitis -- Physiological aspects, Chlamydia trachomatis, Immunization -- Research, Biological sciences
Abstract

The effect of immunization with recombinant major outer-membrane protein (rMOMP) against chlamydial infections in mice following challenge with heterotypic Chlamydia trachomatis was investigated. It appeared that rMOMP elicited protective immunity against colonization or the development of severe disease. Parenteral immunization reduced the duration of colonization and the severity of salpingitis, but did not prevent the infertility caused by genital tract chlamydial infection. On the other hand, mucosal immunization via the Peyer's patches reduced colonization but not oviduct damage, and also did not prevent infertility.

Published
1992

10. MOESM1 of Zika virus crosses an in vitro human blood brain barrier model

Author

Alimonti, Judie, Ribecco-Lutkiewicz, Maria, Sodja, Caroline, Jezierski, Anna, Stanimirovic, Danica, Liu, Qing, Arsalan Haqqani, Conlan, Wayne, and Bani-Yaghoub, Mahmud

Subjects
InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, ComputingMilieux_COMPUTERSANDEDUCATION, Data_FILES, ComputerApplications_COMPUTERSINOTHERSYSTEMS
Abstract

Additional file 1. Supplementary information.

Published
2018
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11. ENVELOPED VIRUS-LIKE PARTICLES (eVLPs) EXPRESSING MODIFIED FORMS OF ZIKA VIRUS PROTEINS E AND NS1 PROTECT MICE FROM ZIKA VIRUS INFECTION

Author

Fluckiger, Anne-Catherine, primary, Bozic, Jasminka, additional, Diress, Abebaw, additional, Ontsouka, Barthelemy, additional, Ahmed, Tanvir, additional, Ponce, Amalia, additional, Kirchmeier, Marc, additional, Diaz-Mitoma, Francisco, additional, Conlan, Wayne, additional, Anderson, David E., additional, and Soare, Catalina, additional

Published
2019
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12. Antimicrobial peptide LL-37 and its truncated forms, GI-20 and GF-17, exert spermicidal effects and microbicidal activity against Neisseria gonorrhoeae

Author

Kiattiburut, Wongsakorn, primary, Zhi, Ruina, additional, Lee, Seung Gee, additional, Foo, Alexander C, additional, Hickling, Duane R, additional, Keillor, Jeffrey W, additional, Goto, Natalie K, additional, Li, Weihua, additional, Conlan, Wayne, additional, Angel, Jonathan B, additional, Wang, Guangshun, additional, and Tanphaichitr, Nongnuj, additional

Published
2018
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15. Intrasasal vaccination against acinetobacter baumannii-associated pneumonia in mice

Author

Kuo Lee, Rhonda, Harris, Gregg, Yan, Hongbin, Xu, H. Howard, Conlan, Wayne J., Patel, Girishchandra B., and Chen, Wangxue

Subjects
Acinetobacter baumannii, B cells, Neutrophils, bacteria, Pneumonia, biochemical phenomena, metabolism, and nutrition, Mucosal immunization
Abstract

Multidrug-resistant Acinetobacter baumannii has become an important causative agent of healthcare associated infections. Hospital- and community-acquired pneumonia is the most common clinical manifestation of A. baumannii infection worldwide and is often associated with high mortality. Most experimental vaccine studies to date have evaluated vaccines against systemic A. baumannii infections following systemic immunization. We recently demonstrated that a mouse model of respiratory A. baumannii infection using the strain LAC-4 results in disease progression that is similar to that observed in humans. Here we used this model in conjunction with an inactivated whole cell vaccine to evaluate the feasibility of developing protective mucosal vaccines against respiratory A. baumannii infection and to investigate the potential mechanism of protection of such vaccines. Our results showed that intranasal immunization with formalin-killed whole cells of the LAC-4 strain elicited mucosal and systemic antigen-specific immune responses, and protected mice against lethal intranasal or intraperitoneal challenges. Compared to naïve mice, immunized mice had significantly fewer bacteria in their lungs, and the pathogen was barely detectable in blood and spleens at 24 h post challenge, indicating the ability of immunized mice to control extrapulmonary dissemination of the pathogen. Mechanistic studies using gene-deficient mice, neutropenic mice, or passive immunization showed that B cells and neutrophils, but not FcRγ, played crucial roles in the protection against respiratory A. baumannii challenge of intranasally immunized mice whereas passive transfer of hyperimmune sera only prolonged the survival time of challenged mice by 48 h. These results provide immunological insights for the rational design of novel mucosal vaccines to protect against respiratory A. baumannii infection and demonstrate the feasibility to develop such vaccines.

