Transfer of plasmid and chromosomal glycopeptide resistance determinants occurs more readily in the digestive tract of mice than in vitro and exconjugants can persist stably in vivo in the absence of glycopeptide selection

doi:10.1093/jac/dkl530

JAC Advance Access published online on February 5, 2007
Journal of Antimicrobial Chemotherapy, doi:10.1093/jac/dkl530

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© The Author 2007. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org

Transfer of plasmid and chromosomal glycopeptide resistance determinants occurs more readily in the digestive tract of mice than in vitro and exconjugants can persist stably in vivo in the absence of glycopeptide selection

Kristin Hegstad Dahl¹^,2^,*, Denis D. G. Mater³, María José Flores³, Pål Jarle Johnsen¹^,, Tore Midtvedt⁴, Gerard Corthier³ and Arnfinn Sundsfjord¹^,2

¹ Department of Microbiology and Virology, University of Tromsø, Tromsø, Norway ² Reference Centre for Detection of Antimicrobial Resistance, Department of Microbiology and Infection Control, University Hospital of North Norway, Tromsø, Norway ³ Unite d'Ecologie et de Physiologie du Systeme Digestif, INRA, Jouy en Josas, France ⁴ Laboratory of Medical Microbial Ecology, Karolinska Institutet, Stockholm, Sweden

Received 29 September 2006; returned 18 October 2006; revised 4 December 2006; accepted 6 December 2006

^* Corresponding author. Tel: +47-77-64-63-51; Fax: +47-77-64-53-50; E-mail: kristind{at}fagmed.uit.no

OBJECTIVES AND METHODS: The transferability of vanA and vanB glycopeptide resistancedeterminants with a defined plasmid (n = 9) or chromosomal (n= 4) location between Enterococcus faecium strains of humanand animal origins was compared using filter mating (in vitro)and germ-free mice (in vivo) as experimental models. Moreover,the stability of exconjugants in vivo in the absence of antibioticselection was examined.

RESULTS: Higher transfer rates were observed in vivo for four of sixvanA and five of six vanB donor strains. For plasmid-encodedresistance, several log higher transfer frequencies were observedin vivo for some strains. Moreover, the in vivo model supportedtransfer of plasmid-encoded vanB (1 x 10^–7 exconjugants/donor)when repeated in vitro experiments were negative (estimated< 1 x 10^–9 exconjugants/donor). Readily detectabletransfer of plasmid-located vanA and vanB as well as large chromosomal(>200 kb) vanB elements was observed after 24 h.The number of plasmid-mediated vanA exconjugants generally decreasedmarkedly after 3 days. However, exconjugants containinga plasmid harbouring the vanA transposon Tn1546 linked to thepost-segregational killing system ${omega}$ - ${varepsilon}$ - ${zeta}$ persisted stably in vivoin the absence of glycopeptides for more than 20 days.

CONCLUSIONS: The overall results support the notion that the in vitro modelunderestimates the transfer potential. Rapid transfer of vanAplasmids from poultry- and pig-derived strains to human faecalE. faecium shows that even transiently colonizing strains mayprovide a significant reservoir for transfer of resistance genesto the permanent commensal flora. Newly acquired resistancegenes may be stabilized and persist in new populations in theabsence of antibiotic selection.

Key Words: vanA , vanB , vancomycin , Enterococcus

Present address: Department of Pharmacology, University of Tromsø, Tromsø, Norway

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