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7. Francisella

Author

Johansson, Anna-Lena, primary, Noppa, Laila, additional, Salomonsson, Emelie Näslund, additional, and Forsberg, Åke, additional

Published
2015
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8. List of Contributors

Author

Abel-Santos, Ernesto, primary, Abraham, Soman N., additional, Aizawa, Shin-Ichi, additional, Aldape, Michael J., additional, Alexander, David C., additional, Allison, David G., additional, Amyes, Sebastian G.B., additional, Anderson, Burt E., additional, Anderson, Frank J., additional, Antelmann, Haike, additional, Austin, Frank W., additional, Ayllón, Nieves, additional, Bai, Fang, additional, Barbosa, Angela Silva, additional, Barer, Michael R., additional, Basarab, Gregory S., additional, Beaman, Blaine L., additional, Beard, Matthew, additional, Black, Carolyn M., additional, Blakely, Garry W., additional, Boiron, Patrick, additional, Bouabe, Hicham, additional, Bozue, Joel A., additional, Brinkman, Cassandra L., additional, Brubaker, Robert R., additional, Bryant, Amy E., additional, Cain, Robert J., additional, Calvo, Ana Cristina, additional, Carvalho, Eneas, additional, Capo, Christian, additional, Castillo-Ramirez, Santiago, additional, Chaddock, John A., additional, Chamberland, Robin R., additional, Clarridge, Jill E., additional, Cote, Christopher K., additional, Cox, Sarah L., additional, Cutler, Sally J., additional, Davidson, Donald J., additional, Day, Nicholas P.J., additional, de la Fuente, José, additional, De Jesus, Magdia, additional, Dorin, Julia R., additional, Dorman, Charles J., additional, Eakin, Ann E., additional, Egland, Paul G., additional, Ellis, Simon, additional, Enright, Mark C., additional, Evans, Benjamin A., additional, Everett, Jake A., additional, Falkinham, Joseph O., additional, Fan, Feinan, additional, Fan, Huizhou, additional, Faulds-Pain, Alexandra, additional, Feil, Edward J., additional, Figueroa, Cesar J., additional, Forsberg, Åke, additional, Foster, Timothy J., additional, Fox-Moon, Sandra M., additional, Fraga, Tatiana Rodrigues, additional, Fredricks, David N., additional, Freitag, Nancy E., additional, García-López, María-Luisa, additional, Garzetti, Debora, additional, Gemmell, Curtis G., additional, Geoghegan, Joan A., additional, Gillis, Thomas P., additional, Gilmore, Michael S., additional, Goldstone, Robert J., additional, Gray-Owen, Scott D., additional, Guiso, Nicole, additional, Hallstrom, Kelly N., additional, Harper, David R., additional, Harrington, Amanda T., additional, Harris, Jason B., additional, Hays, John P., additional, He, Yongqun, additional, Heffron, Jared D., additional, Heimer, Susan R., additional, High, Nicola J., additional, Hobot, Jan A., additional, Hultgren, Scott, additional, Humphreys, Tricia L., additional, Hunstad, David A., additional, Igietseme, Joseph U., additional, Inglis, Neil F., additional, Inglis, Tim J.J., additional, Isaac, Lourdes, additional, Janowicz, Diane M., additional, Jin, Shouguang, additional, Jin, Yongxin, additional, Johansson, Anna-Lena, additional, Johnston, Randal N., additional, Jones, Jessica L., additional, Justice, Sheryl S., additional, Kaakoush, Nadeem O., additional, Kalas, Vasilios, additional, Khare, Reeti, additional, Jordan, I. King, additional, Kobayashi, Keiko, additional, Kocan, Katherine M., additional, Könönen, Eija, additional, Kumar, Purnima S., additional, Lambert, Peter A., additional, Lamont, Richard J., additional, Lan, Ruiting, additional, Lang, Sue, additional, Lereclus, Didier, additional, Levett, Paul N., additional, Li, Xuefeng, additional, Liu, Dongyou, additional, Liu, Shu-Lin, additional, Ma, Lin, additional, Mahlen, Steven D., additional, Man, Si Ming, additional, Margolis, Elisa, additional, Marrie, Thomas J., additional, Martin, Melissa J., additional, Mayer, Leonard W., additional, McConville, Malcolm, additional, McCormick, Beth A., additional, McDowell, Andrew, additional, McHugh, Brian J., additional, McMullen, P. David, additional, McSheffrey, Gordon G., additional, Mege, Jean-Louis, additional, Merritt, Adam J., additional, Minnick, Michael F., additional, Mitchell, Hazel M., additional, Morrison, Donald, additional, Musser, Kimberlee A., additional, Nagahama, Masahiro, additional, Nagao, Prescilla Emy, additional, Nagy, István, additional, Salomonsson, Emelie Näslund, additional, Nazarian, Elizabeth J., additional, Nichols, Wright W., additional, Noppa, Laila, additional, Octavia, Sophie, additional, Oda, Masataka, additional, Ofek, Itzhak, additional, Oliver, James D., additional, Olson, Patrick D., additional, Omosun, Yusuf, additional, Ong, Edmund, additional, Osta, Rosario, additional, Otero, Andrés, additional, Oyston, Petra C.F., additional, Paris, Daniel H., additional, Patel, Robin, additional, Patrick, Sheila, additional, Pedra, Joao H.F., additional, Posteraro, Brunella, additional, Posteraro, Patrizia, additional, Poxton, Ian R., additional, Pujic, Petar, additional, Raffa, Brittany J., additional, Rakin, Alexander, additional, Ramarao, Nalini, additional, Ramirez, Mario, additional, Ravalison, Miora, additional, Reed, Kurt D., additional, Reglinski, Mark, additional, Richards, Allen L., additional, Riesbeck, Kristian, additional, Riley, Thomas V., additional, Rodríguez-Calleja, José-María, additional, Rodríguez-Nava, Verónica, additional, Rumbaugh, Kendra P., additional, Sanderson, Kenneth E., additional, Sanguinetti, Maurizio, additional, Santos, Jesús A., additional, Santos, Renato L., additional, Schaar, Viveka, additional, Scheld, W. Michael, additional, Schmitz, Jonathan E., additional, Schwartzman, Joseph D., additional, Severo, Maiara S., additional, Sharon, Nathan, additional, Shirtliff, Mark E., additional, Simner, Patricia J., additional, Šmajs, David, additional, Smith, David G.E., additional, Sorokin, Alexei, additional, Sprague, Lisa D., additional, Sriskandan, Shiranee, additional, Stevens, Dennis L., additional, Stratton, Charles W., additional, Strouhal, Michal, additional, Su, Yu Ching, additional, Sussman, Max, additional, Talbot, Elizabeth A., additional, Tang, Le, additional, Tang, Yi-Wei, additional, Taur, Ying, additional, Tessier, Jeffrey M., additional, Textoris, Julien, additional, Thirumalapura, Nagaraja R., additional, Tsuge, Hideaki, additional, Turenne, Christine Y., additional, Valvano, Miguel A., additional, Vázquez-Boland, José A., additional, Verhaegh, Suzanne J.C., additional, Volkan, Ender, additional, Vollmer, Waldemar, additional, Wade, William F., additional, Waites, Ken B., additional, Walker, Alan W., additional, Walker, David H., additional, Wang, Guiqing, additional, Wang, Qinning, additional, Wang, Xin, additional, Ward, Bruce, additional, Watson, Eleanor, additional, Weil, Ana A., additional, Welkos, Susan L., additional, Wen, Zhensong, additional, Wengenack, Nancy L., additional, Westblade, Lars F., additional, Wexler, Hannah M., additional, Wren, Brendan W., additional, Wu, Min, additional, Wu, Shangwei, additional, Wu, Weihui, additional, Xiao, Li, additional, Zhang, Jing-Ren, additional, Zhao, Zuotao, additional, and Zhong, Guangming, additional