Published
2015

16. Francisella tularensis IglG Belongs to a Novel Family of PAAR-Like T6SS Proteins and Harbors a Unique N-terminal Extension Required for Virulence

Author

Rigard, Melanie, Bröms, Jeanette E., Mosnier, Amandine, Hologne, Maggy, Martin, Amandine, Lindgren, Lena, Punginelli, Claire, Lays, Claire, Walker, Olivier, Charbit, Alain, Telouk, Philippe, Conlan, Wayne, Terradot, Laurent, Sjöstedt, Anders, Henry, Thomas, Rigard, Melanie, Bröms, Jeanette E., Mosnier, Amandine, Hologne, Maggy, Martin, Amandine, Lindgren, Lena, Punginelli, Claire, Lays, Claire, Walker, Olivier, Charbit, Alain, Telouk, Philippe, Conlan, Wayne, Terradot, Laurent, Sjöstedt, Anders, and Henry, Thomas

Abstract

The virulence of Francisella tularensis, the etiological agent of tularemia, relies on an atypical type VI secretion system ( T6SS) encoded by a genomic island termed the Francisella Pathogenicity Island ( FPI). While the importance of the FPI in F. tularensis virulence is clearly established, the precise role of most of the FPI-encoded proteins remains to be deciphered. In this study, using highly virulent F. tularensis strains and the closely related species F. novicida, IglG was characterized as a protein featuring a unique alpha-helical N-terminal extension and a domain of unknown function ( DUF4280), present in more than 250 bacterial species. Three dimensional modeling of IglG and of the DUF4280 consensus protein sequence indicates that these proteins adopt a PAAR-like fold, suggesting they could cap the T6SS in a similar way as the recently described PAAR proteins. The newly identified PAAR-like motif is characterized by four conserved cysteine residues, also present in IglG, which may bind a metal atom. We demonstrate that IglG binds metal ions and that each individual cysteine is required for T6SS-dependent secretion of IglG and of the Hcp homologue, IglC and for the F. novicida intracellular life cycle. In contrast, the Francisella-specific N-terminal alpha-helical extension is not required for IglG secretion, but is critical for F. novicida virulence and for the interaction of IglG with another FPI-encoded protein, IglF. Altogether, our data suggest that IglG is a PAAR-like protein acting as a bi-modal protein that may connect the tip of the Francisella T6SS with a putative T6SS effector, IglF.

Published
2016
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17. An In Vitro Co-culture Mouse Model Demonstrates Efficient Vaccine-Mediated Control of Francisella tularensis SCHU S4 and Identifies Nitric Oxide as a Predictor of Efficacy

Author

Golovliov, Igor, Lindgren, Helena, Eneslätt, Kjell, Conlan, Wayne, Mosnier, Amandine, Henry, Thomas, Sjöstedt, Anders, Golovliov, Igor, Lindgren, Helena, Eneslätt, Kjell, Conlan, Wayne, Mosnier, Amandine, Henry, Thomas, and Sjöstedt, Anders

Abstract

Francisella tularensis is a highly virulent intracellular bacterium and cell-mediated immunity is critical for protection, but mechanisms of protection against highly virulent variants, such as the prototypic strain F. tularensis strain SCHU S4, are poorly understood. To this end, we established a co-culture system, based on splenocytes from naive, or immunized mice and in vitro infected bone marrow-derived macrophages that allowed assessment of mechanisms controlling infection with F. tularensis. We utilized the system to understand why the clpB gene deletion mutant, Delta clpB, of SCHU S4 shows superior efficacy as a vaccine in the mouse model as compared to the existing human vaccine, the live vaccine strain (LVS). Compared to naive splenocytes, Delta clpB-, or LVS-immune splenocytes conferred very significant control of a SCHU S4 infection and the Delta clpB-immune splenocytes were superior to the LVS-immune splenocytes. Cultures with the Delta clpB-immune splenocytes also contained higher levels of IFN-gamma, IL-17, and GM-CSF and nitric oxide, and T cells expressing combinations of IFN-gamma, TNF-alpha, and IL-17, than did cultures with LVS-immune splenocytes. There was strong inverse correlation between bacterial replication and levels of nitrite, an end product of nitric oxide, and essentially no control was observed when BMDM from iNOS(-/-) mice were infected. Collectively, the co-culture model identified a critical role of nitric oxide for protection against a highly virulent strain of F. tularensis.

Published
2016
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18. Francisella tularensis IglG Belongs to a Novel Family of PAAR-Like T6SS Proteins and Harbors a Unique N-terminal Extension Required for Virulence

Author

Rigard, Mélanie, primary, Bröms, Jeanette E., additional, Mosnier, Amandine, additional, Hologne, Maggy, additional, Martin, Amandine, additional, Lindgren, Lena, additional, Punginelli, Claire, additional, Lays, Claire, additional, Walker, Olivier, additional, Charbit, Alain, additional, Telouk, Philippe, additional, Conlan, Wayne, additional, Terradot, Laurent, additional, Sjöstedt, Anders, additional, and Henry, Thomas, additional

Published
2016
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19. Roles of Reactive Oxygen Species-Degrading Enzymes of Francisella tularensis SCHU S4

