Identification of a common immune signature in murine and human systemic Salmonellosis

Seung Joo Lee; Li Liang; Silvia Juarez; Minelva R. Nanton; Esther N. Gondwe; Chisomo L. Msefula; Matthew A. Kayala; Francesca Necchi; Jennifer N. Heath; Peter Hart; Reneé M. Tsolis; Robert S. Heyderman; Calman A. MacLennan; Philip L. Felgner; D. Huw Davies; Stephen J. McSorley

doi:10.1073/pnas.1111413109

Identification of a common immune signature in murine and human systemic Salmonellosis

Seung Joo Lee, Li Liang, Silvia Juarez, Minelva R. Nanton, Esther N. Gondwe, Chisomo L. Msefula, Matthew A. Kayala, Francesca Necchi, Jennifer N. Heath, Peter Hart, Reneé M. Tsolis, Robert S. Heyderman, Calman A. MacLennan, Philip L. Felgner, D. Huw Davies, Stephen J. McSorley

Medical School - Twin Cities Campus

Research output: Contribution to journal › Article › peer-review

79 Scopus citations

Abstract

Despite the importance of Salmonella infections in human and animal health, the target antigens of Salmonella-specific immunity remain poorly defined. We have previously shown evidence for antibody-mediating protection against invasive Salmonellosis in mice and African children. To generate an overview of antibody targeting in systemic Salmonellosis, a Salmonella proteomic array containing over 2,700 proteins was constructed and probed with immune sera from Salmonella-infected mice and humans. Analysis of multiple inbred mouse strains identified 117 antigens recognized by systemic antibody responses in murine Salmonellosis. Importantly, many of these antigens were independently identified as target antigens using sera from Malawian children with Salmonella bacteremia, validating the study of the murine model. Furthermore, vaccination with SseB, the most prominent antigenic target in Malawian children, provided mice with significant protection against Salmonella infection. Together, these data uncover an overlapping immune signature of disseminated Salmonellosis in mice and humans and provide a foundation for the generation of a protective subunit vaccine.

Original language	English (US)
Pages (from-to)	4998-5003
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	109
Issue number	13
DOIs	https://doi.org/10.1073/pnas.1111413109
State	Published - Mar 27 2012

Keywords

Antigen discovery
Non-Typhi Salmonella bacteremia

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Lee, S. J., Liang, L., Juarez, S., Nanton, M. R., Gondwe, E. N., Msefula, C. L., Kayala, M. A., Necchi, F., Heath, J. N., Hart, P., Tsolis, R. M., Heyderman, R. S., MacLennan, C. A., Felgner, P. L., Davies, D. H., & McSorley, S. J. (2012). Identification of a common immune signature in murine and human systemic Salmonellosis. Proceedings of the National Academy of Sciences of the United States of America, 109(13), 4998-5003. https://doi.org/10.1073/pnas.1111413109

Lee, SJ, Liang, L, Juarez, S, Nanton, MR, Gondwe, EN, Msefula, CL, Kayala, MA, Necchi, F, Heath, JN, Hart, P, Tsolis, RM, Heyderman, RS, MacLennan, CA, Felgner, PL, Davies, DH & McSorley, SJ 2012, 'Identification of a common immune signature in murine and human systemic Salmonellosis', Proceedings of the National Academy of Sciences of the United States of America, vol. 109, no. 13, pp. 4998-5003. https://doi.org/10.1073/pnas.1111413109

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abstract = "Despite the importance of Salmonella infections in human and animal health, the target antigens of Salmonella-specific immunity remain poorly defined. We have previously shown evidence for antibody-mediating protection against invasive Salmonellosis in mice and African children. To generate an overview of antibody targeting in systemic Salmonellosis, a Salmonella proteomic array containing over 2,700 proteins was constructed and probed with immune sera from Salmonella-infected mice and humans. Analysis of multiple inbred mouse strains identified 117 antigens recognized by systemic antibody responses in murine Salmonellosis. Importantly, many of these antigens were independently identified as target antigens using sera from Malawian children with Salmonella bacteremia, validating the study of the murine model. Furthermore, vaccination with SseB, the most prominent antigenic target in Malawian children, provided mice with significant protection against Salmonella infection. Together, these data uncover an overlapping immune signature of disseminated Salmonellosis in mice and humans and provide a foundation for the generation of a protective subunit vaccine.",

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AU - Msefula, Chisomo L.

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AU - Hart, Peter

AU - Tsolis, Reneé M.

AU - Heyderman, Robert S.

AU - MacLennan, Calman A.

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N2 - Despite the importance of Salmonella infections in human and animal health, the target antigens of Salmonella-specific immunity remain poorly defined. We have previously shown evidence for antibody-mediating protection against invasive Salmonellosis in mice and African children. To generate an overview of antibody targeting in systemic Salmonellosis, a Salmonella proteomic array containing over 2,700 proteins was constructed and probed with immune sera from Salmonella-infected mice and humans. Analysis of multiple inbred mouse strains identified 117 antigens recognized by systemic antibody responses in murine Salmonellosis. Importantly, many of these antigens were independently identified as target antigens using sera from Malawian children with Salmonella bacteremia, validating the study of the murine model. Furthermore, vaccination with SseB, the most prominent antigenic target in Malawian children, provided mice with significant protection against Salmonella infection. Together, these data uncover an overlapping immune signature of disseminated Salmonellosis in mice and humans and provide a foundation for the generation of a protective subunit vaccine.

AB - Despite the importance of Salmonella infections in human and animal health, the target antigens of Salmonella-specific immunity remain poorly defined. We have previously shown evidence for antibody-mediating protection against invasive Salmonellosis in mice and African children. To generate an overview of antibody targeting in systemic Salmonellosis, a Salmonella proteomic array containing over 2,700 proteins was constructed and probed with immune sera from Salmonella-infected mice and humans. Analysis of multiple inbred mouse strains identified 117 antigens recognized by systemic antibody responses in murine Salmonellosis. Importantly, many of these antigens were independently identified as target antigens using sera from Malawian children with Salmonella bacteremia, validating the study of the murine model. Furthermore, vaccination with SseB, the most prominent antigenic target in Malawian children, provided mice with significant protection against Salmonella infection. Together, these data uncover an overlapping immune signature of disseminated Salmonellosis in mice and humans and provide a foundation for the generation of a protective subunit vaccine.

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Identification of a common immune signature in murine and human systemic Salmonellosis

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