Published
2015
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9. Functional analyses of pilin-like proteins from Francisella tularensis: complementation of type IV pilus phenotypes in Neisseria gonorrhoeae

Author

Salomonsson, Emelie, Forsberg, Ake, Roos, Norbert, Holz, Claudia, Maier, Berenike, Koomey, Michael, and Winther-Larsen, Hanne C.

Subjects
Francisella tularensis -- Physiological aspects, Francisella tularensis -- Genetic aspects, Francisella tularensis -- Research, Neisseria gonorrhoeae -- Physiological aspects, Neisseria gonorrhoeae -- Genetic aspects, Neisseria gonorrhoeae -- Research, Secretion -- Research, Virulence (Microbiology) -- Research, Biological sciences
Abstract

Accumulating evidence from a number of studies strongly suggests that proteins orthologous to those involved in type IV pill (Tfp) assembly and function are required for Francisella pathogenicity. However, the molecular mechanisms by which the components exert their influence on virulence remain poorly understood. Owing to the conservation and promiscuity of Tfp biogenesis machineries, expression of Tfp pilins in heterologous species has been used successfully to analyse organelle structure-function relationships. In this study we expressed a number of Francisella pilin genes in the Tfp-expressing pathogen Neisseria gonorrhoeae lacking its endogenous pilin subunit. Two gene products, the orthologous PilA proteins from Francisella tularensis subspecies tularensis and novicida, were capable of restoring the expression of Tfp-like appendages that were shown to be dependent upon the neisserial Tfp biogenesis machinery for surface localization. Expression of Francisella PilA pilins also partially restored competence for natural transformation in N. gonorrhoeae. This phenotype was not complemented by expression of the PulG and XcpT proteins, which are equivalent components of the related type II protein secretion system. Taken together, these findings provide compelling, although indirect, evidence of the potential for Francisella PilA proteins to express functional Tfp.