Author

Binesse, Johan, Lindgren, Helena, Lindgren, Lena, Conlan, Wayne, Sjöstedt, Anders, Binesse, Johan, Lindgren, Helena, Lindgren, Lena, Conlan, Wayne, and Sjöstedt, Anders

Abstract

Francisella tularensis is a facultative intracellular bacterium utilizing macrophages as its primary intracellular habitat and is therefore highly capable of resisting the effects of reactive oxygen species (ROS), potent mediators of the bactericidal activity of macrophages. We investigated the roles of enzymes presumed to be important for protection against ROS. Four mutants of the highly virulent SCHU S4 strain with deletions of the genes encoding catalase (katG), glutathione peroxidase (gpx), a DyP-type peroxidase (FTT0086), or double deletion of FTT0086 and katG showed much increased susceptibility to hydrogen peroxide (H2O2) and slightly increased susceptibility to paraquat but not to peroxynitrite (ONOO-) and displayed intact intramacrophage replication. Nevertheless, mice infected with the double deletion mutant showed significantly longer survival than SCHU S4-infected mice. Unlike the aforementioned mutants, deletion of the gene coding for alkyl-hydroperoxide reductase subunit C (ahpC) generated a mutant much more susceptible to paraquat and ONOO- but not to H2O2. It showed intact replication in J774 cells but impaired replication in bone marrow-derived macrophages and in internal organs of mice. The live vaccine strain, LVS, is more susceptible than virulent strains to ROS-mediated killing and possesses a truncated form of FTT0086. Expression of the SCHU S4 FTT0086 gene rendered LVS more resistant to H2O2, which demonstrates that the SCHU S4 strain possesses additional detoxifying mechanisms. Collectively, the results demonstrate that SCHU S4 ROS-detoxifying enzymes have overlapping functions, and therefore, deletion of one or the other does not critically impair the intracellular replication or virulence, although AhpC appears to have a unique function.

Published
2015
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21. Identification of Mechanisms for Attenuation of the FSC043 Mutant of Francisella tularensis SCHU S4

Author

Lindgren, Marie, Tancred, Linda, Golovliov, Igor, Conlan, Wayne, Twine, Susan M., Sjöstedt, Anders, Lindgren, Marie, Tancred, Linda, Golovliov, Igor, Conlan, Wayne, Twine, Susan M., and Sjöstedt, Anders

Abstract

Previously, we identified a spontaneous, essentially avirulent mutant, FSC043, of the highly virulent strain SCHU S4 of Francisella tularensis subsp. tularensis. We have now characterized the phenotype of the mutant and the mechanisms of its attenuation in more detail. Genetic and proteomic analyses revealed that the pdpE gene and most of the pdpC gene were very markedly downregulated and, as previously demonstrated, that the strain expressed partially deleted and fused fupA and fupB genes. FSC043 showed minimal intracellular replication and induced no cell cytotoxicity. The mutant showed delayed phagosomal escape; at 18 h, colocalization with LAMP-1 was 80%, indicating phagosomal localization, whereas the corresponding percentages for SCHU S4 and the Delta fupA mutant were < 10%. However, a small subset of the FSC043-infected cells contained up to 100 bacteria with LAMP-1 colocalization of around 30%. The unusual intracellular phenotype was similar to that of the Delta pdpC and Delta pdpC Delta pdpE mutants. Complementation of FSC043 with the intact fupA and fupB genes did not affect the phenotype, whereas complementation with the pdpC and pdpE genes restored intracellular replication and led to marked virulence. Even higher virulence was observed after complementation with both double-gene constructs. After immunization with the FSC043 strain, moderate protection against respiratory challenge with the SCHU S4 strain was observed. In summary, FSC043 showed a highly unusual intracellular phenotype, and based on our findings, we hypothesize that the mutation in the pdpC gene makes an essential contribution to the phenotype.

Published
2014
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23. A Delta clpB Mutant of Francisella tularensis Subspecies holarctica Strain, FSC200, Is a More Effective Live Vaccine than F. tularensis LVS in a Mouse Respiratory Challenge Model of Tularemia

Author

Golovlev, Igor, Twine, Susan M., Shen, Hua, Sjöstedt, Anders, Conlan, Wayne, Golovlev, Igor, Twine, Susan M., Shen, Hua, Sjöstedt, Anders, and Conlan, Wayne

Abstract

Francisella tularensis subsp. tularensis is a highly virulent pathogen for humans especially if inhaled. Consequently, it is considered to be a potential biothreat agent. An experimental vaccine, F. tularensis live vaccine strain, derived from the less virulent subsp. holarctica, was developed more than 50 years ago, but remains unlicensed. Previously, we developed a novel live vaccine strain, by deleting the chaperonin clpB gene from F. tularensis subsp. tularensis strain, SCHU S4. SCHU S4 Delta clpB was less virulent for mice than LVS and a more effective vaccine against respiratory challenge with wild type SCHU S4. In the current study, we were interested to determine whether a similar mutant on the less virulent subsp. holarctica background would also outperform LVS in terms of safety and efficacy. To this end, clpB was deleted from clinical holarctica strain, FSC200. FSC200 Delta clpB had a significantly higher intranasal LD50 than LVS for BALB/c mice, but replicated to higher numbers at foci of infection after dermal inoculation. Moreover, FSC200 Delta clpB killed SCID mice more rapidly than LVS. However, dermal vaccination of BALB/c mice with the former versus the latter induced greater protection against respiratory challenge with SCHU S4. This increased efficacy was associated with enhanced production of pulmonary IL-17 after SCHU S4 challenge.

