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Antimicrobial Agents and Chemotherapy, March 2006, p. 1083-1085, Vol. 50, No. 3
0066-4804/06/$08.00+0     doi:10.1128/AAC.50.3.1083-1085.2006
Copyright © 2006, American Society for Microbiology. All Rights Reserved.

Detection of Methicillin-Resistant Staphylococcus aureus Strains Resistant to Multiple Antibiotics and Carrying the Panton-Valentine Leukocidin Genes in an Algiers Hospital

Service de Microbiologie, Centre Hospitalo-Universitaire Mustapha Pacha, 16000 Algiers, Algeria,¹ Centre National de Référence des Staphylocoques, INSERM E0230, IFR62, Faculté de Médecine Laennec, 69008 Lyon, France²

Received 4 November 2005/ Returned for modification 30 November 2005/ Accepted 27 December 2005

	ABSTRACT

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Forty-five Panton-Valentine leukocidin (PVL)-positive, methicillin-resistant Staphylococcus aureus strains were isolated in Algeria between 2003 and 2004; 18 isolates were isolated in the community and 27 in a hospital. Five PVL-positive hospital isolates were resistant to multiple antibiotics, including ofloxacin and gentamicin for three isolates.

	TEXT

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First identified in the 1960s, methicillin-resistant Staphylococcus aureus (MRSA) was initially considered a nosocomial pathogen. However, in recent years, increasing numbers of MRSA strains have been isolated worldwide from patients with community-acquired infections (1, 5, 7-10, 12, 24, 28). Two main types of MRSA now circulate in the community: (i) hospital-derived strains (H-MRSA) that infect patients with risk factors such as recent hospitalization, surgery, underlying chronic diseases, or immunosuppression and (ii) strains arising de novo in the community (C-MRSA) and infecting patients with no established risk factors. C-MRSA strains tend to be susceptible to more antibiotics than H-MRSA strains, but C-MRSA strains from the United States were reported to be resistant to erythromycin and fluoroquinolones in 2005 (26). C-MRSA strains also harbor specific virulence genes associated with skin and soft-tissue infections, including the Panton-Valentine leukocidin (PVL) genes. Other virulence factors, such as superantigenic toxins, had been detected also in some C-MRSA strains (26, 28). C-MRSA strains have a small methicillin resistance cassette (SCCmec type IV or V), whereas most H-MRSA strains have a larger cassette (SCCmec type I or II) (6, 20, 24, 28).

Epidemiological data on MRSA in Africa are scarce. The prevalence of MRSA was determined in eight African countries between 1996 and 1997 and was relatively high in Nigeria, Kenya, and Cameroon (21 to 30%) and below 10% in Tunisia and Algeria (15). In Algeria, the rate increased to 14% in 2001 (25). PVL-positive C-MRSA strains are thought to circulate in Algeria, based on reports of infections in patients originating from Algeria but generally diagnosed in Europe (10, 17).

Mustapha Pacha hospital is the largest hospital in Algeria, with 1,800 beds. Between 2003 and 2004, 614 S. aureus strains were cultured and identified by the laboratory and 204 (33.2%) were found to be resistant to methicillin. Here we determined the toxin expression and genomic characteristics of 61 randomly selected MRSA strains isolated in this hospital from patients with community-acquired infections (20 cases) or hospital-acquired infections (41 cases).

Species identification was based on colony morphology and microscopic examination and on the results of the coagulase rabbit plasma and Staphyslide agglutination tests (bioMérieux). Antimicrobial susceptibility was determined by the disk diffusion method according to Clinical and Laboratory Standards Institute (formerly the National Committee for Clinical and Laboratory Standards) recommendations (21a). The mecA gene coding for methicillin resistance was detected by PCR as described elsewhere (19). The toxic shock syndrome toxin gene (tst), the PVL genes (lukS-PV and lukF-PV), and accessory gene regulator alleles (agr types 1 to 4) were detected by PCR as previously described (10, 13, 14, 18). Pulsed-field gel electrophoresis of genomic DNA was performed after SmaI digestion as previously described (10), and multilocus sequence typing was performed as described by Enright et al. (11).

