PAGES: 233-238 DOI: 10.1590/0074-0276108022013017 Short communication
Novel methicillin-resistant coagulase-negative Staphylococcus clone isolated from patients with haematological diseases at the Blood Bank Centre of Amazon, Brazil

Cristina Motta Ferreira1,2,+, Felipe Gomes Naveca3, William Antunes Ferreira4,Cíntia Mara Costa de Oliveira5, Maria das Graças Vale Barbosa2,4

1Fundação Estadual de Hematologia e Hemoterapia do Amazonas, Manaus, AM, Brasil
2Universidade do Estado do Amazonas, Manaus, AM, Brasil
3Instituto Leônidas e Maria Deane-Fiocruz, Manaus, AM, Brasil
4Fundação de Dermatologia Tropical e Venereologia Alfredo da Matta, Manaus, AM, Brasil
5Fundação de Medicina Tropical Dr Heitor Vieira Dourado, Manaus, AM, Brasil


Methicillin-resistant Staphylococcus remains a severe public health problem worldwide. This research was intended to identify the presence of methicillin-resistant coagulase-negative staphylococci clones and their staphylococcal cassette chromosome mec (SCCmec)-type isolate from patients with haematologic diseases presenting bacterial infections who were treated at the Blood Bank of the state of Amazonas in Brazil. Phenotypic and genotypic tests, such as SCCmec types and multilocus sequence typing (MLST), were developed to detect and characterise methicillin-resistant isolates. A total of 26 Gram-positive bacteria were isolated, such as: Staphylococcus epidermidis (8/27), Staphylococcus intermedius (4/27) and Staphylococcus aureus (4/27). Ten methicillin-resistant staphylococcal isolates were identified. MLST revealed three different sequence types: S. aureus ST243, S. epidermidis ST2 and a new clone of S. epidermidis, ST365. These findings reinforce the potential of dissemination presented by multiresistant Staphylococcus and they suggest the introduction of monitoring actions to reduce the spread of pathogenic clonal lineages of S. aureus and S. epidermidis to avoid hospital infections and mortality risks.

Methicillin-resistant staphylococci stand as main pathogens responsible for high levels of infectious processes worldwide. Methicillin resistance is encoded by the mecA gene, located at the staphylococcal cassette chromosome mec (SCCmec). In Staphylococcus aureus, types I, VII and XI are recognised, whereas types IV and V are found in Staphylococcus epidermidis and Staphylococcus haemolyticus (Strandén et al. 2009, Iorio et al. 2012). The genotype distributions of staphylococci differ across different geographical regions. The USA300 community-acquired methicillin-resistant S. aureus clone sequence typing ST8 is dominant in the United States, as the ST80 and ST30 clones are in Europe, Kuwait, Singapore, the Southwest Pacific islands and New Zealand (Udo et al. 2008), and Brazilian epidemic clone ST239 that is predominant in different hospitals (Carva-lho et al. 2010, Almeida et al. 2012). Regarding S. epidermidis, the ST69 clone is predominant in Greece, ST57 and ST88 in Portugal, ST2 in China, ST2, ST22, ST61 and ST71 in Mexico and ST63 in Argentina (Miragaia et al. 2009, Liakopoulos et al. 2010).

The risk for immunocompromised patients can be significant if they become infected by those species while in hospitals. The presence of immunocompromised patients at the hospital and blood bank where this research was undertaken was common, as the patients were receiving chemotherapy treatments against leukaemia, myeloma, haemolytic anaemia, haemophilia etc. These treatments can increase morbimortality risks due to prolonged hospitalisation, the spread of multi-resistant strains and rises in treatment costs. Given these clinically diagnosed infectious processes in immunocompromised patients, in this study, we studied the resistance of these pathogens to the antibiotics used in these treatments and the pathogens' genotypes for a broader epidemiological view of these staphylococci. Being aware of geographic distributions and transmission mechanisms - factors that contribute to the appearance and spread of these genotypes - will help us to control hospital infection outbreaks and dissemination and to implement programs to supervise the resistance presented by these pathogens.