Published
2013
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24. Correlates of protection following vaccination of mice with gene deletion mutants of Francisella tularensis subspecies tularensis strain, SCHU S4 that elicit varying degrees of immunity to systemic and respiratory challenge with wild-type bacteria

Author

Rydén, Patrik, Twine, Susan, Shen, Hua, Harris, Gregory, Chen, Wangxue, Sjöstedt, Anders, Conlan, Wayne, Rydén, Patrik, Twine, Susan, Shen, Hua, Harris, Gregory, Chen, Wangxue, Sjöstedt, Anders, and Conlan, Wayne

Abstract

Francisella tularensis subspecies tularensis is an extremely virulent facultative intracellular bacterial pathogen capable of causing significant mortality in humans when inhaled. Consequently, subspecies tularensis was developed as a biological weapon more than 50 years ago. To counter this threat the US Army empirically developed a live vaccine strain, F. tularensis LVS, from the less virulent holarctica subspecies. In human experiments LVS afforded substantial protection against transdermal challenge with clinical subspecies tularensis strain, SCHU S4, but lesser protection against infection initiated by inhalation of the pathogen. Several regulatory and clinical issues remain unresolved for this vaccine, including the absence of a robust correlate of protection. To try to address this, we have developed several defined gene deletion mutants of SCHU S4 that elicit varying degrees of protection in a mouse dermal or respiratory challenge model. In the present study, we have examined whether host immune responses to immunization with such live vaccine candidates can serve as correlates of protection. Antibody responses were unable to distinguish between effective and ineffective vaccine strains. However, several cytokine responses to vaccination showed some promise. Especially, serum levels of TNFα, IFNγ, and MCP-1 between days 4 and 7 after vaccination appear to correlate with protection against respiratory challenge.

Published
2013
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26. BALB/c mice, but not C57BL/6 mice immunized with a Delta clpB mutant of Francisella tularensis subspecies tularensis are protected against respiratory challenge with wild-type bacteria : Association of protection with post-vaccination and post-challenge immune responses

Author

Twine, Susan, Shen, Hua, Harris, Gregory, Chen, Wangxue, Sjöstedt, Anders, Ryden, Patrik, Conlan, Wayne, Twine, Susan, Shen, Hua, Harris, Gregory, Chen, Wangxue, Sjöstedt, Anders, Ryden, Patrik, and Conlan, Wayne

Abstract

Francisella tularensis subspecies tularensis is highly virulent for humans especially when it is inhaled. Therefore, it has the potential to be used as a biothreat agent. Vaccines against F. tularensis will need to be approved in accordance with the FDA Animal Rule. This will require identification of robust correlates of protection in experimental animals and the demonstration that similar immune responses are generated in vaccinated humans. Towards this goal, we have developed an experimental live vaccine strain by deleting the gene, clpB, encoding a heat shock protein from virulent subsp. tularensis strain, SCHU S4. SCHU S4 Delta clpB administered intradermally protects BALB/c, but not C57BL/6 mice from subsequent respiratory challenge with wildtype SCHU S4. A comparison of post-vaccination and post-challenge immune responses in these two mouse strains shows an association between several antibody and cytokine responses and protection. In particular, elevated IFN gamma levels in the skin 2 days after vaccination, sero-conversion to hypothetical membrane protein ETT_778c, and to 30S ribosomal protein Si (FTT_0183c) of F. tularensis after 30 days of vaccination, and elevated levels of pulmonary IL-17 on day 7 after respiratory challenge with SCHU S4 were all associated with protection. (C) 2012 Wayne Conlan. Published by Elsevier Ltd. All rights reserved.