The most frequently detected toxin genes were the PVL genes (45/61 isolates, 72%). The PVL genes were harbored by a major clone accounting for 44 of the 45 PVL-positive isolates. This clone had the following characteristics: sequence type 80 (ST80), agr type 3, and SCCmec type IV. The PFGE patterns of these 44 isolates showed more than 80% similarity (Fig. 1). Forty-three isolates (97.6%) were resistant to kanamycin, 38 (86%) were resistant to fusidic acid, 32 (73%) were resistant to tetracycline, 11 (25%) were resistant to erythromycin, 7 (16%) were resistant to ofloxacin, 5 (11.3%) were resistant to clindamycin, 3 (7%) were resistant to gentamicin, 2 (4.5%) were resistant to pristinamycin, 1 (2.3%) was resistant to chloramphenicol, and 1 (2.3%) was resistant to rifampin (Table 1). Another PVL-positive clone was represented by a single isolate (ST5, agr type 2, SCCmec type IVA). PVL-positive isolates caused 18 (86%) of the 21 community-acquired infections and 27 (67.5%) of the 40 hospital-acquired infections.

View larger version (28K): [in this window] [in a new window]   FIG. 1. Dendrogram of Algerian H-MRSA and C-MRSA isolates with genetic characteristics such as ST, agr allele group, toxin gene profile (PVL and tst genes), mecA gene, SCCmec typing, and PFGE patterns. Fragment sizes (in kilobases) of reference strain NCTC8325 are indicated at the bottom. SM, size markers.

PVL-positive ST80 C-MRSA strains are usually resistant to oxacillin, kanamycin, tetracycline, and fusidic acid (28), and it is particularly worrisome that we detected multidrug-resistant, PVL-positive MRSA causing hospital-acquired infections. Three of our PVL-positive MRSA isolates were resistant to both gentamicin and ofloxacin, drastically restricting treatment options. Two other PVL-positive MRSA isolates were resistant to ofloxacin but susceptible to gentamicin.

Among the C-MRSA isolates, a minor clone (ST37, agr type 3, SCCmec IVA) was detected in two patients and was found to harbor the tst gene. TSST-1-positive C-MRSA strains with an agr type 2 ST5 background have been linked to the neonatal toxic shock-like exanthematous diseases in Japan, while TSST-1-positive C-MRSA strains with an ST5 SCCmec II background have been linked to toxic shock syndrome in Belgium (16).

Five of the 13 PVL- and TSST-1-negative H-MRSA isolates were agr type 1, SCCmec type III, and ST239, ST241, or ST637. These characteristics resemble those of the Brazilian and Hungarian MRSA clones (ST239 and agr type 1). Six H-MRSA isolates were agr type 2, SCCmec type IV or IVA, and ST5, thus resembling the MRSA pediatric clone (2-4). The last two H-MRSA isolates were agr type 3, SCCmec IV, and ST80 or ST635 (a single variant of ST80). Both were PVL negative but were related to the major PVL-positive clone of ST80. As PVL is encoded by phages, these two isolates may have lost the PVL genes (21).

These results show a very high prevalence of PVL-positive MRSA in Mustapha Pacha Hospital in Algiers. These strains were resistant to multiple antibiotics, including gentamicin and ofloxacin. The treatment options in the case of multiple-antibiotic-resistant MRSA strains included cotrimoxazole or pristinamycin for minor infections and glycopeptides for severe infections. Poor infection control procedures in this institution may have enabled community-acquired ST80 MRSA to supplant true hospital-acquired MRSA (ST5, ST239, ST241, and ST637). Local physicians must be informed of the emergence of such highly virulent strains and must also be aware of their implications for empirical treatment.

	ACKNOWLEDGMENTS

 
We thank C. Courtier and C. Gardon for technical assistance and D.Young for editing the manuscript.

	FOOTNOTES

 
* Corresponding author. Mailing address: Centre National de Référence des Staphylocoques, INSERM E0230, IFR 62, Faculté de Médecine Laennec, 7 rue Guillaume Paradin, 69008 Lyon, France. Phone: 33 (0) 478 77 86 57. Fax: 33 (0) 478 77 86 58. E-mail: jetienne{at}univ-lyon1.fr.

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