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ORIGINAL ARTICLE BACTERIOLOGY Molecular analysis of community-acquired methicillin-susceptible and resistant Staphylococcus aureus isolates recovered from bacteraemic and osteomyelitis infections in children from Tunisia A. Kechrid 1,M.Pérez-Vázquez 2, H. Smaoui 1, D. Hariga 1, M. Rodríguez-Baños 3, A. Vindel 2, F. Baquero 3, R. Cantón 3 and R. del Campo 3 1) Laboratoire de Microbiologie, Hôpital d Enfants de Tunis, Tunis, Tunisia, 2) Servicio de Bacteriología, Centro Nacional de Microbiología, Instituto de Salud Carlos III, Madrid and 3) Servicio de Microbiología and CIBER en Epidemiología y Salud Pública (CIBERESP), Hospital Universitario Ramón y Cajal and Instituto Ramón y Cajal de Investigaciones Sanitarias (IRYCIS), Madrid, Spain Abstract Thirty-six children (27 boys, nine girls) that fulfilled CDC criteria for community-acquired infections were diagnosed with bacteraemia and/or osteomyelitis caused by Staphylococcus aureus during an 18-month period (2006 2008). Antibiotic susceptibility was determined by an agar dilution method. SCCmec type, carriage of pvl genes, agr type and spa-typing were determined using specific PCR protocols. Clonal relatedness was examined by pulsed field gel electrophoresis-smai and mutilocus sequence typing techniques. From the 36 isolates, eight (22%) corresponded to methicillin-resistant Staphylococcus aureus (MRSA) -t044/042-cc80/cc5-ivc-pvl + -agriii/ii. The highest genetic diversity was observed among the 28 community-acquired methicillin-susceptible S. aureus (CA-MSSA) isolates: 22 spa-variants that also grouped by multilocus sequence typing in CC1, CC5, CC6, CC8, CC30, CC80, CC97 and the singletons ST464, ST1467, ST1468 and ST1469. The pvl genes were detected in all eight CA-MRSA isolates and in eight CA-MSSA isolates (28%), being significantly more frequent among isolates causing osteoarticular infection (11 of 12, 92%) than in the bacteraemic isolates (six of 24, 25%). Based on patients age, three groups were considered: newborns, infants and children. Bacteraemia was diagnosed in all newborns and infants, whereas in 42% of the children group osteomyelitis was the unique presentation. In most cases, the portal of entry was either the skin or unknown. In general, favourable outcome was observed, except in four cases three of whom had severe complications and one died. In summary, we analysed the epidemiological and genetic background of community-acquired staphylococcal strains causing bacteraemic and/or osteomyelitis infections in children from Tunisia, describing three new sequence types and one novel spa type. Keywords: Bacteraemia, clinical evolution, multilocus sequence typing, osteomyelitis, pvl, spa-typing Original Submission: 25 May 2010; Revised Submission: 28 July 2010; Accepted: 30 August 2010 Editor: G. Lina Article published online: 6 September 2010 Clin Microbiol Infect 2011; 17: 1020 1026 10.1111/j.1469-0691.2010.03367.x Corresponding author: R. del Campo, Servicio de Microbiología Hospital Universitario Ramón y Cajal, Ctra Colmenar, Km 9.1, Madrid 28034, Spain E-mail: rosacampo@yahoo.com Introduction Infections caused by community-acquired Staphylococcus aureus, particularly methicillin-resistant, are increasing worldwide. An important characteristic of these isolates is their constant evolution to adapt virulence traits so continuous surveillance is needed [1]. Most of the community-acquired methicillin-resistant S. aureus (CA-MRSA) infections usually