Published
2012
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27. Objections to the transfer of Francisella novicida to the subspecies rank of Francisella tularensis

Author

Johansson, Anders, Celli, Jean, Conlan, Wayne, Elkins, Karen L, Forsman, Mats, Keim, Paul S, Larsson, Pär, Manoil, Colin, Nano, Francis E, Petersen, Jeannine M, Sjöstedt, Anders, Johansson, Anders, Celli, Jean, Conlan, Wayne, Elkins, Karen L, Forsman, Mats, Keim, Paul S, Larsson, Pär, Manoil, Colin, Nano, Francis E, Petersen, Jeannine M, and Sjöstedt, Anders

Published
2010
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28. Molecular immune responses to aerosol challenge with Francisella tularensis in mice inoculated with live vaccine candidates of varying efficacy

Author

Shen, Hua, Harris, Gregory, Chen, Wangxue, Sjöstedt, Anders, Ryden, Patrik, Conlan, Wayne, Shen, Hua, Harris, Gregory, Chen, Wangxue, Sjöstedt, Anders, Ryden, Patrik, and Conlan, Wayne

Abstract

This is the first report characterizing local and systemic cytokine and chemokine responses in mice immunized with vaccines with different efficacies against aerosol challenge with virulent F. tularensis subsp. tularensis. It shows that increases in the levels of most of these immunomodulators, including those known to be critical for protective immunity, do not superficially correlate with protection unless adjusted for the effects of bacterial burden. Additionally, several cytokines were selectively suppressed in the lungs of naïve mice, suggesting that one mechanism of vaccine action is to overcome this pathogen-induced immunosuppression.

Published
2010
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29. Identification of genes contributing to the virulence of Francisella tularensis SCHU S4 in a mouse intradermal infection model

Author

Kadzhaev, Konstantin, Zingmark, Carl, Golovliov, Igor, Bolanowski, Mark, Shen, Hua, Conlan, Wayne, Sjöstedt, Anders, Kadzhaev, Konstantin, Zingmark, Carl, Golovliov, Igor, Bolanowski, Mark, Shen, Hua, Conlan, Wayne, and Sjöstedt, Anders

Abstract

BACKGROUND: Francisella tularensis is a highly virulent human pathogen. The most virulent strains belong to subspecies tularensis and these strains cause a sometimes fatal disease. Despite an intense recent research effort, there is very limited information available that explains the unique features of subspecies tularensis strains that distinguish them from other F. tularensis strains and that explain their high virulence. Here we report the use of targeted mutagenesis to investigate the roles of various genes or pathways for the virulence of strain SCHU S4, the type strain of subspecies tularensis. METHODOLOGY/PRINCIPAL FINDINGS: The virulence of SCHU S4 mutants was assessed by following the outcome of infection after intradermal administration of graded doses of bacteria. By this route, the LD(50) of the SCHU S4 strain is one CFU. The virulence of 20 in-frame deletion mutants and 37 transposon mutants was assessed. A majority of the mutants did not show increased prolonged time to death, among them notably Delta pyrB and Delta recA. Of the remaining, mutations in six unique targets, tolC, rep, FTT0609, FTT1149c, ahpC, and hfq resulted in significantly prolonged time to death and mutations in nine targets, rplA, wbtI, iglB, iglD, purL, purF, ggt, kdtA, and glpX, led to marked attenuation with an LD(50) of > 10(3) CFU. In fact, the latter seven mutants showed very marked attenuation with an LD(50) of > or = 10(7) CFU. CONCLUSIONS/SIGNIFICANCE: The results demonstrate that the characterization of targeted mutants yielded important information about essential virulence determinants that will help to identify the so far little understood extreme virulence of F. tularensis subspecies tularensis.

Published
2009
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30. The 58-kilodalton major virulence factor of Francisella tularensis is required for efficient utilization of iron

Author

Lindgren, Helena, Honn, Marie, Golovlev, Igor, Kadzhaev, Konstantin, Conlan, Wayne, Sjöstedt, Anders, Lindgren, Helena, Honn, Marie, Golovlev, Igor, Kadzhaev, Konstantin, Conlan, Wayne, and Sjöstedt, Anders

Abstract

We investigated the role of the 58-kDa FTT0918 protein in the iron metabolism of Francisella tularensis. The phenotypes of SCHU S4, a prototypic strain of F. tularensis subsp. tularensis, and the Delta FTT0918 and Delta fslA isogenic mutants were analyzed. The gene product missing in the Delta fslA mutant is responsible for synthesis of a siderophore. When grown in broth with various iron concentrations, the two deletion mutants generally reached lower maximal densities than SCHU S4. The Delta FTT0918 mutant, but not the Delta fslA mutant, upregulated the genes of the F. tularensis siderophore locus (fsl) operon even at high iron concentrations. A chrome azurol sulfonate plate assay confirmed siderophore production by all strains except the Delta fslA strain. In a cross-feeding experiment using medium devoid of free iron, SCHU S4 promoted growth of the Delta fslA strain but not of the Delta FTT0918 strain. The sensitivity of SCHU S4 and the Delta FTT0918 and Delta fslA strains to streptonigrin demonstrated that the Delta FTT0918 strain contained a smaller free intracellular iron pool and that the Delta fslA strain contained a larger one than SCHU S4. In contrast to the marked attenuation of the Delta FTT0918 strain, the Delta fslA strain was as virulent as SCHU S4 in a mouse model. Altogether, the data demonstrate that the FTT0918 protein is required for F. tularensis to utilize iron bound to siderophores and that it likely has a role also in siderophore-independent iron acquisition. We suggest that the FTT0918 protein be designated Fe utilization protein A, FupA.

