Transfer of Tn5385, a composite, multiresistance chromosomal element from Enterococcus faecalis.

Tn5385 is a ca. 65-kb element integrated into the chromosomes of clinical Enterococcus faecalis strains CH19 and CH116. It confers resistance to erythromycin, gentamicin, mercuric chloride, streptomycin, tetracycline-minocycline, and penicillin via beta-lactamase production. Tn5385 is a composite structure containing regions previously found in staphylococcal and enterococcal plasmids. Several transposons and transposon-like elements within Tn5385 have been identified, including conjugative transposon Tn5381, composite transposon Tn5384, and elements indistinguishable from staphylococcal transposons Tn4001 and Tn552. The divergent regions of Tn5385 are linked by a series of insertion sequence (IS) elements (IS256, IS257, and IS1216) of staphylococcal and enterococcal origin. The ends of Tn5385 consist of directly repeated copies of enterococcal IS1216. Within the chromosomes of strains CH19 and CH116, Tn5385 has interrupted an open reading frame with substantial homology to previously described alkyl hydrogen peroxide reductase genes. Segments of this open reading frame in both CH19 and CH116 have been deleted, but the amount of deleted DNA differs for the two insertions. Transfer of Tn5385 from both donors into E. faecalis recipients occurs at a low frequency. Two types of transconjugants have been identified. In one type, the target alkyl hydrogen peroxide reductase open reading frame has been deleted, and sequences flanking Tn5385 in the respective donors are carried over to the transconjugants. These data suggest that the mechanism of Tn5385 insertion into the recipient chromosome in these transconjugants was recombination across flanking regions in the donors and homologous sequences in the recipients. The second type of transconjugant appears to have resulted from excision of Tn5385 from the CH19 chromosome by recombination across the terminal IS1216 elements and insertion into the recipient chromosome by recombination across Tn5381 (within Tn5385) and a previously transferred Tn5381 copy in the recipient chromosome. These data confirm that Tn5385 is a composite structure with genetic material from diverse genera and suggest that it is a functional transposon. They also suggest that chromosomal recombination is a mechanism of genetic exchange in enterococci.