All the mutants obtained in this study exhibited significantly decreased susceptibility APO866 supplier to lincomycin (MICs ≥512 μg mL−1), chloramphenicol (MICs ≥64 μg mL−1) and florfenicol (MICs ≥512 μg mL−1), and three mutants (mutants PV10, ST7 and SV10) showed cross-resistance to erythromycin (MICs ≥256 μg mL−1), tilmicosin (MICs ≥256 μg mL−1) and tylosin (MICs ≥16 μg mL−1). The three subcultured clones were analyzed by amplification and sequencing of the domain V of 23S rRNA gene and ribosome protein L3. Nucleotide
sequences were always identical for the three clones. As mutations in ribosome protein L3 are responsible for decreased pleuromutilin susceptibility in several bacteria species (Bøsling et al., 2003; Pringle et al., 2004; Kosowska-Shick et al., 2006; Gentry et al., 2007), we first examined the sequences of ribosome protein L3 for the mutants selected in this study. None of these mutants were found to possess ribosome Selleckchem CDK inhibitor protein L3 mutations. Several mutations were found in domain V of 23S rRNA gene. Although M. gallisepticum contains two copies of the 23S rRNA gene, mutations were always present in only one of the two 23S rRNA gene
alleles (Table 2). All the mutants with decreased susceptibility to tiamulin and valnemulin possessed the A2503U mutation in 23S rRNA gene. Of these mutants, four (mutants PT3, ST3, PV4 and SV4) harbored the A2503U mutation in 23S rRNA gene and did not have any other alterations. The MICs of tiamulin (MICs=0.5–1 μg mL−1) and valnemulin (MICs=0.032–0.063 μg mL−1) for these mutants showed a significant increase in comparison with those for the parental strains. Combinations of two or three mutations were selected in this study. Mutant PT10 possessed the A2503U mutation and an additional G2061U mutation in 23S rRNA gene. The MICs of tiamulin and valnemulin selleck chemical for this mutant increased to 8 and 0.25 μg mL−1, respectively.
Mutants ST10 and SV7 possessed the A2503U mutation and an additional G2447A mutation. For both mutants, this combination of two mutations led to an increase in the MICs of tiamulin and valnemulin to 32 and 8 μg mL−1, respectively. In addition to the A2503U mutation, an A2058G mutation and an A2059G mutation were found in mutants PV10 and ST7, respectively. Both mutants exhibited significantly decreased susceptibility not only to tiamulin and valnemulin but also to macrolide antibiotics erythromycin, tylosin and tilmicosin (Table 2). The latter cross-resistance phenotype may be due to the presence of the A2058G mutation (mutant PV10) and the A2059G mutation (mutant ST7).