Published
2009

10. Long-Term Survival of Virulent Tularemia Pathogens outside a Host in Conditions That Mimic Natural Aquatic Environments

Author

Golovliov, Igor, Bäckman, Stina, Granberg, Malin, Salomonsson, Emelie, Lundmark, Eva, Näslund, Jonas, Busch, Joseph D., Birdsell, Dawn, Sahl, Jason W., Wagner, David M., Johansson, Anders, Forsman, Mats, Thelaus, Johanna, Golovliov, Igor, Bäckman, Stina, Granberg, Malin, Salomonsson, Emelie, Lundmark, Eva, Näslund, Jonas, Busch, Joseph D., Birdsell, Dawn, Sahl, Jason W., Wagner, David M., Johansson, Anders, Forsman, Mats, and Thelaus, Johanna

Abstract

Francisella tularensis, the causative agent of the zoonotic disease tularemia, can cause seasonal outbreaks of acute febrile illness in humans with disease peaks in late summer to autumn. Interestingly, its mechanisms for environmental persistence between outbreaks are poorly understood. One hypothesis is that F. tularensis forms biofilms in aquatic environments. We utilized two fully virulent wild-type strains: FSC200 (Francisella tularensis subsp. holarctica) and Schu S4 (Francisella tularensis subsp. tularensis) and three control strains, the attenuated live vaccine strain (LVS; F. tularensis subsp. holarctica), a Schu S4 DwbtI mutant that is documented to form biofilms, and the low-virulence strain U112 of the closely related species Francisella novicida. Strains were incubated in saline solution (0.9% NaCl) microcosms for 24 weeks at both 4°C and 20°C, whereupon viability and biofilm formation were measured. These temperatures were selected to approximate winter and summer temperatures of fresh water in Scandinavia, respectively. U112 and Schu S4 DwbtI formed biofilms, but F. tularensis strains FSC200 and Schu S4 and the LVS did not. All strains exhibited prolonged viability at 4°C compared to 20°C. U112 and FSC200 displayed remarkable long-term persistence at 4°C, with only 1- and 2-fold log reductions, respectively, of viable cells after 24weeks. Schu S4 exhibited lower survival, yielding no viable cells by week 20. At 24weeks, cells from FSC200, but not from Schu S4, were still fully virulent in mice. Taken together, these results demonstrate biofilm-independent, long-term survival of pathogenic F. tularensis subsp. holarctica in conditions that mimic overwinter survival in aquatic environments.

Published
2021
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11. Long-Term Survival of Virulent Tularemia Pathogens outside a Host in Conditions That Mimic Natural Aquatic Environments

Author

Golovliov, Igor, primary, Bäckman, Stina, additional, Granberg, Malin, additional, Salomonsson, Emelie, additional, Lundmark, Eva, additional, Näslund, Jonas, additional, Busch, Joseph D., additional, Birdsell, Dawn, additional, Sahl, Jason W., additional, Wagner, David M., additional, Johansson, Anders, additional, Forsman, Mats, additional, and Thelaus, Johanna, additional

Published
2021
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12. Complete Genome Sequence of Francisella tularensis subsp. holarctica Strain A271_1 (FDC408), Isolated from a Eurasian Beaver (Castor fiber)

Author

Sundell, David, primary, Uneklint, Ingrid, additional, Öhrman, Caroline, additional, Salomonsson, Emelie, additional, Karlsson, Linda, additional, Bäckman, Stina, additional, Näslund, Jonas, additional, Sjödin, Andreas, additional, Forsman, Mats, additional, Appelt, Sandra, additional, Drechsel, Oliver, additional, Jacob, Daniela, additional, Heuner, Klaus, additional, and Myrtennäs, Kerstin, additional

Published
2020
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15. The type IV pilin, PilA, is required for full virulence of Francisella tularensis subspecies tularensis

Author

Forslund Anna-Lena, Salomonsson Emelie, Golovliov Igor, Kuoppa Kerstin, Michell Stephen, Titball Richard, Oyston Petra, Noppa Laila, Sjöstedt Anders, and Forsberg Åke

Subjects
Microbiology, QR1-502
Abstract

Abstract Background All four Francisella tularensis subspecies possess gene clusters with potential to express type IV pili (Tfp). These clusters include putative pilin genes, as well as pilB, pilC and pilQ, required for secretion and assembly of Tfp. A hallmark of Tfp is the ability to retract the pilus upon surface contact, a property mediated by the ATPase PilT. Interestingly, out of the two major human pathogenic subspecies only the highly virulent type A strains have a functional pilT gene. Results In a previous study, we were able to show that one pilin gene, pilA, was essential for virulence of a type B strain in a mouse infection model. In this work we have examined the role of several Tfp genes in the virulence of the pathogenic type A strain SCHU S4. pilA, pilC, pilQ, and pilT were mutated by in-frame deletion mutagenesis. Interestingly, when mice were infected with a mixture of each mutant strain and the wild-type strain, the pilA, pilC and pilQ mutants were out-competed, while the pilT mutant was equally competitive as the wild-type. Conclusions This suggests that expression and surface localisation of PilA contribute to virulence in the highly virulent type A strain, while PilT was dispensable for virulence in the mouse infection model.

