TY - JOUR
T1 - Whole-genome sequencing for routine pathogen surveillance in public health
T2 - A population snapshot of invasive Staphylococcus aureus in Europe
AU - ESCMID Study Group on Molecular Epidemiological Markers (ESGEM), European Staphylococcal Reference Laboratory Working Group
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
A2 - Miklasevics, Edvins
N1 - Funding Information:
This work, including the efforts of Matthew Holden, Janina Dordel, Julian Parkhill, and Stephen Bentley, was funded by Wellcome Trust (098051). This work, including the efforts of David M. Aanensen, Corin Yeats, and Artemij Fedosejev, was funded by Wellcome Trust (099202). This work, including the efforts of Brian Spratt, was funded by Wellcome Trust (089472). This work, including the efforts of Santiago Castillo-Ram?rez, was funded by Medical Research Council (MRC) (G1000803). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Publisher Copyright:
© 2016 Aanensen et al.
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.
KW - medicine
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
C2 - 27150362
AN - SCOPUS:84978959412
SN - 2161-2129
VL - 7
JO - mBio
JF - mBio
IS - 3
M1 - e00444-16
ER -