Published
2009
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32. Resistance of Francisella tularensis strains against reactive nitrogen and oxygen species with special reference to the role of KatG.

Author

Lindgren, Helena, Shen, Hua, Zingmark, Carl, Golovliov, Igor, Conlan, Wayne, Sjöstedt, Anders, Lindgren, Helena, Shen, Hua, Zingmark, Carl, Golovliov, Igor, Conlan, Wayne, and Sjöstedt, Anders

Abstract

Francisella tularensis is a facultative intracellular bacterial pathogen capable of proliferating within host macrophages. The mechanisms that explain the differences in virulence between various strains of the species are not well characterized. In the present study, we show that both attenuated (strain LVS) and virulent (strains FSC200 and SCHU S4) strains of the pathogen replicate at similar rates in resting murine peritoneal exudate cells (PEC). However, when PEC were activated by exposure to gamma interferon (IFN-gamma), they killed LVS more rapidly than virulent strains of the pathogen. Addition of N(G)-monomethyl-l-arginine, an inhibitor of inducible nitric oxide synthase, to IFN-gamma-treated PEC, completely inhibited killing of the virulent strains, whereas it only partially blocked the killing of LVS. Similarly, in a cell-free system, SCHU S4 and FSC200 were more resistant to killing by H(2)O(2) and ONOO(-) than F. tularensis LVS. Catalase encoded by katG is a bacterial factor that can detoxify bactericidal compounds such as H(2)O(2) and ONOO(-). To investigate its contribution to the virulence of F. tularensis, katG deletion-containing mutants of SCHU S4 and LVS were generated. Both mutants demonstrated enhanced susceptibility to H(2)O(2) in vitro but replicated as effectively as the parental strains in unstimulated PEC. In mice, LVS-DeltakatG was significantly attenuated compared to LVS whereas SCHU S4-DeltakatG, despite slower replication, killed mice as quickly as SCHU S4. This implies that clinical strains of the pathogen have katG-independent mechanisms to combat the antimicrobial effects exerted by H(2)O(2) and ONOO(-), the loss of which could have contributed to the attenuation of LVS.

Published
2007
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34. In vivo proteomic analysis of the intracellular bacterial pathogen, Francisella tularensis, isolated from mouse spleen.

Author

Twine, Susan M, Mykytczuk, Nadia C S, Petit, Mireille D, Shen, Hua, Sjöstedt, Anders, Conlan, Wayne, Kelly, John F, Twine, Susan M, Mykytczuk, Nadia C S, Petit, Mireille D, Shen, Hua, Sjöstedt, Anders, Conlan, Wayne, and Kelly, John F

Abstract

Understanding the pathogenesis of infectious diseases requires comprehensive knowledge of the proteins expressed by the pathogen during in vivo growth in the host. Proteomics provides the tools for such analyses but the protocols required to purify sufficient quantities of the pathogen from the host organism are currently lacking. Here, we present a rapid immunomagnetic protocol for the separation of Francisella tularensis, a highly virulent bacterium and potential biowarfare agent, from the spleens of infected mice. In less than one hour, bacteria can be isolated in quantities sufficient to carry out meaningful proteomic comparisons with in vitro grown bacteria. Furthermore, the isolates are virtually free from contaminating host proteins. Two-dimensional gel analysis revealed a host induced proteome in which 78 proteins were differentially expressed in comparison to in vitro grown controls. The results obtained clearly demonstrate the complexity of the adaptive response of F. tularensis to the host environment, and the difficulty of mimicking such behavior in vitro.

Published
2006
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35. BALB/c mice, but not C57BL/6 mice immunized with a ΔclpB mutant of Francisella tularensis subspecies tularensis are protected against respiratory challenge with wild-type bacteria: Association of protection with post-vaccination and post-challenge immune responses

Author

Twine, Susan, primary, Shen, Hua, additional, Harris, Gregory, additional, Chen, Wangxue, additional, Sjostedt, Anders, additional, Ryden, Patrik, additional, and Conlan, Wayne, additional

Published
2012
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42. A Mutant of Francisella tularensis Strain SCHU S4 Lacking the Ability To Express a 58-Kilodalton Protein Is Attenuated for Virulence and Is an Effective Live Vaccine

Author

Twine, Susan, primary, Byström, Mona, additional, Chen, Wangxue, additional, Forsman, Mats, additional, Golovliov, Igor, additional, Johansson, Anders, additional, Kelly, John, additional, Lindgren, Helena, additional, Svensson, Kerstin, additional, Zingmark, Carl, additional, Conlan, Wayne, additional, and Sjöstedt, Anders, additional

Published
2005
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43. A ΔclpB Mutant of Francisella tularensis Subspecies holarctica Strain, FSC200, Is a More Effective Live Vaccine than F. tularensis LVS in a Mouse Respiratory Challenge Model of Tularemia.