present minor severity. However, serious manifestations with major clinical relevance, most of them linked to the presence of the pvl genes, including necrotizing fasciitis, pyomyositis, osteoarticular infections and pneumonia, have been described. CA-MRSA has replaced its methicillinsusceptible S. aureus (CA-MSSA) counterpart as the major cause of skin and soft tissue infections [2 4]. Additionally, the presence of the pvl genes among isolates causing acute osteomyelitis in children has been related to high inflammatory responses [5]. CA-MRSA usually has a particular epidemiology, the most successful lineage being USA300 [1]. Different studies have analysed the epidemiology of invasive infections caused by CA-MRSA, especially in developed countries, but few of Clinical Microbiology and Infection ª2010 European Society of Clinical Microbiology and Infectious Diseases

CMI Kechrid et al. Invasive CA-S. aureus in Tunisian children 1021 them focused on CA-MSSA despite this variant being possibly be more invasive [6,7]. A replacement in the CA-MSSA-pvl + lineages has been described [7]. Tunisia has one of the lowest rates of MRSA prevalence among Mediterranean countries, where the rate is generally high [8]. However, in our Children s Hospital of Tunis (Tunisia), S. aureus is the major pathogen (52%) causing bacteraemia and osteoarticular infections in previously healthy children (Hariga D, Smaoui H, Bouziri A, Hôpital d Enfants de Tunis; Trifa M., Bouchoucha S., Smaoui H., Kechrid A., Microbiologic profile of acute hematogenous osteoarticular infections in children submitted for publication). The aim of this work was to establish the epidemiology of both CA-MRSA and CA-MSSA isolates causing bacteraemia or osteomyelitis in children from Tunisia, and to characterize the genetic background of these isolates. Material and Methods Bacterial strains Thirty-six consecutive S. aureus isolates recovered from children with community-acquired invasive infection (September 2006 March 2008) attending the Children s Hospital of Tunis (Tunisia) were included (Table 1). This centre is a public, teaching hospital for paediatric patients, providing tertiary care for Tunis and surrounding areas. The hospital has 322 beds, admitting patients of all ages. In 2008 the paediatric population served by our hospital was 576 000, and during the period of the study the number of patients admitted to our institution was 30539. Clinical and epidemiological data were prospectively obtained. Infections were classified as community-acquired following the CDC criteria, i.e. detection TABLE 1. Characteristics of newborns, infants and children, infection site, antibiotic treatment and staphylococcal strains included in this study MLST (CC-ST) spa-typing (CC-t) PFGE Strain mec agr pvl Resistance Age Sex Portal of entry a Infection Treatment Outcome b Newborns CC80-ST728 CC359/224- t2883 7 9235 I ) 36 days Male B Cf CC80-ST728 CC359/224-t189 7 664 I ) 52 days Male B Cf+Gm CC80-ST728 CC359/224-t044 1b 19 201 IVc III + Km 58 days Male Skin B Ox+Gm ST464 CC359/224-t224 21 621 I ) Km 10 days Male B Ox+Gm CC5-ST8 CC062-t062 2 1287 IVc II + Te, Tb 4 days Male B Tc+Gm CC5-ST5 Singleton-t311 17 18 343 II ) Te, Er 34 days Male Auricular B A/C Infants CC80- ST728 CC359/224-t044 1a 10032 IVc III + Te 8 months Male B Vc+Gm Surgery CC80- ST728 CC359/224-t044 25 17489 III + 1 year Male B Ox+Gm CC80- ST728 CC359/224-t044 25 24422 III + Rf 2 years Male Skin B Ox+Gm CC1-ST1 Singleton-t127 13 15189 III ) Er 5 months