Whole-genome sequencing for routine pathogen surveillance in public health: A population snapshot of invasive Staphylococcus aureus in Europe

David M. Aanensen; Edward J. Feil; Matthew T G Holden; Janina Dordel; Corin A. Yeats; Artemij Fedosejev; Richard Goater; Santiago Castillo-Ramírez; Jukka Corander; Caroline Colijn; Monika A. Chlebowicz; Leo Schouls; Max Heck; Gerlinde Pluister; Raymond Ruimy; Gunnar Kahlmeter; Jenny Åhman; Erika Matuschek; Alexander W. Friedrich; Julian Parkhill; Stephen D. Bentley; Brian G. Spratt; Hajo Grundmann; Karina Krziwanek; Sabine Stumvoll; Walter Koller; Olivier Denis; Marc Struelens; Dimitr Nashev; Ana Budimir; Smilja Kalenic; Despo Pieridou-Bagatzouni; Vladislav Jakubu; Helena Zemlickova; Henrik Westh; Anders Rhod Larsen; Robert Skov; Frederic Laurent; Jerome Ettienne; Birgit Strommenger; Wolfgang Witte; Sofia Vourli; Alkis Vatopoulos; Anni Vainio; Jaana Vuopio-Varkila; Miklos Fuzi; Erika Ungvári; Stephan Murchan; Angela Rossney; Edvins Miklasevics; Arta Balode; Gunnsteinn Haraldsson; Karl G. Kristinsson; Monica Monaco; Annalisa Pantosti; Michael Borg; Marga Van Santen-Verheuvel; Xander Huijsdens; Lillian Marstein; Trond Jacobsen; Gunnar Skov Simonsen; Marta Airesde-Sousa; Herminia De Lencastre; Agnieszka Luczak-Kadlubowska; Waleria Hryniewicz; Monica Straut; Irina Codita; Maria Perez-Vazquez; Jesus Oteo Iglesias; Vesna Cvitkovic Spik; Manica Mueller-Premru; Sara Haeggman; Barbro Olsson-Liljequist; Matthew Ellington; Angela Kearns

doi:10.1128/mBio.00444-16

Whole-genome sequencing for routine pathogen surveillance in public health: A population snapshot of invasive Staphylococcus aureus in Europe

David M. Aanensen, Edward J. Feil, Matthew T G Holden, Janina Dordel, Corin A. Yeats, Artemij Fedosejev, Richard Goater, Santiago Castillo-Ramírez, Jukka Corander, Caroline Colijn, Monika A. Chlebowicz, Leo Schouls, Max Heck, Gerlinde Pluister, Raymond Ruimy, Gunnar Kahlmeter, Jenny Åhman, Erika Matuschek, Alexander W. Friedrich, Julian ParkhillStephen D. Bentley, Brian G. Spratt, Hajo Grundmann^*, Karina Krziwanek, Sabine Stumvoll, Walter Koller, Olivier Denis, Marc Struelens, Dimitr Nashev, Ana Budimir, Smilja Kalenic, Despo Pieridou-Bagatzouni, Vladislav Jakubu, Helena Zemlickova, Henrik Westh, Anders Rhod Larsen, Robert Skov, Frederic Laurent, Jerome Ettienne, Birgit Strommenger, Wolfgang Witte, Sofia Vourli, Alkis Vatopoulos, Anni Vainio, Jaana Vuopio-Varkila, Miklos Fuzi, Erika Ungvári, Stephan Murchan, Angela Rossney, Edvins Miklasevics, Arta Balode, Gunnsteinn Haraldsson, Karl G. Kristinsson, Monica Monaco, Annalisa Pantosti, Michael Borg, Marga Van Santen-Verheuvel, Xander Huijsdens, Lillian Marstein, Trond Jacobsen, Gunnar Skov Simonsen, Marta Airesde-Sousa, Herminia De Lencastre, Agnieszka Luczak-Kadlubowska, Waleria Hryniewicz, Monica Straut, Irina Codita, Maria Perez-Vazquez, Jesus Oteo Iglesias, Vesna Cvitkovic Spik, Manica Mueller-Premru, Sara Haeggman, Barbro Olsson-Liljequist, Matthew Ellington, Angela Kearns