Author

Golovliov, Igor, Twine, Susan M., Shen, Hua, Sjostedt, Anders, and Conlan, Wayne

Subjects
GENETIC mutation, TULAREMIA, VIRULENCE of bacteria, BACTERIAL vaccines, MOLECULAR chaperones, INTERLEUKIN-17, FRANCISELLA tularensis
Abstract

Francisella tularensis subsp. tularensis is a highly virulent pathogen for humans especially if inhaled. Consequently, it is considered to be a potential biothreat agent. An experimental vaccine, F. tularensis live vaccine strain, derived from the less virulent subsp. holarctica, was developed more than 50 years ago, but remains unlicensed. Previously, we developed a novel live vaccine strain, by deleting the chaperonin clpB gene from F. tularensis subsp. tularensis strain, SCHU S4. SCHU S4ΔclpB was less virulent for mice than LVS and a more effective vaccine against respiratory challenge with wild type SCHU S4. In the current study, we were interested to determine whether a similar mutant on the less virulent subsp. holarctica background would also outperform LVS in terms of safety and efficacy. To this end, clpB was deleted from clinical holarctica strain, FSC200. FSC200ΔclpB had a significantly higher intranasal LD50 than LVS for BALB/c mice, but replicated to higher numbers at foci of infection after dermal inoculation. Moreover, FSC200ΔclpB killed SCID mice more rapidly than LVS. However, dermal vaccination of BALB/c mice with the former versus the latter induced greater protection against respiratory challenge with SCHU S4. This increased efficacy was associated with enhanced production of pulmonary IL-17 after SCHU S4 challenge. [ABSTRACT FROM AUTHOR]

Published
2013
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44. Molecular Immune Responses to Aerosol Challenge with Francisella tularensis in Mice Inoculated with Live Vaccine Candidates of Varying Efficacy.

Author

Hua Shen, Harris, Gregory, Wangxue Chen, Sjostedt, Anders, Ryden, Patrik, and Conlan, Wayne

Subjects
FRANCISELLA tularensis, TULAREMIA, IMMUNOREGULATION, CYTOKINES, MICE genetics, IMMUNOTHERAPY, IMMUNOSUPPRESSION, PATHOGENIC microorganisms, DIAGNOSTIC microbiology, IMMUNOLOGICAL adjuvants, VACCINATION
Abstract

Background: Francisella tularensis is a facultative intracellular bacterial pathogen and the etiological agent of tularemia. The subspecies F. tularensis tularensis is especially virulent for humans when inhaled and respiratory tularemia is associated with high mortality if not promptly treated. A live vaccine strain (LVS) derived from the less virulent holarctica subspecies confers incomplete protection against aerosol challenge with subsp. tularensis. Moreover, correlates of protection have not been established for LVS. Methodology/Principal Findings: In the present study we compare molecular immune responses elicited by LVS and two defined deletion mutants of clinical subsp. tularensis strain, SCHU S4, that confer enhanced protection in a mouse model. BALB/c mice were immunized intradermally then challenged with an aerosol of SCHU S4 six weeks later. Changes in the levels of a selected panel of cytokines and chemokines were examined in the lungs, spleens, and sera of vaccinated and challenged mice. Mostly, increased cytokine and chemokine levels correlated with increased bacterial burden. However, after adjusting for this variable, immunization with either of the two Schu S4 mutants resulted in higher levels of several pulmonary cytokines, versus those resulting after LVS immunization, including IL-17. Moreover, treatment of mice immunized with ΔclpB with anti-IL-17 antibodies post-challenge enhanced lung infection. Conclusions/Significance: This is the first report characterizing local and systemic cytokine and chemokine responses in mice immunized with vaccines with different efficacies against aerosol challenge with virulent F. tularensis subsp. tularensis. It shows that increases in the levels of most of these immunomodulators, including those known to be critical for protective immunity, do not superficially correlate with protection unless adjusted for the effects of bacterial burden. Additionally, several cytokines were selectively suppressed in the lungs of naïve mice, suggesting that one mechanism of vaccine action is to overcome this pathogen-induced immunosuppression. [ABSTRACT FROM AUTHOR]

Published
2010
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45. The 58-Kilodalton Major Virulence Factor of Francisella tularensisIs Required for Efficient Utilization of Iron

Author

Lindgren, Helena, Honn, Marie, Golovlev, Igor, Kadzhaev, Konstantin, Conlan, Wayne, and Sjöstedt, Anders

