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Journal of Clinical Microbiology, October 2003, p. 4906, Vol. 41, No. 10
0095-1137/03/$08.00+0     DOI: 10.1128/JCM.41.10.4906.2003
Copyright © 2003, American Society for Microbiology. All Rights Reserved.

LETTERS TO THE EDITOR

Macrolide Resistance in Streptococcus pneumoniae Strains Collected in the Far East of Russia from 2000 to 2002

Top Letter References

 
The last decade was noted for the emergence and prevalence of antimicrobial agent-resistant pneumococci. Strains resistant to macrolides, chloramphenicol, and tetracycline have been registered in a number of countries (1). In some regions, resistance to macrolides prevails over the resistance to penicillin. Macrolide resistance has been reported to be high among pneumococci in Asian countries (4), but the distribution of these macrolide resistance determinants is not known.

The incidence of erythromycin-resistant strains among Streptococcus pneumoniae isolates in such a large territory as the Far East of Russia was approximately 5% until the early 1990s, but nowadays erythromycin-resistant strains have been greatly increasing (5). Because macrolides are frequently used as first-line treatment for infections of lower respiratory tract in the Far East of Russia and the use of these agents has been associated with an increase in resistance rates, it was extremely important to investigate macrolide resistance rate in our area.

The main aim of our investigation was to estimate the macrolide-resistance rate in isolates of S. pneumoniae. In our investigation, we had studied macrolide resistance of S. pneumoniae strains derived from young patients with community-acquired pneumonia at the Far East of Russia. A total of 134 nonduplicate isolates of S. pneumoniae collected from 2000 to 2002 in the Far East were evaluated with the common NCCLS-recommended standards (2).

MICs of penicillin, erythromycin, clarithromycin, and clindamycin were determined by the agar dilution method (2). Inocula of 10⁴ CFU/spot were incubated at 35°C for 18 h on Mueller-Hinton agar supplemented with 5% defibrinated horse blood. According to NCCLS criteria, strains were considered erythromycin resistant if an inhibition zone of <15 mm was found using a 15-µg erythromycin disk (bioMérieux, Marcy l'Étoile, France). S. pneumoniae ATCC 49619 was included as controls. MIC induction tests were performed by determining the MICs of macrolide antibiotics without and with preexposure to 0.05 µg of erythromycin per ml (6). Conserved primer sets were chosen to amplify a 640-bp fragment of the erm methylase genes as follows: ermA, 5'-TCTAAAAAGCATGTAAAAGAA-3' and 5'-CTTCGATAGTTTATTAATATTAGT-3'; ermB, 5'-GAAAAGGGTACTCAACCAAATA-3' and 5'GTAACGGTACTTAAATTGTTTAC-3'. A 1.2-kb fragment of the mef E gene in S. pneumoniae was amplified using primer pair 5'-GAAAAATACAACAATTGGAAAC-3' and 5'-AATCTAATTTTCTAACCTCA-3'. PCRs were performed on the OmniGene DNA thermal cycler (Hybaid) using an initial denaturation at 94°C for 5 min followed by 35 cycles of amplification at 94°C for 30s, 50°C for 30 s, and 72°C for 90 s. A final elongation step was performed at 72°C for a further 7 min (3).

A total of 35.82% (48 of 134 strains) of the S. pneumoniae strains were resistant to erythromycin with a MIC of 1.0µg/ml. Of these, 31.25% (15of 48) showed an MLS_B phenotype with erythromycin and clindamycin 50% MICs (MIC₅₀s) and MIC₉₀s of >64 µg/ml; 66.6% (32 of 48) showed resistance to erythromycin alone (M phenotype), with a MIC₅₀ and MIC₉₀ of 8.0 µg/ml. One isolate was postive with both ermB and mefE primers.