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The implementation of routine whole-genome sequencing (WGS) promises to transform our ability to monitor the emergence and spread of bacterial pathogens. Here we combined WGS data from 308 invasive Staphylococcus aureus isolates corresponding to a pan-European population snapshot, with epidemiological and resistance data. Geospatial visualization of the data is made possible by a generic software tool designed for public health purposes that is available at the project URL (http:// www.microreact.org/project/EkUvg9uY?tt=rc). Our analysis demonstrates that high-risk clones can be identified on the basis of population level properties such as clonal relatedness, abundance, and spatial structuring and by inferring virulence and resistance properties on the basis of gene content. We also show that in silico predictions of antibiotic resistance profiles are at least as reliable as phenotypic testing. We argue that this work provides a comprehensive road map illustrating the three vital components for future molecular epidemiological surveillance: (i) large-scale structured surveys, (ii) WGS, and (iii) communityoriented database infrastructure and analysis tools. IMPORTANCE The spread of antibiotic-resistant bacteria is a public health emergency of global concern, threatening medical intervention at every level of health care delivery. Several recent studies have demonstrated the promise of routine wholegenome sequencing (WGS) of bacterial pathogens for epidemiological surveillance, outbreak detection, and infection control. However, as this technology becomes more widely adopted, the key challenges of generating representative national and international data sets and the development of bioinformatic tools to manage and interpret the data become increasingly pertinent. This study provides a road map for the integration of WGS data into routine pathogen surveillance. We emphasize the importance of large-scale routine surveys to provide the population context for more targeted or localized investigation and the development of open-access bioinformatic tools to provide the means to combine and compare independently generated data with publicly available data sets.

Alkuperäiskieli	Englanti
Artikkeli	e00444-16
Sivumäärä	15
Julkaisu	MBIO
Vuosikerta	7
Numero	3
DOI - pysyväislinkit	https://doi.org/10.1128/mBio.00444-16
Tila	Julkaistu - 1 toukok. 2016
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

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10.1128/mBio.00444-16

mBio-2016-Aanensen-Final published version, 1,01 MBLisenssi: CC BY

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Aanensen, D. M., Feil, E. J., Holden, M. T. G., Dordel, J., Yeats, C. A., Fedosejev, A., Goater, R., Castillo-Ramírez, S., Corander, J., Colijn, C., Chlebowicz, M. A., Schouls, L., Heck, M., Pluister, G., Ruimy, R., Kahlmeter, G., Åhman, J., Matuschek, E., Friedrich, A. W., ... Kearns, A. (2016). Whole-genome sequencing for routine pathogen surveillance in public health: A population snapshot of invasive Staphylococcus aureus in Europe. MBIO, 7(3), Artikkeli e00444-16. https://doi.org/10.1128/mBio.00444-16

@article{6c5b47589bec4c0bae2c343b48b9c48d,

title = "Whole-genome sequencing for routine pathogen surveillance in public health: A population snapshot of invasive Staphylococcus aureus in Europe",

