Abstract
AbstractSyphilis is a sexually transmitted infection caused byTreponema pallidumsubspeciespallidumand may lead to severe complications. Recent years have seen striking increases in syphilis in many countries. Previous analyses have suggested one lineage of syphilis, SS14, may have expanded recently, indicating emergence of a single pandemic azithromycin-resistant cluster. We used direct sequencing ofT. pallidumcombined with phylogenomic analyses to show that both SS14- and Nichols-lineages are simultaneously circulating in clinically relevant populations in multiple countries. We correlate the appearance of genotypic macrolide resistance with multiple independently evolved SS14 sub-lineages and show that genotypically resistant and sensitive sub-lineages are spreading contemporaneously, incompatible with the notion that SS14-lineage expansion is driven purely by macrolide resistance. These findings inform our understanding of the current syphilis epidemic by demonstrating how macrolide resistance evolves inTreponemasubspecies and provide a warning on broader issues of antimicrobial resistance.
Publisher
Cold Spring Harbor Laboratory
Reference81 articles.
1. Brief History of Syphilis;J. Med. Life,2014
2. AIDS Mortality May Have Contributed to the Decline in Syphilis Rates in the United States in the 1990s
3. Infectious syphilis in high-income settings in the 21st century
4. Centers for Disease Control. Syphilis - 2016 STD Surveillance Report. (2017). Available at: https://www.cdc.gov/std/stats16/Syphilis.htm. (Accessed: 2nd July 2018)
5. Prevalence of HIV and syphilis infection among men who have sex with men in China: a meta-analysis;BioMed Res. Int,2014
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