Male B Ox+Gm CC1-ST199 t605 c 15 7987 II ) Er 2 years Male B Ox+Gm Dead CC30-ST30 CC318-t318 3 18609 III + 4 months Male Respiratory B Ox+Gm CC6-ST932 Cluster 4-t701 8 11632 I ) 5 months Male Skin B Ox+Gm ST1469 c Singleton-t903 11 15631 II + 2 years Male B+O Hip Ox+Gm ST1468 c Singleton-t2313 14 10282 I ) 2 years Female B+O Tibia Fo+Cf Children CC80-ST728 CC359/224-t042 1a 17366 IVc III + 8 years Male O Tibia Tc+Gm CC80-ST728 CC359/224-t044 1a 4931 IVc III + Er, Km 13 years Female O Tibia-Femur Tc+Py Necrosis femur CC80-ST728 CC359/224-t044 1c 13452 IVc III + Km 14 years Male B+O Tc+Gm CC80-ST728 CC359/224-t044 1d 1109 IVc III + Km 11 years Male O Ankle Tc+Py CC80-ST728 CC359/224-t044 1e 19913 IVc III + Er, Km 8 years Male O Tc+Gm CC80-ST728 Singleton t1951-4 10198 III + 11 years Female O Femur Ox+Gm CC1-ST772 CC318-t3634 5 315 III + 10 years Male O Femur Ox+Gm Sepsis CC1-ST772 CC318-t113 5 18242 III + Te 10 years Female O Tibia Ox+Gm CC1-ST772 CC318-t021 5 23522 III + 7 years Male O Femur Ox+Gm Chronic O CC1-ST1 Singleton-t127 10 23617 III ) 5 years Male Respiratory B Ox+Gm CC5-ST5 CC062-t5427 16 7141 II ) 8 years Male B Ox+Gm CC5-ST5 CC062-t688 12 15459 II ) Te, Cl 10 years Male Skin B A/C CC5-ST125 Singleton-t067 24 10015 III ) 13 years Male B Ox+Gm CC6-ST932 Cluster 4-t701 23 3410 I ) Er 3 years Female Skin B Ox+Gm CC6-ST932 Cluster 4-t701 22 6354 I ) 11 years Female B Cf+Gm Cardiopathy CC8-ST8 Singleton-t1705 19 412 I ) 6 years Female Skin B Ox+Gm CC8-ST770 Singleton-t068 19 2140 I ) Te 3 years Female Urinary B Cf+Fo CC30-ST30 CC318-t021 6 1718 III ) Er 4 years Male Skin O Hip Ox+Gm CC30-ST30 CC318-t021 6 2140 III ) Te, Er 11 years Female Respiratory B Ox+Gm CC97-ST97 CC359/224-t359 20 1016 I ) Er 11 years Male B Ox+Gm ST1467 c Cluster 4-t304 18 199 I ) Er 5 years Male Skin abscess B Ox-Gm MLST, multilocus sequence typing; PFGE, pulsed field electrophoresis; CC, clonal complex; B, bacteraemia; O, osteomyelitis; Ox, oxacillin; Gm, gentamicin; Tc, teicoplanin; Cf, cefotaxime; Vc, vancomycin; A/C, amoxicillin/clavulanate; Fo, fosfomycin; Py, pristinamycin; Km, kanamycin; Te, tetracycline; Er, erythromycin; Tb, tobramycin; Cl, chloramphenicol. a Only known portals are described. b Only non-favourable outcome is reported. c Newly described.

1022 Clinical Microbiology and Infection, Volume 17 Number 7, July 2011 CMI of the infection within 48 h of admission and the absence of contact with hospitals in the last 6 months, except for the newborns, (http://www.cdc.gov/mrsa/index.html). Antimicrobial susceptibility testing Susceptibility to oxacillin, clindamycin, kanamycin, tobramycin, gentamicin, vancomycin, erythromycin, pristinamycin, quinupristin/dalfopristin, rifampin, tetracycline, ciprofloxacin, chloramphenicol and linezolid was determined by the agar dilution method following the CLSI guidelines [9]. Additionally, methicillin-resistance was also confirmed using both 30 lg cefoxitin and 1 lg oxacillin discs (Oxoid Ltd, Basingstoke, UK) on Mueller Hinton agar (Difco, Detroit, MI, USA) supplemented with both 4% NaCl and 6 lg/ml oxacillin [10]. b-lactamase production was tested by nitrocefin disks (BD Biosciences, Franklin Lakes, NJ, USA) after induction with penicillin [11]. American Type Culture Collection (ATCC) MRSA 49775 and MSSA 25923 strains were included as controls. SCCmec typing, pvl detection and agr typing A multiplex PCR scheme was used to determine SCCmec type, according to a previously described method [12]. Additional typing of the isolates was