abstract = "The implementation of routine whole-genome sequencing (WGS) promises to transform our ability to monitor the emergence and spread of bacterial pathogens. Here we combined WGS data from 308 invasive Staphylococcus aureus isolates corresponding to a pan-European population snapshot, with epidemiological and resistance data. Geospatial visualization of the data is made possible by a generic software tool designed for public health purposes that is available at the project URL (http:// www.microreact.org/project/EkUvg9uY?tt=rc). Our analysis demonstrates that high-risk clones can be identified on the basis of population level properties such as clonal relatedness, abundance, and spatial structuring and by inferring virulence and resistance properties on the basis of gene content. We also show that in silico predictions of antibiotic resistance profiles are at least as reliable as phenotypic testing. We argue that this work provides a comprehensive road map illustrating the three vital components for future molecular epidemiological surveillance: (i) large-scale structured surveys, (ii) WGS, and (iii) communityoriented database infrastructure and analysis tools. IMPORTANCE The spread of antibiotic-resistant bacteria is a public health emergency of global concern, threatening medical intervention at every level of health care delivery. Several recent studies have demonstrated the promise of routine wholegenome sequencing (WGS) of bacterial pathogens for epidemiological surveillance, outbreak detection, and infection control. However, as this technology becomes more widely adopted, the key challenges of generating representative national and international data sets and the development of bioinformatic tools to manage and interpret the data become increasingly pertinent. This study provides a road map for the integration of WGS data into routine pathogen surveillance. We emphasize the importance of large-scale routine surveys to provide the population context for more targeted or localized investigation and the development of open-access bioinformatic tools to provide the means to combine and compare independently generated data with publicly available data sets.",

author = "Aanensen, {David M.} and Feil, {Edward J.} and Holden, {Matthew T G} and Janina Dordel and Yeats, {Corin A.} and Artemij Fedosejev and Richard Goater and Santiago Castillo-Ram{\'i}rez and Jukka Corander and Caroline Colijn and Chlebowicz, {Monika A.} and Leo Schouls and Max Heck and Gerlinde Pluister and Raymond Ruimy and Gunnar Kahlmeter and Jenny {\AA}hman and Erika Matuschek and Friedrich, {Alexander W.} and Julian Parkhill and Bentley, {Stephen D.} and Spratt, {Brian G.} and Hajo Grundmann and Karina Krziwanek and Sabine Stumvoll and Walter Koller and Olivier Denis and Marc Struelens and Dimitr Nashev and Ana Budimir and Smilja Kalenic and Despo Pieridou-Bagatzouni and Vladislav Jakubu and Helena Zemlickova and Henrik Westh and Larsen, {Anders Rhod} and Robert Skov and Frederic Laurent and Jerome Ettienne and Birgit Strommenger and Wolfgang Witte and Sofia Vourli and Alkis Vatopoulos and Anni Vainio and Jaana Vuopio-Varkila and Miklos Fuzi and Erika Ungv{\'a}ri and Stephan Murchan and Angela Rossney and Edvins Miklasevics and Arta Balode and Gunnsteinn Haraldsson and Kristinsson, {Karl G.} and Monica Monaco and Annalisa Pantosti and Michael Borg and {Van Santen-Verheuvel}, Marga and Xander Huijsdens and Lillian Marstein and Trond Jacobsen and Simonsen, {Gunnar Skov} and Marta Airesde-Sousa and {De Lencastre}, Herminia and Agnieszka Luczak-Kadlubowska and Waleria Hryniewicz and Monica Straut and Irina Codita and Maria Perez-Vazquez and Iglesias, {Jesus Oteo} and Spik, {Vesna Cvitkovic} and Manica Mueller-Premru and Sara Haeggman and Barbro Olsson-Liljequist and Matthew Ellington and Angela Kearns",