From July 2007-August 2008, we conducted a study including haematology patients of both sexes admitted to the Haematology and Haemotherapy Foundation (HEMOAM) presenting clinical signs and symptoms suggestive of acute bacterial infection. The HEMOAM is located in Manaus, the capital city of the state of Amazonas. It is a public blood bank that provides health care to patients with haematological disorders and provides blood and blood derivatives to the residents of the entire city. The biological samples provided include urine, blood, sputum, catheter tips, bone marrow aspirate and abscess fluid, along with oropharyngeal, ocular, perianal, nasopharyngeal, open wound and skin lesion secretions. Phenotypic tests were performed on all isolates using standard biochemical tests, including Gram staining, colonial morphology on 5% sheep's blood, mannitol and Mueller-Hinton agar plates (Himedia Hexasystens-Mumbai, India), catalase, coagulase (Newprov), glucose, maltose, sucrose and lactose fermentation tests, urease (Himedia Hexasystens-Mumbai, India), susceptibility testing with 5 µg of novobiocin (Laborclin) and 0.04 UI bacitracin (Newprov), 300 polymyxin B (Newprov), PYR testing (Probac, Brazil) and nucleotide sequencing of the 16S rRNA gene region using the bacterial primers 27F (5-AGAGTTTGATCCTGGCTCAG-3) and 1492R (5-GGTTACCTTGTTACGACTT-3) (Miyoshi et al. 2005). The E-test® and reference values for sensitivity, reduced sensitivity or resistance to antibiotics were set according to the Clinical and Laboratory Standards Institute (CLSI 2010) (Wayne, Pennsylvania, USA) manual. ATCC 25923 S. aureus was used for quality control of the culture media and for susceptibility tests. PBP 2a tests (Oxoid, Cambridge, UK) were performed on all isolates to identify methicillin resistance. Genomic DNA extraction from all Staphylococcus strains was performed using an Kit Easy DNA (Invitrogen, Carlsbad, CA, USA) and a polymerase chain reaction (PCR) protocol for the identification of the mecA gene, SCCmec, toxin genes (seh, arcA, etd) and the Panton-Valentine leukocidin gene, according to Jonas et al. (2002), Milheiriço et al. (2007) and Strommenger et al. (2008). S. aureus ATCC strains 25923, 29213 and 33591 and S. epidermidis ATCC 12228 were used as control strains. Multilocus sequence typing (MLST) was used to identify the genetic backgrounds of the isolates. MLST was performed according to the methods published for S. aureus and S. epidermidis. Internal fragments of the seven housekeeping genes were amplified by PCR and both strands were sequenced. Alleles and STs were determined from the S. aureus and S. epidermidis MLST databases ( At the end of this research, the MLST website did not yet have proposal protocols for the genotypes of other coagulase-negative Staphylococcus species.

One hundred forty-six clinical samples were obtained from 69 patients over a period of 13 months. Among the collected samples, we were able to isolate 44 bacterial strains, 26 of which were Gram-positive. With regard to sex, 35 of 69 patients were male and 34 of 69 were female, with an average age of 24 years. The most frequent haematological diseases identified in patients were acute lymphocytic leukaemia (36/69) and acute myeloid leukaemia (6/69). Biochemical tests and 16S rDNA sequencing detected S. epidermidis (8/26), S. intermedius (4/26) and S. aureus (4/26). Other isolated species included Staphylococcus hyicus (1/26), S. haemolyticus (1/26), Staphylococcus simulans (1/26), Staphylococcus lugdunensis (2/26) and Staphylococcus spp (5/26). Of the 26 staphylococci strains, 10 were methicillin-resistant. PBP 2a tests were performed on those 10 isolates, confirming the presence of the mecA gene and the absence of the lukPV gene. Only one sample of Staphylococcus sp. harboured the Seh gene for enterotoxin H. The MLST analysis revealed three different STs among these isolates: S. aureus ST243, S. epidermidis ST2 and two new isolates of the S. epidermidis ST365 clone, which was not found among isolates in the MLST scheme of Miragaia et al. (2009) in our hospital environment. The ST243 strain harboured SCCmec types I, III and V (Figure), the ST2 strain harboured SCCmec types II, III and V and the ST365 strained harboured SCCmec types I, III and V (Table I). The other coagulase-negative Staphylococcus species were nontypeable. The DNA sequences of each allele at the seven loci in this study have been deposited in GenBank under accessions JN398483-JN398507. They can be downloaded from the aforementioned website.

The S. epidermidis ST 365 novel pathogenic clone was isolated from the peripheral blood of two patients: a boy (9 years old) and a girl (2 years old) presenting with acute lymphocytic leukaemia. Susceptibility tests indicated the resistance of these strains to antibiotics (Table II). The detection of this resistant methicillin isolate belonging to this pathogenic clonal lineage in hospitalised - mainly immunocompromised - patients can increase the risk for morbimortality if these patients acquire infections in hospitals caused by those species.