performed using two different PCR methods to detect SCCmec-IV subtypes IVa, IVb, IVc, IVd and IVh [13], and SCCmec type V [14]. Presence of pvl genes was confirmed by specific PCR [15] using the MRSA ATCC 49775 strain as positive control. The scheme described by Shopsin et al. [16] was used to determine the specific agr types. DNA sequencing of the spa gene The polymorphic X region of the protein A-coding gene (spa) was amplified from all isolates, as described previously [17]. Nucleotide sequences were analysed using the software RIDOM STAPHTYPE (Ridom GmbH, Würzburg, Germany) as described by Harmsen et al. [18]. The BURP ( Based Upon Repeat Patterns ) algorithm, as implemented in the RIDOM STPAHTYPE software, was used to cluster spa types in spa- Clonal Complex (CC) spa [19]. Clonal relatedness Pulsed field gel electrophoresis (PFGE) was applied to analyse genetic relatedness of all isolates using a CHEF DR-III apparatus (Bio-Rad, Birmingham, UK) with the Lambda Ladder PFGE Marker (New England Biolabs Inc., Beverly, MA, USA) with SmaI digestion and the HARMONY protocol [20]. Macrorestriction fragments were compared and interpreted both visually and with the PHORETRIX 5.0 software, using the Dice coefficient for the dendrogram construction and clone definition. All isolates were analysed by multilocus sequence typing (MLST) (http://www.mlst.net) and the results obtained were also analysed using the EBURST software. Statistical analysis Chi-square test was applied, and p values 0.05 were considered as significant. Results Epidemiological and clinical characteristics From September 2006 to March 2008 a total of 36 previously healthy children (27 boys and nine girls) attended our Hospital because of invasive infections caused by CA-S. aureus. Taking into account their ages, three different groups were considered: newborns (up to 2 months, n = 6), infants (from 2 months to 2 years, n = 9) and children (from 2 years to 14 years, n = 21) (Table 1). The average age of the six newborns was 32 days (from 4 days to 58 days), and all of them were boys who displayed an episode of bacteraemia that favourably evolved after antibiotic treatment (Table 1). Among the six isolates recovered, CC80 (two MSSA and one MRSA), CC5 (one MSSA and one MRSA), and the singleton ST464 were identified. Different spa types were detected in the six isolates, suggesting unrelated sources. Seven infants were diagnosed with bacteraemia and another two had bacteraemia plus osteomyelitis. The average age of this group was 1 year and 2 months (from 4 months to 2 years). Favourable outcome was obtained after antibiotic treatment except in two cases: a 2-year-old toddler died (MSSA-t605-ST199-pvl ) ), and an 8-month-old infant needed surgery (MRSA-t044-ST728-CC80-IVc-pvl + ). In this group, three ST728 isolates showing a unique t044 spa type but with differences in pvl or SCCmec carriage, as well as in the pulsotype or in the resistance pattern, were detected. In the children group (n = 21), the average age was 8.6 years. Eleven suffered a bacteraemic infection, nine had osteomyelitis in their lower extremities and one presented with both bacteraemia and osteomyelitis. The skin was the most common portal of entry. The MRSA-t044/t042-ST728- CC80-IVc-pvl + isolates were identified in five cases; whereas in the MSSA isolates, pvl genes were present in four of 16 isolates (Table 1). Clinical outcome was observed in all but four cases (in which three MSSA (two of them pvl + ) and one MRSA were involved).