year = "2016",

month = may,

day = "1",

doi = "10.1128/mBio.00444-16",

language = "English",

volume = "7",

journal = "MBIO",

issn = "2161-2129",

publisher = "American Society for Microbiology",

number = "3",

}

Aanensen, DM, Feil, EJ, Holden, MTG, Dordel, J, Yeats, CA, Fedosejev, A, Goater, R, Castillo-Ramírez, S, Corander, J, Colijn, C, Chlebowicz, MA, Schouls, L, Heck, M, Pluister, G, Ruimy, R, Kahlmeter, G, Åhman, J, Matuschek, E, Friedrich, AW, Parkhill, J, Bentley, SD, Spratt, BG, Grundmann, H, Krziwanek, K, Stumvoll, S, Koller, W, Denis, O, Struelens, M, Nashev, D, Budimir, A, Kalenic, S, Pieridou-Bagatzouni, D, Jakubu, V, Zemlickova, H, Westh, H, Larsen, AR, Skov, R, Laurent, F, Ettienne, J, Strommenger, B, Witte, W, Vourli, S, Vatopoulos, A, Vainio, A, Vuopio-Varkila, J, Fuzi, M, Ungvári, E, Murchan, S, Rossney, A, Miklasevics, E, Balode, A, Haraldsson, G, Kristinsson, KG, Monaco, M, Pantosti, A, Borg, M, Van Santen-Verheuvel, M, Huijsdens, X, Marstein, L, Jacobsen, T, Simonsen, GS, Airesde-Sousa, M, De Lencastre, H, Luczak-Kadlubowska, A, Hryniewicz, W, Straut, M, Codita, I, Perez-Vazquez, M, Iglesias, JO, Spik, VC, Mueller-Premru, M, Haeggman, S, Olsson-Liljequist, B, Ellington, M & Kearns, A 2016, 'Whole-genome sequencing for routine pathogen surveillance in public health: A population snapshot of invasive Staphylococcus aureus in Europe', MBIO, Vuosikerta 7, Nro 3, e00444-16. https://doi.org/10.1128/mBio.00444-16

TY - JOUR

T1 - Whole-genome sequencing for routine pathogen surveillance in public health

T2 - A population snapshot of invasive Staphylococcus aureus in Europe

AU - Aanensen, David M.

AU - Feil, Edward J.

AU - Holden, Matthew T G

AU - Dordel, Janina

AU - Yeats, Corin A.

AU - Fedosejev, Artemij

AU - Goater, Richard

AU - Castillo-Ramírez, Santiago

AU - Corander, Jukka

AU - Colijn, Caroline

AU - Chlebowicz, Monika A.

AU - Schouls, Leo

AU - Heck, Max

AU - Pluister, Gerlinde

AU - Ruimy, Raymond

AU - Kahlmeter, Gunnar

AU - Åhman, Jenny

AU - Matuschek, Erika

AU - Friedrich, Alexander W.

AU - Parkhill, Julian

AU - Bentley, Stephen D.

AU - Spratt, Brian G.

AU - Grundmann, Hajo

AU - Krziwanek, Karina

AU - Stumvoll, Sabine

AU - Koller, Walter

AU - Denis, Olivier

AU - Struelens, Marc

AU - Nashev, Dimitr

AU - Budimir, Ana

AU - Kalenic, Smilja

AU - Pieridou-Bagatzouni, Despo

AU - Jakubu, Vladislav

AU - Zemlickova, Helena

AU - Westh, Henrik

AU - Larsen, Anders Rhod

AU - Skov, Robert

AU - Laurent, Frederic

AU - Ettienne, Jerome

AU - Strommenger, Birgit

AU - Witte, Wolfgang

AU - Vourli, Sofia

AU - Vatopoulos, Alkis

AU - Vainio, Anni

AU - Vuopio-Varkila, Jaana

AU - Fuzi, Miklos

AU - Ungvári, Erika

AU - Murchan, Stephan

AU - Rossney, Angela

AU - Miklasevics, Edvins

AU - Balode, Arta

AU - Haraldsson, Gunnsteinn

AU - Kristinsson, Karl G.