Published
2010
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17. Iron content differs between Francisella tularensis subspecies tularensis and subspecies holarctica strains and correlates to their susceptibility to H(2)O(2)-induced killing

Author

Lindgren, Helena, Honn, Marie, Salomonsson, Emelie, Kuoppa, Kerstin, Forsberg, Åke, and Sjöstedt, Anders

Subjects
Phenotype, Virulence, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Iron, Mikrobiologi inom det medicinska området, Hydrogen Peroxide, Francisella tularensis, Catalase, Molecular Pathogenesis, Tularemia, metabolism, Microbiology in the medical area
Abstract

Francisella tularensis, the causative agent of tularemia, is one of the most infectious bacterial pathogens known and is classified as a category A select agent and a facultative intracellular bacterium. Why F. tularensis subsp. tularensis causes a more severe form of tularemia than F. tularensis subsp. holarctica does is not known. In this study, we have identified prominent phenotypic differences between the subspecies, since we found that F. tularensis subsp. tularensis strains contained less iron than F. tularensis subsp. holarctica strains. Moreover, strain SCHU S4 of F. tularensis subsp. tularensis was less susceptible than FSC200 and the live vaccine strain (LVS) of F. tularensis subsp. holarctica to H(2)O(2)-induced killing. The activity of the H(2)O(2)-degrading enzyme catalase was similar between the strains, whereas the iron content affected their susceptibility to H(2)O(2), since iron starvation rendered F. tularensis subsp. holarctica strains more resistant to H(2)O(2). Complementing LVS with fupA, which encodes an important virulence factor that regulates iron uptake, reduced its iron content and increased the resistance to H(2)O(2)-mediated killing. By real-time PCR, it was demonstrated that FSC200 and LVS expressed higher levels of gene transcripts related to iron uptake and storage than SCHU S4 did, and this likely explained their high iron content. Together, the results suggest that F. tularensis subsp. tularensis strains have restricted iron uptake and storage, which is beneficial for their resistance to H(2)O(2)-induced killing. This may be an important factor for the higher virulence of this subspecies of F. tularensis, as reactive oxygen species, such as H(2)O(2), are important bactericidal components during tularemia.

Published
2011

18. Francisella

Author

Johansson, Anna-Lena, Noppa, Laila, Salomonsson, Emelie Näslund, Forsberg, Åke, Johansson, Anna-Lena, Noppa, Laila, Salomonsson, Emelie Näslund, and Forsberg, Åke

Abstract

Francisella tularensis, the causative agent of tularaemia, is a zoonotic intracellular pathogen that can be found in a very large number of species ranging from large mammals and vertebrates to invertebrates, arthropods and amoebas. Disease in humans often occurs in parallel with tularaemia in wild animals. Human infection can occur through aerosolization, direct contact with infected animals via arthropod vectors like ticks, mosquitos and biting flies. F. tularensis subspecies tularensis (type A) is one of the most infectious bacteria known and inhalation of as few as ten organisms can be sufficient to establish an infection in humans that if left untreated could be fatal. The success of F. tularensis as a pathogen lies in its unique ability to adapt a lifestyle as an intracellular pathogen and to very timely subvert host defences both at extracellular and intracellular levels. Key events in the infection process are the ability to rapidly escape the phagosome after uptake by phagocytic cells and the ability to replicate to high levels inside the host cells without evoking a host inflammatory response.

Published
2015
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19. The role of the Type IV pili system in the virulence of Francisella tularensis

Author

Salomonsson, Emelie

Subjects
PilA, bacterial pathogenesis, Molekylärbiologi, Type II secretion, Molecular biology, Type IV pili, RD18, RD19, Francisella tularensis, Neisseria gonorrhoeae, tularemia
Abstract

Francisella tularensis is a Gram-negative intracellular pathogen causing the zoonotic disease tularemia. F. tularensis can be found almost all over the world and has been recovered from several animal species, even though the natural reservoir of the bacterium and parts of its life cycle are still unknown. Humans usually get infected after handling infected animals or from bites of blood-feeding arthropod vectors. There are four subspecies of F. tularensis: the highly virulent tularensis (Type A) that causes a very aggressive form of the disease, with mortality as high as 60% if untreated, the moderately virulent holarctica (Type B) and mediasiatica, and the essentially avirulent subspecies F. novicida. So far, our knowledge of the molecular mechanisms that would explain these differences in virulence among the subspecies is poor. However, recent developments of genetic tools and access to genomic sequences have laid the ground for progress in this research field. Analysis of genome sequences have identified several regions that differ between F. tularensis subspecies. One of these regions, RD19, encodes proteins postulated to be involved in assembly of type IV pili (Tfp), organelles that have been implicated in processes like twitching motility, biofilm formation and cell-to-cell communication in pathogenic bacteria. While there have been reports of pili-like structures on the surface of F. tularensis, these have not been linked to the Tfp encoding gene clusters until now. Herein, I present evidence that the Francisella pilin, PilA, can complement pilin-like characteristics and promote assembly of fibers in a heterologous system in Neisseria gonorrhoeae. pilA was demonstrated to be required for full virulence of both type A and type B strains in mice when infected via peripheral routes. A second region, RD18, encoding a protein unique to F. tularensis and without any known function, was verified to be essential for virulence in a type A strain. Interestingly, the non-licensed live vaccine strain, LVS (Type B), lacks both RD18 and RD19 (pilA) due to deletion events mediated by flanking direct repeats. The loss of RD18 and RD19 is responsible for the attenuation of LVS, since re-introducing them in cis could restore the virulence to a level similar to a virulent type B strain. Significantly, these deletion events are irreversible, preventing LVS to revert to a more virulent form. Therefore, this important finding could facilitate the licensing of LVS as a vaccine against tularemia.