CMI Kechrid et al. Invasive CA-S. aureus in Tunisian children 1023 Statistically significant proportions of boys (p 0.001) were recorded in the newborns (all six were boys), infants (eight of nine were boys) and children (13 of 21 were boys). Antimicrobial susceptibility testing From the 36 isolates, eight (22%) were resistant to oxacillin (both by the agar dilution method in Mueller Hinton agar supplemented with 4% NaCl plus 6 lg/ml oxacillin and by cefoxitin/oxacillin discs) and for MSSA isolates MICs varied from 0.125 to 1 lg/ml. All CA-MRSA isolates showed a positive reaction for the b-lactamase test, whereas negative results were obtained in the MSSA isolates. MIC results from the agar dilution method showed that all isolates were susceptible to vancomycin ( 1 lg/ml), ciprofloxacin, gentamicin, linezolid ( 2 lg/ml) and quinupristin/dalfopristin. Detection of meca gene, SCCmec typing, agr type and pvl carriage After susceptibility results, all MRSA isolates (n = 8) harboured both meca and pvl genes and their SCCmec corresponded to type IVc. The great majority of the MRSA isolates (seven of eight) had the agr type III but differences in their pulsotype or in the antibiotic-resistance patterns were observed; two spa variants were detected, the most frequent being t044. One strain presented the agr type II (Table 1). Among the 28 MSSA isolates, agr type III was also the most prevalent (n = 12, 43%), followed by type I (n = 11, 38%) and finally agr type II (n = 5, 17%). On the other hand, pvl genes were detected in eight isolates (28%). Taking into account all isolates, detection of pvl genes was significantly more frequent among isolates causing osteoarticular infection (ten of 12, 83%) than in those of bacteraemic origin (six of 24, 25%) (p 0.001). spa-typing and BURP analysis All isolates were successfully spa-typed, although in one isolate fewer than five repeats were detected so this isolate was excluded from the analysis. A higher diversity in the spa types (21 types among 28 isolates) was detected for the MSSA isolates than for the MRSA isolates (three types among eight isolates). All isolates were grouped into four clusters: Cluster 1, spa-cc359/224 (13 isolates: seven MRSA and six MSSA, 36%) with six spa types the predominant one being t044; Cluster 2, spa-cc318 (six MSSA isolates, 17%) with four spa types; Cluster 3, spa-cc062 (three spa types, two MSSA and one MRSA isolates, 8%) and Cluster 4 with no founder identified (two spa types, four MSSA isolates, 11%) and eight singletons. The t5427 spa type detected in the MSSA-CC5 isolate has not been previously reported (Fig. 1). Clonal relatedness Two PFGE patterns were detected among the eight MRSA isolates, one of them presenting five highly related subtypes (1a, 1b, 1c, 1d and 1e). The 28 MSSA isolates were classified into 23 different pulsotypes and only three of them grouped as more than one isolate, suggesting a high genetic diversity. ST728-CC80 grouped 12 isolates with four pulsotypes and six spa variants. Other less represented lineages were CC1 (six isolates), CC5 (five isolates), CC30 (three isolates) and CC6 (three isolates) including different PFGE and spa types. Three MSSA isolates presented an allelic combination not previously reported and were registered in the MLST 0.01 Cluster 4 t701 no founder 3 isolates t304 no founder t1705 singleton t068 singleton t3634 CC318 t1130 CC318 t318 CC318 t021 CC318 3 isolates Cluster 2 FIG. 1. Distribution of spa types detected in isolated invasive communityacquired methicillin-susceptible (CA-MSSA; n = 28) and community-acquired methicillin-resistant (CA-MRSA; n = 8) Staphylococcus aureus causing invasive infection in children from Tunisia ( Based Upon Repeat Patterns (BURP) analysis). One isolate presented fewer than five repeats and was deleted from the BURP analysis. t2313 singleton t067 singleton t311 singleton t688 CC062 t062 CC062 MRSA t5427 CC062 Cluster 3 t903 singleton t1951 singleton t127 singleton 2 isolates t224 CC359/224 t359 CC359/224 t189 CC359/224 t2883 CC359/224 t042 CC359/224 MRSA t044 CC359/224 8 isolates (6 MRSA) Cluster 1

1024 Clinical Microbiology and Infection, Volume 17 Number 7, July 2011 CMI database as ST1467, ST1468 and ST1469 (http://saureus.mlst.net/). Discussion Considerable epidemiological differences in the isolates causing staphylococcal infections have been demonstrated in numerous studies, mostly focused on those from developed countries. The source of the infection is one of the most important factors of divergence: i.e. of hospital or community origin. CA-MRSA is increasing worldwide, particularly associated with more virulence and effectiveness in host-tohost transmission [1] and recent replacements in the genetic lineages have been reported [7]. Prevalence of severe invasive infections caused by CA-S. aureus in children is also