Throat swab specimens were obtained from 3,227 children with symptoms of acute pharyngotonsillitis. After 14 to 21 days, a second throat swab specimen was obtained at a follow-up visit. Over 42% of the 934 strains of Streptococcus pyogenes isolated in the primary study were resistant to erythromycin, azithromycin, and clarithromycin. Eradication rates among the 668 patients who entered the follow-up study were as follows: 84.1%, penicillin recipients; 82.7%, cephalosporin recipients; and 71.7%, macrolide recipients. Among patients treated with macrolides, the eradication rate was approximately 80% when the infecting organisms were erythromycin-susceptible and approximately 60% when they were erythromycin-resistant. These results indicate substantial in vitro macrolide resistance among Italian isolates of S. pyogenes. However, at least for a minor self-limiting condition such as acute S. pyogenes pharyngitis, our findings point to a limited overall correlation between in vitro susceptibility (to penicillins, cephalosporins, or macrolides) and eradication in patients treated with these drugs and an even weaker correlation between in vitro resistance (to macrolides) and noneradication in patients receiving macrolide therapy.
Mosaic tetracycline resistance determinants are a recently discovered class of hybrids of ribosomal protection tet genes. They may show different patterns of mosaicism, but their final size has remained unaltered. Initially thought to be confined to a small group of anaerobic bacteria, mosaic tet genes were then found to be widespread. In the genus Streptococcus, a mosaic tet gene identified). The novel element, which we designated 15K, also carried the macrolide resistance determinant erm(B) and an aminoglycoside resistance four-gene cluster including aadE (streptomycin) and aphA (kanamycin). 15K appeared to be an unstable genetic element that, in the absence of recombinases, is capable of undergoing spontaneous excision under standard growth conditions. In the integrated form, 15K was found inside a 54,879-bp integrative and conjugative element (ICE) (50.5% G؉C; 55 ORFs), which we designated ICESsu32457. An ϳ1.3-kb segment that apparently served as the att site for excision of the unstable 15K element was identified. The novel ICE was transferable at high frequency to recipients from pathogenic Streptococcus species (S. suis, Streptococcus pyogenes, Streptococcus pneumoniae, and Streptococcus agalactiae), suggesting that the multiresistance 15K element can successfully spread within streptococcal populations.
High rates of erythromycin resistance among Streptococcus pyogenes strains have been reported in Italy in the last few years. In this study, 370 erythromycin-resistant (MIC, > or = 1 microg/mL) Italian isolates of this species obtained in 1997-1998 from throat swabs from symptomatic patients were typed by analyzing SmaI macrorestriction fragment patterns by pulsed-field gel electrophoresis (PFGE). Among the typable isolates (n = 341; the genomic DNA of the remaining 29 isolates was not restricted by SmaI), 48 distinct PFGE types were recognized, of which 31 were recorded in only one isolate (one-strain types). Fifty-two percent of typable isolates fell into three type clusters and 75% into six, suggesting that erythromycin-resistant group A streptococci circulating in Italy are polyclonal, but the majority of them probably derives from the spread of a limited number of clones. In parallel experiments, the 370 test strains were characterized for the macrolide resistance phenotype: 80 were assigned to phenotype cMLS, 89 to phenotype iMLS-A, 33 to phenotype iMLS-B, 11 to phenotype iMLS-C, and 157 to phenotype M. There was a close correlation between these phenotypic data and the genotypic results of PFGE analysis, the vast majority of the isolates assigned to individual PFGE classes belonging usually to a single phenotype of macrolide resistance. All of the 29 untypable isolates belonged to the M phenotype. Further correlations were observed with tetracycline resistance.
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