Published
2008

20. Characterization of protein glycosylation in Francisella tularensis subsp holarctica

Author

Balonova, Lucie, Mann, Benjamin F, Cerveny, Lukas, Alley, William R, Jr, Chovancova, Eva, Forslund, Anna-Lena, Salomonsson, Emelie N, Forsberg, Åke, Damborsky, Jiri, Novotny, Milos V, Hernychova, Lenka, Stulik, Jiri, Balonova, Lucie, Mann, Benjamin F, Cerveny, Lukas, Alley, William R, Jr, Chovancova, Eva, Forslund, Anna-Lena, Salomonsson, Emelie N, Forsberg, Åke, Damborsky, Jiri, Novotny, Milos V, Hernychova, Lenka, and Stulik, Jiri

Abstract

FTH_0069 is a previously uncharacterized strongly immunoreactive protein that has been proposed to be a novel virulence factor in Francisella tularensis. Here, the glycan structure modifying two C-terminal peptides of FTH_0069 was identified utilizing high resolution, high mass accuracy mass spectrometry, combined with in-source CID tandem MS experiments. The glycan observed at m/z 1156 was determined to be a hexasaccharide, consisting of two hexoses, three N-acetylhexosamines, and an unknown monosaccharide containing a phosphate group. The monosaccharide sequence of the glycan is tentatively proposed as X-P-HexNAc-HexNAc-Hex-Hex-HexNAc, where X denotes the unknown monosaccharide. The glycan is identical to that of DsbA glycoprotein, as well as to one of the multiple glycan structures modifying the type IV pilin PilA, suggesting a common biosynthetic pathway for the protein modification. Here, we demonstrate that the glycosylation of FTH_0069, DsbA, and PilA was affected in an isogenic mutant with a disrupted wbtDEF gene cluster encoding O-antigen synthesis and in a mutant with a deleted pglA gene encoding pilin oligosaccharyltransferase PglA. Based on our findings, we propose that PglA is involved in both pilin and general F. tularensis protein glycosylation, and we further suggest an inter-relationship between the O-antigen and the glycan synthesis in the early steps in their biosynthetic pathways. Molecular & Cellular Proteomics 11: 10.1074/mcp.M111.015016, 1-12, 2012.

Published
2012
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21. O-Linked glycosylation of the PilA pilin protein of francisella tularensis : identification of the endogenous protein-targeting oligosaccharyltransferase and characterization of the native oligosaccharide

Author

Egge-Jacobsen, Wolfgang, Salomonsson, Emelie Naslund, Aas, Finn Erik, Forslund, Anna-Lena, Winther-Larsen, Hanne C., Maier, Josef, Macellaro, Anna, Kuoppa, Kerstin, Oyston, Petra C. F., Titball, Richard W., Thomas, Rebecca M., Forsberg, Åke, Prior, Joann L., Koomey, Michael, Egge-Jacobsen, Wolfgang, Salomonsson, Emelie Naslund, Aas, Finn Erik, Forslund, Anna-Lena, Winther-Larsen, Hanne C., Maier, Josef, Macellaro, Anna, Kuoppa, Kerstin, Oyston, Petra C. F., Titball, Richard W., Thomas, Rebecca M., Forsberg, Åke, Prior, Joann L., and Koomey, Michael

Abstract

Findings from a number of studies suggest that the PilA pilin proteins may play an important role in the pathogenesis of disease caused by species within the genus Francisella. As such, a thorough understanding of PilA structure and chemistry is warranted. Here, we definitively identified the PglA protein-targeting oligosaccharyltransferase by virtue of its necessity for PilA glycosylation in Francisella tularensis and its sufficiency for PilA glycosylation in Escherichia coli. In addition, we used mass spectrometry to examine PilA affinity purified from Francisella tularensis subsp. tularensis and F. tularensis subsp. holarctica and demonstrated that the protein undergoes multisite, O-linked glycosylation with a pentasaccharide of the structure HexNac-HexHex-HexNac-HexNac. Further analyses revealed microheterogeneity related to forms of the pentasaccharide carrying unusual moieties linked to the distal sugar via a phosphate bridge. Type A and type B strains of Francisella subspecies thus express an O-linked protein glycosylation system utilizing core biosynthetic and assembly pathways conserved in other members of the proteobacteria. As PglA appears to be highly conserved in Francisella species, O-linked protein glycosylation may be a feature common to members of this genus.

Published
2011
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22. Type IV pili in Francisella : a virulence trait in an intracellular pathogen

Author

Näslund Salomonsson, Emelie, Forslund, Anna-Lena, Forsberg, Åke, Näslund Salomonsson, Emelie, Forslund, Anna-Lena, and Forsberg, Åke

Abstract

Francisella tularensis is a highly virulent intracellular human pathogen that is capable of rapid proliferation in the infected host. Mutants affected in intracellular survival and growth are highly attenuated which highlights the importance of the intracellular phase of the infection. Genomic analysis has revealed that Francisella encodes all genes required for expression of functional type IV pili (Tfp), and in this focused review we summarize recent findings regarding this system in the pathogenesis of tularemia. Tfp are dynamic adhesive structures that have been identified as major virulence determinants in several human pathogens, but it is not obvious what role these structures could have in an intracellular pathogen like Francisella. In the human pathogenic strains, genes required for secretion and assembly of Tfp and one pilin, PilA, have shown to be required for full virulence. Importantly, specific genetic differences have been identified between the different Francisella subspecies where in the most pathogenic type A variants all genes are intact while several Tfp genes are pseudogenes in the less pathogenic type B strains. This suggests that there has been a selection for expression of Tfp with different properties in the different subspecies. There is also a possibility that the genetic differences reflect adaptation to different environmental niches of the subspecies and plays a role in transmission of tularemia. This is also in line with recent findings where Tfp pilins are found to be glycosylated which could reflect a role for Tfp in the environment to promote survival and transmission. We are still far from understanding the role of Tfp in virulence and transmission of tularemia, but with the genomic information and genetic tools available we are in a good position to address these issues in the future.

