TY - JOUR
T1 - A mosaic tetracycline resistance gene tet(S/M) detected in an MDR pneumococcal CC230 lineage that underwent capsular switching in South Africa
AU - Global Pneumococcal Sequencing Consortium
AU - Lo, Stephanie W.
AU - Gladstone, Rebecca A.
AU - Van Tonder, Andries J.
AU - Du Plessis, Mignon
AU - Cornick, Jennifer E.
AU - Hawkins, Paulina A.
AU - Madhi, Shabir A.
AU - Nzenze, Susan A.
AU - Kandasamy, Rama
AU - Ravikumar, K. L.
AU - Elmdaghri, Naima
AU - Kwambana-Adams, Brenda
AU - Almeida, Samanta Cristine Grassi
AU - Skoczynska, Anna
AU - Egorova, Ekaterina
AU - Titov, Leonid
AU - Saha, Samir K.
AU - Paragi, Metka
AU - Everett, Dean B.
AU - Antonio, Martin
AU - Klugman, Keith P.
AU - Li, Yuan
AU - Metcalf, Benjamin J.
AU - Beall, Bernard
AU - McGee, Lesley
AU - Breiman, Robert F.
AU - Bentley, Stephen D.
AU - Von Gottberg, Anne
AU - Brooks, Abdullah W.
AU - Corso, Alejandra
AU - Davydov, Alexander
AU - Maguire, Alison
AU - Pollard, Andrew J.
AU - Kiran, Anmol
AU - Moiane, Benild
AU - Sigauque, Betuel
AU - Aanensen, David
AU - Lehmann, Deborah
AU - Faccone, Diego
AU - Foster-Nyarko, Ebenezer
AU - Bojang, Ebrima
AU - Voropaeva, Elena
AU - Sampane-Donkor, Eric
AU - Sadowy, Ewa
AU - Nagaraj, Geetha
AU - Bigogo, Godfrey
AU - Mucavele, Helio
AU - Belabbès, Houria
AU - Diawara, Idrissa
AU - Shakoor, Sadia
N1 - Funding Information:
We would like to acknowledge the Bill & Melinda Gates Foundation (grant code OPP1034556) and the Wellcome Sanger Institute (core Wellcome grants 098051 and 206194) for funding this study, as part of the GPS project. We deeply appreciate all members of the Global Pneumococcal Sequencing Consortium for their collaborative spirit and determination in the monumental task of sampling, extracting data and for their intellectual input to this manuscript. We extend our special thanks to Linda De Gouveia from the National Institute for Communicable Diseases of the National Health Laboratory Service, South Africa who helped us with the antimicrobial susceptibility testing. We appreciated critiques and suggestions from all team members in the Genomics of Pneumonia and Meningitis (and neonatal sepsis) group and technical support from the Pathogen Informatic Team in the Parasites and Microbe Programme at the Wellcome Sanger Institute.
Funding Information:
This work was co-funded by the Bill & Melinda Gates Foundation (grant code OPP1034556), the Wellcome Sanger Institute (core Wellcome grants 098051 and 206194) and the US Centers for Disease Control and Prevention.
Publisher Copyright:
© 2020 The Author(s) 2019. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy.
PY - 2020/3/1
Y1 - 2020/3/1
N2 - Objectives: We reported tet(S/M) in Streptococcus pneumoniae and investigated its temporal spread in relation to nationwide clinical interventions. Methods: We whole-genome sequenced 12 254 pneumococcal isolates from 29 countries on an Illumina HiSeq sequencer. Serotype, multilocus ST and antibiotic resistance were inferred from genomes. An SNP tree was built using Gubbins. Temporal spread was reconstructed using a birth-death model. Results: We identified tet(S/M) in 131 pneumococcal isolates and none carried other known tet genes. Tetracycline susceptibility testing results were available for 121 tet(S/M)-positive isolates and all were resistant. A majority (74%) of tet(S/M)-positive isolates were from South Africa and caused invasive diseases among young children (59% HIV positive, where HIV status was available). All but two tet(S/M)-positive isolates belonged to clonal complex (CC) 230. A global phylogeny of CC230 (n=389) revealed that tet(S/M)-positive isolates formed a sublineage predicted to exhibit resistance to penicillin, co-trimoxazole, erythromycin and tetracycline. The birth-death model detected an unrecognized outbreak of this sublineage in South Africa between 2000 and 2004 with expected secondary infections (effective reproductive number, R) of ∼2.5. R declined to ∼1.0 in 2005 and <1.0 in 2012. The declining epidemic could be related to improved access to ART in 2004 and introduction of pneumococcal conjugate vaccine (PCV) in 2009. Capsular switching from vaccine serotype 14 to non-vaccine serotype 23A was observed within the sublineage. Conclusions: The prevalence of tet(S/M) in pneumococci was low and its dissemination was due to an unrecognized outbreak of CC230 in South Africa. Capsular switching in this MDR sublineage highlighted its potential to continue to cause disease in the post-PCV13 era.
AB - Objectives: We reported tet(S/M) in Streptococcus pneumoniae and investigated its temporal spread in relation to nationwide clinical interventions. Methods: We whole-genome sequenced 12 254 pneumococcal isolates from 29 countries on an Illumina HiSeq sequencer. Serotype, multilocus ST and antibiotic resistance were inferred from genomes. An SNP tree was built using Gubbins. Temporal spread was reconstructed using a birth-death model. Results: We identified tet(S/M) in 131 pneumococcal isolates and none carried other known tet genes. Tetracycline susceptibility testing results were available for 121 tet(S/M)-positive isolates and all were resistant. A majority (74%) of tet(S/M)-positive isolates were from South Africa and caused invasive diseases among young children (59% HIV positive, where HIV status was available). All but two tet(S/M)-positive isolates belonged to clonal complex (CC) 230. A global phylogeny of CC230 (n=389) revealed that tet(S/M)-positive isolates formed a sublineage predicted to exhibit resistance to penicillin, co-trimoxazole, erythromycin and tetracycline. The birth-death model detected an unrecognized outbreak of this sublineage in South Africa between 2000 and 2004 with expected secondary infections (effective reproductive number, R) of ∼2.5. R declined to ∼1.0 in 2005 and <1.0 in 2012. The declining epidemic could be related to improved access to ART in 2004 and introduction of pneumococcal conjugate vaccine (PCV) in 2009. Capsular switching from vaccine serotype 14 to non-vaccine serotype 23A was observed within the sublineage. Conclusions: The prevalence of tet(S/M) in pneumococci was low and its dissemination was due to an unrecognized outbreak of CC230 in South Africa. Capsular switching in this MDR sublineage highlighted its potential to continue to cause disease in the post-PCV13 era.
UR - http://www.scopus.com/inward/record.url?scp=85079350351&partnerID=8YFLogxK
U2 - 10.1093/jac/dkz477
DO - 10.1093/jac/dkz477
M3 - Article
C2 - 31789384
AN - SCOPUS:85079350351
SN - 0305-7453
VL - 75
SP - 512
EP - 520
JO - Journal of Antimicrobial Chemotherapy
JF - Journal of Antimicrobial Chemotherapy
IS - 3
ER -