increasing in our Paediatrics Hospital in Tunis (Hariga D, Smaoui H, Bouziri A, Kechrid A, Hôpital d Enfants de Tunis, submitted for publication). Nasal carriage of S. aureus in children of our region was 47.8%, only 1% corresponding to MRSA (Zouari A, Smaoui H, Hajji N, Chahed M, Kechrid A, Hôpital d Enfants de Tunis, submitted for publication). The objective of this work was to analyse the epidemiological and molecular features of these invasive isolates. During 19 months, we attended 36 children with S. aureus infections that fulfilled the CDC criteria for communityacquired infection (1.8 cases per month). Based on their different ages, we considered three groups: newborns, infants and children. The source of infective S. aureus strains in the newborns could be related to their family contacts, whereas in the case of infants and children a great variety of sources must be considered, including environment and traumatic injuries. Bacteraemia was diagnosed in all newborns and infants, whereas in 42% of the children group osteomyelitis was the unique clinical presentation. Doit et al. have recently published the epidemiological features of paediatric community-acquired bloodstream infections in France, demonstrating that S. aureus is the most frequent aetiological agent in children older than 5 years; the isolates without pvl being the most commonly detected [21]. In another study, S. aureus remained the prevalent organism causing acute osteomyelitis in children, with an increasing occurrence of MRSA isolates [22]. In addition, association of S. aureus infections with musculoskeletal complications has been described [23 25]. Significant association between CA-S. aureus and boys was observed in this study, particularly in newborns and infants. This specific gender association for staphylococcal infections has been previously described by Sdougkos et al. [26]. In most cases, the portal of entry was unknown or was attributed to skin injuries. In three cases, a respiratory focus was recorded. Ear and urinary tract were described as other sources. It is important to consider differences in age because toddlers have more chances to suffer traumatic injuries and to have contact with contaminated surfaces. We found a high prevalence of pvl genes among both the MRSA (all eight isolates) and the MSSA (eight of 28; 28.5%) isolates. This virulence factor has been described in Tunisian strains associated with agr type II; although type III was the most prevalent among the Tunisian MRSA strains [27]. In our collection, pvl + strains were mostly linked to agr type III (13 out of 15 strains) whereas two strains had the agr type II. The agr type IV, which is common among exfoliatin-producing strains [28], was not identified in our population. In general, a favourable outcome was observed in patients infected with MSSA isolates. Nevertheless, in four cases, two of them pvl +, severe complications were observed, and one 2-year-old infant died as a consequence of his MSSA infection. All but one were treated with antibiotic combinations, the most frequent being oxacillin plus gentamicin. For MRSA isolates, a glycopeptide plus gentamicin or pristinamycin were used. In the case of MRSA isolates, it has been shown that oxacillin increases the Panton-Valentine leukocidin protein expression [29]; as a result of this, two protein synthesis inhibitors, mainly erythromycin or clindamycin, are recommended [30,31]. Our patients were enrolled before the publication of this communication, however, oxacillin with gentamicin was prescribed in nine patients, with good results seven of them. The absence of an antibiotic multi-resistance phenotype, presence of SCCmec type IVc in the MRSA isolates, and the great variety of genetic backgrounds supported the community origin of our isolates. The USA300 clone has emerged worldwide as a virulent hyper-epidemic strain. Within this clone, a particularly virulent CC8-sublineage has been described [1]. These virulent strains were absent from our collection but our MRSA strains were linked to t044/t042- ST728-CC80, which has been mainly described in central Europe [32,33]. Similar to our results, Ben Nejma et al. [27] reported the widespread occurrence of MRSA-t044-ST80-IVpvl + in community isolates obtained from adults in Tunisia, although higher diversity of lineages was obtained among our isolates. Moreover, ST772 is a single locus variant of ST80, which could indicate a recent evolution although both variants present the same spa type t044. In summary, we analysed the epidemiological and genetic background of community-acquired staphylococcal strains causing bacteraemia and osteomyelitis in children. Within this population, we found a low representation of MRSA strains (22%) but with high prevalence of pvl factor linked

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