Published
2011
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23. The type IV pilin, PilA, is required for full virulence of Francisella tularensis subspecies tularensis

Author

Forslund, Anna-Lena, Salomonsson, Emelie Näslund, Golovliov, Igor, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, Sjöstedt, Anders, Forsberg, Åke, Forslund, Anna-Lena, Salomonsson, Emelie Näslund, Golovliov, Igor, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, Sjöstedt, Anders, and Forsberg, Åke

Abstract

This suggests that expression and surface localisation of PilA contribute to virulence in the highly virulent type A strain, while PilT was dispensable for virulence in the mouse infection model.

Published
2010
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24. Reintroduction of two deleted virulence loci restores full virulence to the live vaccine strain of Francisella tularensis

Author

Salomonsson, Emelie, Kuoppa, Kerstin, Forslund, Anna-Lena, Zingmark, Carl, Golovliov, Igor, Sjöstedt, Anders, Noppa, Laila, Forsberg, Åke, Salomonsson, Emelie, Kuoppa, Kerstin, Forslund, Anna-Lena, Zingmark, Carl, Golovliov, Igor, Sjöstedt, Anders, Noppa, Laila, and Forsberg, Åke

Abstract

A disadvantage of several old vaccines is that the genetic events resulting in the attenuation are often largely unknown and reversion to virulence cannot be excluded. In the 1950s, a live vaccine strain, LVS, was developed from a type B strain of Francisella tularensis, the causative agent of tularemia. LVS, which is highly attenuated for humans but still virulent for mice by some infection routes, has been extensively studied and found to protect staff from laboratory-acquired tularemia. The efforts to improve biopreparedness have identified a demand for a vaccine against tularemia. Recently the rapid progress in genomics of different Francisella strains has led to identification of several regions of differences (RDs). Two genes carried within RDs, pilA, encoding a putative type IV pilin, and FTT0918, encoding an outer membrane protein, have been linked to virulence. Interestingly, LVS has lost these two genes via direct repeat-mediated deletions. Here we show that reintroduction of the two deleted regions restores virulence of LVS in a mouse infection model to a level indistinguishable from that of virulent type B strains. The identification of the two attenuating deletion events could facilitate the licensing of LVS for use in humans.

Published
2009
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25. O -Linked Glycosylation of the PilA Pilin Protein of Francisella tularensis: Identification of the Endogenous Protein-Targeting Oligosaccharyltransferase and Characterization of the Native Oligosaccharide

Author

Egge-Jacobsen, Wolfgang, primary, Salomonsson, Emelie Näslund, additional, Aas, Finn Erik, additional, Forslund, Anna-Lena, additional, Winther-Larsen, Hanne C., additional, Maier, Josef, additional, Macellaro, Anna, additional, Kuoppa, Kerstin, additional, Oyston, Petra C. F., additional, Titball, Richard W., additional, Thomas, Rebecca M., additional, Forsberg, Åke, additional, Prior, Joann L., additional, and Koomey, Michael, additional

Published
2011
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29. Iron Content Differs between Francisella tularensisSubspecies tularensisand Subspecies holarcticaStrains and Correlates to Their Susceptibility to H2O2-Induced Killing

Author

Lindgren, Helena, Honn, Marie, Salomonsson, Emelie, Kuoppa, Kerstin, Forsberg, Åke, and Sjöstedt, Anders

Abstract

ABSTRACTFrancisella tularensis, the causative agent of tularemia, is one of the most infectious bacterial pathogens known and is classified as a category A select agent and a facultative intracellular bacterium. Why F. tularensissubsp. tularensiscauses a more severe form of tularemia than F. tularensissubsp. holarcticadoes is not known. In this study, we have identified prominent phenotypic differences between the subspecies, since we found that F. tularensissubsp. tularensisstrains contained less iron than F. tularensissubsp. holarcticastrains. Moreover, strain SCHU S4 of F. tularensissubsp. tularensiswas less susceptible than FSC200 and the live vaccine strain (LVS) of F. tularensissubsp. holarcticato H2O2-induced killing. The activity of the H2O2-degrading enzyme catalase was similar between the strains, whereas the iron content affected their susceptibility to H2O2, since iron starvation rendered F. tularensissubsp. holarcticastrains more resistant to H2O2. Complementing LVS with fupA, which encodes an important virulence factor that regulates iron uptake, reduced its iron content and increased the resistance to H2O2-mediated killing. By real-time PCR, it was demonstrated that FSC200 and LVS expressed higher levels of gene transcripts related to iron uptake and storage than SCHU S4 did, and this likely explained their high iron content. Together, the results suggest that F. tularensissubsp. tularensisstrains have restricted iron uptake and storage, which is beneficial for their resistance to H2O2-induced killing. This may be an important factor for the higher virulence of this subspecies of F. tularensis, as reactive oxygen species, such as H2O2, are important bactericidal components during tularemia.