Abstract

ABSTRACTWe investigated the role of the 58-kDa FTT0918 protein in the iron metabolism of Francisella tularensis. The phenotypes of SCHU S4, a prototypic strain of F. tularensissubsp. tularensis, and the ΔFTT0918 and ΔfslAisogenic mutants were analyzed. The gene product missing in the ΔfslAmutant is responsible for synthesis of a siderophore. When grown in broth with various iron concentrations, the two deletion mutants generally reached lower maximal densities than SCHU S4. The ΔFTT0918 mutant, but not the ΔfslAmutant, upregulated the genes of the F. tularensissiderophore locus (fsl) operon even at high iron concentrations. A chrome azurol sulfonate plate assay confirmed siderophore production by all strains except the ΔfslAstrain. In a cross-feeding experiment using medium devoid of free iron, SCHU S4 promoted growth of the ΔfslAstrain but not of the ΔFTT0918 strain. The sensitivity of SCHU S4 and the ΔFTT0918 and ΔfslAstrains to streptonigrin demonstrated that the ΔFTT0918 strain contained a smaller free intracellular iron pool and that the ΔfslAstrain contained a larger one than SCHU S4. In contrast to the marked attenuation of the ΔFTT0918 strain, the ΔfslAstrain was as virulent as SCHU S4 in a mouse model. Altogether, the data demonstrate that the FTT0918 protein is required for F. tularensisto utilize iron bound to siderophores and that it likely has a role also in siderophore-independent iron acquisition. We suggest that the FTT0918 protein be designated Fe utilization protein A, FupA.

Published
2009
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46. Resistance of Francisella tularensisStrains against Reactive Nitrogen and Oxygen Species with Special Reference to the Role of KatG

Author

Lindgren, Helena, Shen, Hua, Zingmark, Carl, Golovliov, Igor, Conlan, Wayne, and Sjöstedt, Anders

Abstract

ABSTRACTFrancisella tularensisis a facultative intracellular bacterial pathogen capable of proliferating within host macrophages. The mechanisms that explain the differences in virulence between various strains of the species are not well characterized. In the present study, we show that both attenuated (strain LVS) and virulent (strains FSC200 and SCHU S4) strains of the pathogen replicate at similar rates in resting murine peritoneal exudate cells (PEC). However, when PEC were activated by exposure to gamma interferon (IFN-γ), they killed LVS more rapidly than virulent strains of the pathogen. Addition of NG-monomethyl-l-arginine, an inhibitor of inducible nitric oxide synthase, to IFN-γ-treated PEC, completely inhibited killing of the virulent strains, whereas it only partially blocked the killing of LVS. Similarly, in a cell-free system, SCHU S4 and FSC200 were more resistant to killing by H2O2and ONOO−than F. tularensisLVS. Catalase encoded by katGis a bacterial factor that can detoxify bactericidal compounds such as H2O2and ONOO−. To investigate its contribution to the virulence of F. tularensis, katGdeletion-containing mutants of SCHU S4 and LVS were generated. Both mutants demonstrated enhanced susceptibility to H2O2in vitro but replicated as effectively as the parental strains in unstimulated PEC. In mice, LVS-ΔkatGwas significantly attenuated compared to LVS whereas SCHU S4-ΔkatG, despite slower replication, killed mice as quickly as SCHU S4. This implies that clinical strains of the pathogen have katG-independent mechanisms to combat the antimicrobial effects exerted by H2O2and ONOO−, the loss of which could have contributed to the attenuation of LVS.

Published
2007
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47. A Mutant of Francisella tularensisStrain SCHU S4 Lacking the Ability To Express a 58-Kilodalton Protein Is Attenuated for Virulence and Is an Effective Live Vaccine

Author

Twine, Susan, Byström, Mona, Chen, Wangxue, Forsman, Mats, Golovliov, Igor, Johansson, Anders, Kelly, John, Lindgren, Helena, Svensson, Kerstin, Zingmark, Carl, Conlan, Wayne, and Sjöstedt, Anders

Abstract

ABSTRACTFrancisella tularensissubsp. tularensis(type A) strain SCHU S4 is a prototypic strain of the pathogen that is highly virulent for humans and other mammals. Its intradermal (i.d.) 50% lethal dose (LD50) for mice is <10 CFU. We discovered a spontaneous mutant, designated FSC043, of SCHU S4 with an i.d. LD50of >108CFU. FSC043 effectively vaccinated mice against challenge with a highly virulent type A strain, and the protective efficacy was at least as good as that of F. tularensisLVS, an empirically attenuated strain which has been used as an efficacious human vaccine. Comparative proteomics was used to identify two proteins of unknown function that were identified as defective in LVS and FSC043, and deletion mutants of SCHU S4 were created for each of the two encoding genes. One mutant, the ΔFTT0918 strain, failed to express a 58-kDa protein, had an i.d. LD50of ∼105CFU, and was found to be less capable than SCHU S4 of growing in peritoneal mouse macrophages. Mice that recovered from sublethal infection with the ΔFTT0918 mutant survived when challenged 2 months later with >100 LD50s of the highly virulent type A strain FSC033. This is the first report of the generation of defined mutants of F. tularensissubsp. tularensisand their use as live vaccines.

Published
2005
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