A genomic appraisal of invasive Salmonella Typhimurium and associated antibiotic resistance in sub-Saharan Africa
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Published:2023-10-23
Issue:1
Volume:14
Page:
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ISSN:2041-1723
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Container-title:Nature Communications
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language:en
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Short-container-title:Nat Commun
Author:
Van Puyvelde SandraORCID, de Block Tessa, Sridhar SushmitaORCID, Bawn MattORCID, Kingsley Robert A.ORCID, Ingelbeen BrechtORCID, Beale Mathew A.ORCID, Barbé BarbaraORCID, Jeon Hyon Jin, Mbuyi-Kalonji LisetteORCID, Phoba Marie-France, Falay Dadi, Martiny Delphine, Vandenberg OlivierORCID, Affolabi Dissou, Rutanga Jean Pierre, Ceyssens Pieter-Jan, Mattheus Wesley, Cuypers Wim L.ORCID, van der Sande Marianne A. B.ORCID, Park Se EunORCID, Kariuki Simon, Otieno Kephas, Lusingu John P. A., Mbwana Joyce R.ORCID, Adjei Samuel, Sarfo Anima, Agyei Seth O., Asante Kwaku P., Otieno Walter, Otieno Lucas, Tahita Marc C.ORCID, Lompo Palpouguini, Hoffman Irving F., Mvalo TisunganeORCID, Msefula Chisomo, Hassan-Hanga Fatimah, Obaro Stephen, Mackenzie Grant, Deborggraeve Stijn, Feasey NicholasORCID, Marks FlorianORCID, MacLennan Calman A.ORCID, Thomson Nicholas R.ORCID, Jacobs JanORCID, Dougan Gordon, Kariuki SamuelORCID, Lunguya Octavie
Abstract
AbstractInvasive non-typhoidal Salmonella (iNTS) disease manifesting as bloodstream infection with high mortality is responsible for a huge public health burden in sub-Saharan Africa. Salmonella enterica serovar Typhimurium (S. Typhimurium) is the main cause of iNTS disease in Africa. By analysing whole genome sequence data from 1303 S. Typhimurium isolates originating from 19 African countries and isolated between 1979 and 2017, here we show a thorough scaled appraisal of the population structure of iNTS disease caused by S. Typhimurium across many of Africa’s most impacted countries. At least six invasive S. Typhimurium clades have already emerged, with ST313 lineage 2 or ST313-L2 driving the current pandemic. ST313-L2 likely emerged in the Democratic Republic of Congo around 1980 and further spread in the mid 1990s. We observed plasmid-borne as well as chromosomally encoded fluoroquinolone resistance underlying emergences of extensive-drug and pan-drug resistance. Our work provides an overview of the evolution of invasive S. Typhimurium disease, and can be exploited to target control measures.
Funder
Bill and Melinda Gates Foundation DH | National Institute for Health Research
Publisher
Springer Science and Business Media LLC
Subject
General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary
Reference83 articles.
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