Published
2011
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30. Iron Content Differs between Francisella tularensis Subspecies tularensis and Subspecies holarctica Strains and Correlates to Their Susceptibility to H2O2-Induced Killing

Author

Lindgren, Helena, Honn, Marie, Salomonsson, Emelie, Kuoppa, Kerstin, Forsberg, Åke, and Sjöstedt, Anders

Abstract

Francisella tularensis, the causative agent of tularemia, is one of the most infectious bacterial pathogens known and is classified as a category A select agent and a facultative intracellular bacterium. Why F. tularensis subsp. tularensis causes a more severe form of tularemia than F. tularensis subsp. holarctica does is not known. In this study, we have identified prominent phenotypic differences between the subspecies, since we found that F. tularensis subsp. tularensis strains contained less iron than F. tularensis subsp. holarctica strains. Moreover, strain SCHU S4 of F. tularensis subsp. tularensis was less susceptible than FSC200 and the live vaccine strain (LVS) of F. tularensis subsp. holarctica to H2O2-induced killing. The activity of the H2O2-degrading enzyme catalase was similar between the strains, whereas the iron content affected their susceptibility to H2O2, since iron starvation rendered F. tularensis subsp. holarctica strains more resistant to H2O2. Complementing LVS with fupA, which encodes an important virulence factor that regulates iron uptake, reduced its iron content and increased the resistance to H2O2-mediated killing. By real-time PCR, it was demonstrated that FSC200 and LVS expressed higher levels of gene transcripts related to iron uptake and storage than SCHU S4 did, and this likely explained their high iron content. Together, the results suggest that F. tularensis subsp. tularensis strains have restricted iron uptake and storage, which is beneficial for their resistance to H2O2-induced killing. This may be an important factor for the higher virulence of this subspecies of F. tularensis, as reactive oxygen species, such as H2O2, are important bactericidal components during tularemia.

Published
2010

31. The type IV pilin, PilA, is required for full virulence of Francisella tularensis subspecies tularensis

Author

Forslund, Anna-Lena, Salomonsson, Emelie, Goloviov, Igor, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, Sjöstedt, Anders, Forsberg, Åke, Forslund, Anna-Lena, Salomonsson, Emelie, Goloviov, Igor, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, Sjöstedt, Anders, and Forsberg, Åke

Abstract

Background: All four Francisella tularensis subspecies possess gene clusters with potential to express type IV pili (Tfp). These clusters include putative pilin genes, as well as pilB, pilC and pilQ, required for secretion and assembly of Tfp. A hallmark of Tfp is the ability to retract the pilus upon surface contact, a property mediated by the ATPase PilT. Interestingly, out of the two major human pathogenic subspecies only the highly virulent type A strains have a functional pilT gene. Results: In a previous study, we were able to show that one pilin gene, pilA, was essential for virulence of a type B strain in a mouse infection model. In this work we have examined the role of several pilin genes in the virulence of the pathogenic type A strain SCHU S4. pilA, pilC, pilQ, and pilT were mutated by in-frame deletion mutagenesis. Interestingly, when mice were infected with a mixture of each mutant strain and the wild-type strain, the pilA, pilC and pilQ mutants were out-competed, while the pilT mutant was equally competitive as the wild-type. Conclusions: This suggests that expression and surface localisation of PilA contribute to virulence in the highly virulent type A strain, while PilT was dispensable for virulence in the mouse infection model.

33. Role of type IV pilin encoding genes in virulence of Francisella tularensis subspecies holarctica

Author

Salomonsson, Emelie, Forslund, Anna-Lena, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, Forsberg, Åke, Salomonsson, Emelie, Forslund, Anna-Lena, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, and Forsberg, Åke

Abstract

The number of virulence factors identified in Francisella tularensis, the causative agent of tularemia, is so far relatively few. The F. tularensis genome contains some genes with homology to known virulence factors. One of these is the type IV pili system, which is known to have a key role in virulence of other bacterial species. When we compared different F. tularensis subspecies we could identify distinct differences in Type IV pilin genes between the highly virulent type A strains and the less pathogenic type B strains. In this work we addressed the role in virulence of the different pilin genes in a virulent type B strain. Of all the pilin genes only PilA and the pseudopilins FTT1621-1622 were proven to have a role in virulence. In addition we also verified that the gene encoding the PilT ATPase is non-functional due to a non-sense mutation and we also confirmed that the truncated pilT has no role in mouse virulence. Furthermore we also provide evidence that the F. tularensis pilins are posttranslationally modified presumably by glycosylation by a PilO dependent mechanism.

