A mosaic tetracycline resistance gene tet(S/M) detected in an MDR pneumococcal CC230 lineage that underwent capsular switching in South Africa

Author:

Lo Stephanie W1ORCID,Gladstone Rebecca A1,van Tonder Andries J1,Du Plessis Mignon23,Cornick Jennifer E45,Hawkins Paulina A6,Madhi Shabir A78,Nzenze Susan A78,Kandasamy Rama9,Ravikumar K L10,Elmdaghri Naima1112,Kwambana-Adams Brenda1314,Almeida Samanta Cristine Grassi15,Skoczynska Anna16,Egorova Ekaterina17,Titov Leonid18,Saha Samir K19,Paragi Metka20,Everett Dean B421,Antonio Martin14,Klugman Keith P2367,Li Yuan22,Metcalf Benjamin J22,Beall Bernard22,McGee Lesley22,Breiman Robert F623,Bentley Stephen D1,von Gottberg Anne23,Brooks Abdullah W,Corso Alejandra,Davydov Alexander,Maguire Alison,Pollard Andrew J,Kiran Anmol,Skoczynska Anna,Moiane Benild,Sigauque Betuel,Aanensen David,Lehmann Deborah,Faccone Diego,Foster-Nyarko Ebenezer,Bojang Ebrima,Voropaeva Elena,Sampane-Donkor Eric,Sadowy Ewa,Nagaraj Geetha,Bigogo Godfrey,Mucavele Helio,Belabbès Houria,Diawara Idrissa,Moïsi Jennifer,Verani Jennifer,Keenan Jeremy,Nair Thulasee Bhai Jyothish N,Ndlangisa Kedibone M,Zerouali Khalid,De Gouveia Linda,Alaerts Maaike,de Cunto Brandileone Maria-Cristina,Ip Margaret,Hasanuzzaman Md,Paragi Metka,Ali Mushal,Croucher Nicholas,Wolter Nicole,Givon-Lavi Noga,Eser Özgen Köseoglu,Ho Pak Leung,Akpaka Patrick E,Turner Paul,Gagetti Paula,Tientcheu Peggy-Estelle,Carter Philip E,Law Pierra,Benisty Rachel,Mostowy Rafal,Ford Rebecca,Henderson Rebecca,Malaker Roly,Dagan Ron,Shakoor Sadia,Doiphode Sanjay,Doiphode Sanjay,Sekaran Shamala Devi,Srifuengfung Somporn,Sekaran Shamala Devi,Srifuengfung Somporn,Obaro Stephen,Clarke Stuart C,Kastrin Tamara,Ochoa Theresa J,Hryniewicz Waleria,Balaji Veeraraghavan,Urban Yulia,

Affiliation:

1. Parasites and Microbes Programme, The Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, Cambridge CB10 1SA, UK

2. Centre for Respiratory Disease and Meningitis, National Institute for Communicable Diseases, Johannesburg, South Africa

3. School of Pathology, University of the Witwatersrand, Johannesburg, South Africa

4. Malawi Liverpool Wellcome Trust Clinical Research Programme, PO Box 30096, Blantyre, Malawi

5. Institute of Infection & Global Health, University of Liverpool, Liverpool L69 7BE, UK

6. Hubert Department of Global Health, Rollins School of Public Health, Emory University, Atlanta, GA 30322, USA

7. Medical Research Council: Respiratory and Meningeal Pathogens Research Unit, University of the Witwatersrand, Johannesburg, South Africa

8. Department of Science and Technology/National Research Foundation: Vaccine Preventable Diseases, University of the Witwatersrand, Johannesburg, South Africa

9. Oxford Vaccine Group, Department of Paediatrics, University of Oxford, and the NIHR Oxford Biomedical Research Centre, Oxford OX3 9DU, UK

10. Department of Microbiology, Kempegowda Institute of Medical Sciences Hospital & Research Centre, Bangalore, India

11. Department of Microbiology, Faculty of Medicine and Pharmacy, B.P. 9154, Hassan II University of Casablanca, Casablanca, Morocco

12. Bacteriology-Virology and Hospital Hygiene Laboratory, University Hospital Centre Ibn Rochd, Casablanca, Morocco

13. NIHR Global Health Research Unit on Mucosal Pathogens, Division of Infection and Immunity, University College London, London, UK

14. WHO Collaborating Centre for New Vaccines Surveillance, Medical Research Council Unit, The Gambia at The London School of Hygiene and Tropical Medicine, Fajara, The Gambia

15. National Laboratory for Meningitis and Pneumococcal Infections, Center of Bacteriology, Institute Adolfo Lutz (IAL), São Paulo, Brazil

16. Department of Epidemiology and Clinical Microbiology, National Medicines Institute, Warsaw, Poland

17. Laboratory of Clinical Microbiology and Biotechnology, Moscow Research Institute for Epidemiology and Microbiology, Moscow, Russian Federation

18. Laboratory of Clinical and Experimental Microbiology, The Republican Research and Practical Center for Epidemiology and Microbiology, Minsk, Belarus

19. Department of Microbiology, Dhaka Shishu (Children’s) Hospital, Child Health Research Foundation, Dhaka, Bangladesh

20. Department for Public Health Microbiology, National Laboratory of Health, Environment and Food, Maribor, Slovenia

21. University of Edinburgh, The Queens Medical Research Institute, Edinburgh EH16 4TJ, UK

22. Respiratory Diseases Branch, Centers for Disease Control and Prevention, Atlanta, GA 30333, USA

23. Emory Global Health Institute, Emory University, Atlanta, GA 30322, USA

Abstract

Abstract 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.

Funder

Bill & Melinda Gates Foundation

Wellcome Sanger Institute

Wellcome

Publisher

Oxford University Press (OUP)

Subject

Infectious Diseases,Pharmacology (medical),Pharmacology,Microbiology (medical)

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