AU - Monaco, Monica

AU - Pantosti, Annalisa

AU - Borg, Michael

AU - Van Santen-Verheuvel, Marga

AU - Huijsdens, Xander

AU - Marstein, Lillian

AU - Jacobsen, Trond

AU - Simonsen, Gunnar Skov

AU - Airesde-Sousa, Marta

AU - De Lencastre, Herminia

AU - Luczak-Kadlubowska, Agnieszka

AU - Hryniewicz, Waleria

AU - Straut, Monica

AU - Codita, Irina

AU - Perez-Vazquez, Maria

AU - Iglesias, Jesus Oteo

AU - Spik, Vesna Cvitkovic

AU - Mueller-Premru, Manica

AU - Haeggman, Sara

AU - Olsson-Liljequist, Barbro

AU - Ellington, Matthew

AU - Kearns, Angela

PY - 2016/5/1

Y1 - 2016/5/1

N2 - The implementation of routine whole-genome sequencing (WGS) promises to transform our ability to monitor the emergence and spread of bacterial pathogens. Here we combined WGS data from 308 invasive Staphylococcus aureus isolates corresponding to a pan-European population snapshot, with epidemiological and resistance data. Geospatial visualization of the data is made possible by a generic software tool designed for public health purposes that is available at the project URL (http:// www.microreact.org/project/EkUvg9uY?tt=rc). Our analysis demonstrates that high-risk clones can be identified on the basis of population level properties such as clonal relatedness, abundance, and spatial structuring and by inferring virulence and resistance properties on the basis of gene content. We also show that in silico predictions of antibiotic resistance profiles are at least as reliable as phenotypic testing. We argue that this work provides a comprehensive road map illustrating the three vital components for future molecular epidemiological surveillance: (i) large-scale structured surveys, (ii) WGS, and (iii) communityoriented database infrastructure and analysis tools. IMPORTANCE The spread of antibiotic-resistant bacteria is a public health emergency of global concern, threatening medical intervention at every level of health care delivery. Several recent studies have demonstrated the promise of routine wholegenome sequencing (WGS) of bacterial pathogens for epidemiological surveillance, outbreak detection, and infection control. However, as this technology becomes more widely adopted, the key challenges of generating representative national and international data sets and the development of bioinformatic tools to manage and interpret the data become increasingly pertinent. This study provides a road map for the integration of WGS data into routine pathogen surveillance. We emphasize the importance of large-scale routine surveys to provide the population context for more targeted or localized investigation and the development of open-access bioinformatic tools to provide the means to combine and compare independently generated data with publicly available data sets.

AB - The implementation of routine whole-genome sequencing (WGS) promises to transform our ability to monitor the emergence and spread of bacterial pathogens. Here we combined WGS data from 308 invasive Staphylococcus aureus isolates corresponding to a pan-European population snapshot, with epidemiological and resistance data. Geospatial visualization of the data is made possible by a generic software tool designed for public health purposes that is available at the project URL (http:// www.microreact.org/project/EkUvg9uY?tt=rc). Our analysis demonstrates that high-risk clones can be identified on the basis of population level properties such as clonal relatedness, abundance, and spatial structuring and by inferring virulence and resistance properties on the basis of gene content. We also show that in silico predictions of antibiotic resistance profiles are at least as reliable as phenotypic testing. We argue that this work provides a comprehensive road map illustrating the three vital components for future molecular epidemiological surveillance: (i) large-scale structured surveys, (ii) WGS, and (iii) communityoriented database infrastructure and analysis tools. IMPORTANCE The spread of antibiotic-resistant bacteria is a public health emergency of global concern, threatening medical intervention at every level of health care delivery. Several recent studies have demonstrated the promise of routine wholegenome sequencing (WGS) of bacterial pathogens for epidemiological surveillance, outbreak detection, and infection control. However, as this technology becomes more widely adopted, the key challenges of generating representative national and international data sets and the development of bioinformatic tools to manage and interpret the data become increasingly pertinent. This study provides a road map for the integration of WGS data into routine pathogen surveillance. We emphasize the importance of large-scale routine surveys to provide the population context for more targeted or localized investigation and the development of open-access bioinformatic tools to provide the means to combine and compare independently generated data with publicly available data sets.

UR - http://www.scopus.com/inward/record.url?scp=84978959412&partnerID=8YFLogxK

U2 - 10.1128/mBio.00444-16

DO - 10.1128/mBio.00444-16

M3 - Article

AN - SCOPUS:84978959412

SN - 2161-2129

VL - 7

JO - MBIO

JF - MBIO

IS - 3

M1 - e00444-16

ER -

Whole-genome sequencing for routine pathogen surveillance in public health: A population snapshot of invasive Staphylococcus aureus in Europe

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