Sixteen (1.5%) of the 1,043 clinical macrolide-resistant Streptococcus pneumoniae isolates collected and analyzed in the 1999-2000 PROTEKT (Prospective Resistant Organism Tracking and Epidemiology for the Ketolide Telithromycin) study have resistance mechanisms other than rRNA methylation or efflux. We have determined the macrolide resistance mechanisms in all 16 isolates by sequencing the L4 and L22 riboprotein genes, plus relevant segments of the four genes for 23S rRNA, and the expression of mutant rRNAs was analyzed by primer extension. Isolates from Canada (n ؍ 4), Japan (n ؍ 3), and Australia (n ؍ 1) were found to have an A2059G mutation in all four 23S rRNA alleles. The Japanese isolates additionally had a G95D mutation in riboprotein L22; all of these originated from the same collection center and were clonal. Three of the Canadian isolates were also clonal; the rest were not genetically related. Four German isolates had A2059G in one, two, and three 23S rRNA alleles and A2058G in two 23S rRNA alleles, respectively. An isolate from the United States had C2611G in three 23S rRNA alleles, one isolate from Poland had A2058G in three 23S rRNA alleles, one isolate from Turkey had A2058G in four 23S rRNA alleles, and one isolate from Canada had A2059G in two 23S rRNA alleles. Erythromycin and clindamycin resistance gradually increased with the number of A2059G alleles, whereas going from one to two mutant alleles caused sharp rises in the azithromycin, roxithromycin, and rokitamycin MICs. Comparisons of mutation dosage with rRNA expression indicates that not all alleles are equally expressed. Despite their high levels of macrolide resistance, all 16 isolates remained susceptible to the ketolide telithromycin (MICs, 0.015 to 0.25 g/ml).Macrolide, lincosamide, and streptogramin B (MLS B ) resistance in Streptococcus pneumoniae occurs either by modification of the drug-binding site or by active efflux of the drug. Target modification is usually the result of dimethylation of the adenine residue at position 2058 on the 23S rRNA by a methylase enzyme (30). In S. pneumoniae, Erm(B) [encoded by the erm(B) gene] is the enzyme mostly responsible (7, 30), although, more rarely, a methylase encoded by the erm(A) subclass erm(TR) gene is implicated (7,23).In vitro studies have demonstrated that target modification can also be achieved via mutations in domains II and V of 23S rRNA and in the genes encoding riboproteins L4 and L22 and can confer macrolide, lincosamide, streptogramin, and ketolide resistance (2, 24). Although previous reports are rare, such mutations have been found in MLS B -resistant clinical isolates (3,14,25). However, until now there have been no studies on the prevalence and epidemiology of these types of mutations in clinical isolates on a worldwide scale.PROTEKT (Prospective Resistant Organism Tracking and Epidemiology for the Ketolide Telithromycin) is a longitudinal, global, multicenter surveillance study of respiratory tract pathogens. We screened all macrolide-resistant S. pneumoniae isolat...