Of the isolates expressing the MLS_B phenotype, only the ermB gene was detected in 86.63% (13 strains of 15) of the isolates by PCR. Two isolates were repeatedly negative on testing for ermB but were positive for ermA gene. All the isolates expressing the M phenotype were positive for the mefE gene by PCR. The majority of the M-phenotype strains (84.37%, or 27 of 32) had constitutive resistance (cML phenotype); only 15.625% of these strains had inducible resistance (iML phenotype).

Before 2000, it was recorded (5) that among the erythromycin-resistant S. pneumoniae isolates, the majority (78%) had an ML phenotype and 22% had an M phenotype. All S. pneumoniae isolates exhibiting a cML or iML phenotype harbored the ermB gene.

Thus, the study indicated a high percentage of erythromycin resistance among clinical isolates of S. pneumoniae in the Far East of Russia; this fact requires a more careful approach to diagnostics of macrolide resistance in pneumococci in the clinical microbiology laboratory, particularly in areas with high rates of macrolide resistance.

 
We gratefully acknowledge the assistance of the Navy Vladivostok Hospital in supplying the control strains of S. pneumoniae 49619.

Top Letter References

 

1
1. Descheemaeker, P., S. Chapelle, C. Lammens, M. Hauchecorne, M. Wijdooghe, P. Vandamme, M. Ieven, and H. Goossens. 2000. Macrolide resistance and erythromycin resistance determinants among Belgian Streptococcus pyogenes and Streptococcus pneumoniae isolates. J. Antimicrob. Chemother. 45:167-173.[Abstract/Free Full Text]
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2. National Committee for Clinical Laboratory Standards. 1998. Performance standards for antimicrobial susceptibility testing, 8th informational supplement, M100-S8, 5th ed. National Committee for Clinical Laboratory Standards, Villanova, Pa.
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3. Seppala, H., A. Nissinen, Q. Yu, and P. Huovinen. 1993. Three different phenotypes of erythromycin-resistant Streptococcus pyogenes in Finland. J. Antimicrob. Chemother. 32:885-891.[Free Full Text]
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4. Song, J. H., N. Y. Lee, S. Ichiyama, R. Yoshida, Y. Hirakata, W. Fu, A. Chongthaleong, N. Aswapokee, C. H. Chiu, M. K. Lalitha, K. Thomas, J. Perera, T. T. Yee, F. Jamai, U. C. Warsa, B. X. Vinh, M. R. Jacobs, P. C. Appelbaum, C. H. Pai, and the ANSORP Study Group. 1999. Spread of drug-resistant Streptococcus pneumoniae in Asian countries: Asian Network for Surveillance of Resistant Pathogens (ANSORP) Study. Clin. Infect. Dis. 28:1206-1211.[Medline]
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5. Turcutyuicov, V. 1999. 1998-1999 results of S. pneumoniae strains antimicrobial resistance testing in the Far East of Russia. Far Eastern J. Med. 123:145-146.
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6. Weisblum, B. 1985. Inducible resistance to macrolides, lincosamides and streptogramin type B antibiotics: the resistance phenotype, its biological diversity, and structural elements that regulate expression—a review. J. Antimicrob. Chemother. 16(Suppl. A):63-90.

						Alina V. Martynova* Department of Epidemiology Vyacheslav B. Turcutyuicov Department of Clinical Microbiology Vladivostok State Medical University Ostryakova 2 690650 Vladivostok, Russia
						* Phone: 7-(4232)-42-96-32Fax: 7-(4232)-42-17-19E-mail: clinmicro{at}yandex.ru

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Journal of Clinical Microbiology, October 2003, p. 4906, Vol. 41, No. 10
0095-1137/03/$08.00+0     DOI: 10.1128/JCM.41.10.4906.2003
Copyright © 2003, American Society for Microbiology. All Rights Reserved.

This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Reprints and Permissions Copyright Information Books from ASM Press MicrobeWorld Citing Articles Citing Articles via Google Scholar Google Scholar Articles by Martynova, A. V. Articles by Turcutyuicov, V. B. Search for Related Content PubMed PubMed Citation Articles by Martynova, A. V. Articles by Turcutyuicov, V. B.