The S. epidermidis ST2 clone was isolated from a blood culture sample from a 24-year-old patient with chronic myeloid leukaemia presenting resistance to antibiotics, such as amikacin, ceftazidime and cefepime (Table II). The identification of these strains in the hospital might have been due to the following causes: (a) colonised patient (reservoir) circulation, (ii) contaminated healthcare worker-to-patient transmission, (iii) antibiotic selective pressure of the isolate (Sousa et al. 2009, Barbier et al. 2010), (iv) high biofilm formation - recognised as a critical factor for the colonisation of medical devices (Botelho et al. 2012), (v) high level of genetic flexibility including heterogeneous expression of the gene, (vi) the presence of SSCmec in disease-associated isolates, (vii) the ica gene cluster and (viii) insertion sequence element IS256. These causes reflect great capacity to adapt through genetic exchange to environmental changes and antibiotic therapy (Weisser et al. 2010, Widerström et al. 2012).

ST2, founder of the CC2 clonal complex, is considered the prevalent international cause of most S. epidermidis hospital infections; it has also been detected as an epidemic hospital pathogen worldwide and in different European hospitals (Weisser et al. 2010, Widerström et al. 2012). In Brazil, it was identified in a hospital in Rio de Janeiro (Iorio et al. 2012). The detection of methicillin-resistant strains belonging to this virulent clonal lineage in hospitalised - mainly immunocompromised - patients points to possible hospital infections, as these patients had been hospitalised for more than 72 h, they did not come from other hospitals, they received no prolonged antibiotic therapy at the moment of collection and they presented with frequent use of catheters because of their treatments. Therefore, studies monitoring the resistance of these strains to antibiotics are essential in light of the reports of coagulase-negative staphylococci species resistant to linezolid therapy, a therapeutic option for multidrug-resistant Gram-positive pathogens, including methicillin-resistant S. aureus and vancomycin-resistant enterococci (Almeida et al. 2012).

The S. aureus ST243 clone, isolated from a 30-year-old haemophilic patient with a blood infection, demonstrated resistance to antibiotics, such as ceftazidime, chloramphenicol and tetracycline (Table II). Despite in vitro sensitivity against imipenem and cefepime, CLSI M-100 S20 (CLSI 2010) recommendations suggest that they should be reported as resistant due to low treatment effectiveness. The presence of ST243 in our hospital could has come from patient-to-patient or colonised patient-to-contaminated healthcare worker transmission or from prolonged antibiotic therapy. Other risk factors that can be considered for haematogenous infection are nasal carriers and skin/soft tissue infections (Carvalho et al. 2010, Yamamoto et al. 2010, Widerström et al. 2012). This clone has spread across the United States, Thailand and Japan (data available from, although only the Thai clone is methicillin-resistant.

The presence of the SCCmec III cassette in S. epidermidis, considered with no clinical importance in infections must be revised (Tables I, III), because the horizontal transfer of a large number of resistance genes among species opens the way to methicillin resistance (Sousa et al. 2009, Barbier et al. 2010, Iorio et al. 2012), which induces the use of different antibiotics as therapeutic options (mainly vancomycin). Another observation was the presence of SCCmec type V in S. epidermidis (Table III). Types IV and V are small, structurally similar elements that carry the mecA gene as a unique antibiotic resistance encoder. As these types have high competitive transfer capacity, this fact can explain the presence of SCCmec type V in relation to type IV (Ito et al. 2004, Barbier et al. 2010). Another important factor detected was the existence of various SCCmec types (Figure, Tables I, III). Other Staphylococcus strains, such as S. intermedius and Staphylococcus sp., presented SCCmec types I, III and V. S.hyicus presented SCCmec types I, II and IV and S. lugdunensis SCCmec type III. The structural diversity of SCCmec in coagulase-negative Staphylococcus has been described in other studies (Ruppé et al. 2009 Barbier et al. 2010, Carvalho et al. 2010). The presence of these different SCCmec types might suggest that multiple introductions are occurring and their presence in the same ST could suggest possible horizontal transfer among species (Enright et al. 2000, Barbier et al. 2010) or diversity in the combination of the mec and ccr allotypes (Ruppé et al. 2009).

Horizontal transfer of the mec gene might be occurring, favouring the appearance of methicillin resistance among species. These findings serve as an alert for hospitals and possibly for the region to introduce actions to reduce the spread of the pathogenic clonal lineages of S. aureus and S. epidermidis. Microbial resistance monitoring programs are important to avoid hospital infection outbreaks and the spread of pathogenic clonal lines. Further research in regional hospitals and the community are required for a more accurate view of the regional epidemiological distribution of these clones and of the new ST365 clone.


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Received 13 March 2012
Accepted 12 September 2012
Financial support: FAPEAM, Gestão Compartilhada em Saúde (PPSUS-014/2006) CMF, FGN and WAF contributed equally to this work.
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