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KNAUF, S. HISGEN, L. AGREN, E. BARLOW, A. FAEHNDRICH, M. VOIGT, U. FISCHER, L. GRILLOVÁ, L. HALLMAIER-WACKER, L. KIK, M. KLINK, J. KŘENOVÁ, J. LAVAZZA, A. LUEERT, S. NOVÁKOVÁ, M. ČEJKOVÁ, D. PACIONI, C. TROGU, T. ŠMAJS, D. ROOS, C.
Original Title
High prevalence and genetic diversity of Treponema paraluisleporidarum isolates in European lagomorphs
Type
journal article in Web of Science
Language
English
Original Abstract
The bacterium Treponema paraluisleporidarum causes syphilis in lagomorphs. In a set of 1,095 samples from four species—European brown hare, mountain hare, Corsican hare, and European rabbit—we tested for infection and genotyped the strains that infect wild lagomorphs. Samples originate from Sweden, the Netherlands, the United Kingdom, Germany, the Czech Republic, and Italy. The phylogenetic analyses of two informative gene targets (tp0488 and tp0548) showed high genetic diversity among the lagomorph-infecting treponemes. More specifically, we found a high number of nucleotide variants and various short repeat units in the tp0548 locus that have not been described for human syphilis and primate yaws causing Treponema pallidum. While the functional aspect of these short repeat units remains subject to ongoing investigations, it likely enables the pathogen to better survive in its lagomorph host. Our data did not support any geographic clustering, which is equally reflected in the host population genetics as shown by mitochondrial genome data corresponding to the sampled lagomorph populations. This is unexpected and in contrast with what has been shown for nonhuman primate infection with T. pallidum. In the future, the combination of multi-locus sequence typing and whole genome data from modern and ancient samples from a wide geographic range and multiple lagomorph species will contribute to a better understanding of the epidemiology and evolutionary path of lagomorph-infecting treponemes. In conclusion, our current study demonstrates widespread infection and a high genetic variation of the syphilis-causing pathogen in a higher number of positively PCR-tested European lagomorphs (n = 302/1,095).
Keywords
spirochetes, European brown hare, Lepus, rabbit, Oryctolagus, syphilis, Treponema pallidum, one health
Authors
KNAUF, S.; HISGEN, L.; AGREN, E.; BARLOW, A.; FAEHNDRICH, M.; VOIGT, U.; FISCHER, L.; GRILLOVÁ, L.; HALLMAIER-WACKER, L.; KIK, M.; KLINK, J.; KŘENOVÁ, J.; LAVAZZA, A.; LUEERT, S.; NOVÁKOVÁ, M.; ČEJKOVÁ, D.; PACIONI, C.; TROGU, T.; ŠMAJS, D.; ROOS, C.
Released
26. 11. 2023
Publisher
American Society for Microbiology
Location
USA
ISBN
2165-0497
Periodical
Microbiology spectrum
Year of study
12
Number
1
State
United States of America
Pages count
15
URL
https://journals.asm.org/journal/spectrum
Full text in the Digital Library
http://hdl.handle.net/11012/245169
BibTex
@article{BUT185425, author="Sascha {Knauf} and Linda {Hisgen} and Erik O. {Agren} and Alexander M. {Barlow} and Marcus {Faehndrich} and Ulrich {Voigt} and Luisa {Fischer} and Linda {Grillová} and Luisa K. {Hallmaier-Wacker} and Marja J. L. {Kik} and Jana C. {Klink} and Jitka {Křenová} and Antonio {Lavazza} and Simone {Lueert} and Markéta {Nováková} and Darina {Čejková} and Carlo {Pacioni} and Tiziana {Trogu} and David {Šmajs} and Christian {Roos}", title="High prevalence and genetic diversity of Treponema paraluisleporidarum isolates in European lagomorphs", journal="Microbiology spectrum", year="2023", volume="12", number="1", pages="15", doi="10.1128/spectrum.01774-23", issn="2165-0497", url="https://journals.asm.org/journal/spectrum" }