35. The type IV pilin, PilA, is required for full virulence of Francisella tularensis subspecies tularensis

Author

Forslund, Anna-Lena, Salomonsson, Emelie, Goloviov, Igor, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, Sjöstedt, Anders, Forsberg, Åke, Forslund, Anna-Lena, Salomonsson, Emelie, Goloviov, Igor, Kuoppa, Kerstin, Michell, Stephen, Titball, Richard, Oyston, Petra, Noppa, Laila, Sjöstedt, Anders, and Forsberg, Åke

Abstract

Background: All four Francisella tularensis subspecies possess gene clusters with potential to express type IV pili (Tfp). These clusters include putative pilin genes, as well as pilB, pilC and pilQ, required for secretion and assembly of Tfp. A hallmark of Tfp is the ability to retract the pilus upon surface contact, a property mediated by the ATPase PilT. Interestingly, out of the two major human pathogenic subspecies only the highly virulent type A strains have a functional pilT gene. Results: In a previous study, we were able to show that one pilin gene, pilA, was essential for virulence of a type B strain in a mouse infection model. In this work we have examined the role of several pilin genes in the virulence of the pathogenic type A strain SCHU S4. pilA, pilC, pilQ, and pilT were mutated by in-frame deletion mutagenesis. Interestingly, when mice were infected with a mixture of each mutant strain and the wild-type strain, the pilA, pilC and pilQ mutants were out-competed, while the pilT mutant was equally competitive as the wild-type. Conclusions: This suggests that expression and surface localisation of PilA contribute to virulence in the highly virulent type A strain, while PilT was dispensable for virulence in the mouse infection model.

36. Characterization of Protein Glycosylation in Francisella tularensissubsp. holarctica

Author

Balonova, Lucie, Mann, Benjamin F., Cerveny, Lukas, Alley, William R., Chovancova, Eva, Forslund, Anna-Lena, Salomonsson, Emelie N., Forsberg, Åke, Damborsky, Jiri, Novotny, Milos V., Hernychova, Lenka, and Stulik, Jiri

Abstract

FTH_0069 is a previously uncharacterized strongly immunoreactive protein that has been proposed to be a novel virulence factor in Francisella tularensis. Here, the glycan structure modifying two C-terminal peptides of FTH_0069 was identified utilizing high resolution, high mass accuracy mass spectrometry, combined with in-source CID tandem MS experiments. The glycan observed at m/z1156 was determined to be a hexasaccharide, consisting of two hexoses, three N-acetylhexosamines, and an unknown monosaccharide containing a phosphate group. The monosaccharide sequence of the glycan is tentatively proposed as X-P-HexNAc-HexNAc-Hex-Hex-HexNAc, where Xdenotes the unknown monosaccharide. The glycan is identical to that of DsbA glycoprotein, as well as to one of the multiple glycan structures modifying the type IV pilin PilA, suggesting a common biosynthetic pathway for the protein modification. Here, we demonstrate that the glycosylation of FTH_0069, DsbA, and PilA was affected in an isogenic mutant with a disrupted wbtDEFgene cluster encoding O-antigen synthesis and in a mutant with a deleted pglAgene encoding pilin oligosaccharyltransferase PglA. Based on our findings, we propose that PglA is involved in both pilin and general F. tularensisprotein glycosylation, and we further suggest an inter-relationship between the O-antigen and the glycan synthesis in the early steps in their biosynthetic pathways.

Published
2012
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37. Iron content differs between Francisella tularensis subspecies tularensis and subspecies holarctica strains and correlates to their susceptibility to H(2)O(2)-induced killing.

Author

Lindgren H, Honn M, Salomonsson E, Kuoppa K, Forsberg Å, and Sjöstedt A

Subjects
Catalase metabolism, Francisella tularensis drug effects, Francisella tularensis metabolism, Francisella tularensis pathogenicity, Gene Expression Profiling, Iron metabolism, Phenotype, Reverse Transcriptase Polymerase Chain Reaction, Tularemia metabolism, Virulence, Francisella tularensis chemistry, Hydrogen Peroxide pharmacology, Iron analysis
Abstract

Francisella tularensis, the causative agent of tularemia, is one of the most infectious bacterial pathogens known and is classified as a category A select agent and a facultative intracellular bacterium. Why F. tularensis subsp. tularensis causes a more severe form of tularemia than F. tularensis subsp. holarctica does is not known. In this study, we have identified prominent phenotypic differences between the subspecies, since we found that F. tularensis subsp. tularensis strains contained less iron than F. tularensis subsp. holarctica strains. Moreover, strain SCHU S4 of F. tularensis subsp. tularensis was less susceptible than FSC200 and the live vaccine strain (LVS) of F. tularensis subsp. holarctica to H(2)O(2)-induced killing. The activity of the H(2)O(2)-degrading enzyme catalase was similar between the strains, whereas the iron content affected their susceptibility to H(2)O(2), since iron starvation rendered F. tularensis subsp. holarctica strains more resistant to H(2)O(2). Complementing LVS with fupA, which encodes an important virulence factor that regulates iron uptake, reduced its iron content and increased the resistance to H(2)O(2)-mediated killing. By real-time PCR, it was demonstrated that FSC200 and LVS expressed higher levels of gene transcripts related to iron uptake and storage than SCHU S4 did, and this likely explained their high iron content. Together, the results suggest that F. tularensis subsp. tularensis strains have restricted iron uptake and storage, which is beneficial for their resistance to H(2)O(2)-induced killing. This may be an important factor for the higher virulence of this subspecies of F. tularensis, as reactive oxygen species, such as H(2)O(2), are important bactericidal components during tularemia.

Published
2011
Full Text
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