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CORRESPONDENCE
Year : 2013  |  Volume : 138  |  Issue : 1  |  Page : 143-146

Presence of virulence determinants amongst Staphylococcus aureus isolates from nasal colonization, superficial & invasive infections


1 Department of Medical Microbiology, Postgraduate Institute of Medical Education & Research, Chandigarh 160 012, India; Present address: Department of Basic Sciences, College of Veterinary Medicine, Mississippi State University, Mississippi State, MS 39762, USA
2 Department of Medical Microbiology, Postgraduate Institute of Medical Education & Research, Chandigarh 160 012, India
3 Department of Medical Microbiology, Postgraduate Institute of Medical Education & Research, Chandigarh 160 012, India; Department of Microbiology & Immunology, Stanford University School of Medicine, Sherman Fairchild Science Building (Room D317), 299, Campus Drive, Stanford, CA - 94305 5124, USA
4 Department of Internal Medicine, Postgraduate Institute of Medical Education & Research, Chandigarh 160 012, India

Date of Web Publication6-Aug-2013

Correspondence Address:
Pallab Ray
Department of Medical Microbiology, Postgraduate Institute of Medical Education & Research, Chandigarh 160 012, India

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Source of Support: None, Conflict of Interest: None


PMID: 24056569

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How to cite this article:
Bhatty M, Ray P, Singh R, Jain S, Sharma M. Presence of virulence determinants amongst Staphylococcus aureus isolates from nasal colonization, superficial & invasive infections. Indian J Med Res 2013;138:143-6

How to cite this URL:
Bhatty M, Ray P, Singh R, Jain S, Sharma M. Presence of virulence determinants amongst Staphylococcus aureus isolates from nasal colonization, superficial & invasive infections. Indian J Med Res [serial online] 2013 [cited 2020 Feb 24];138:143-6. Available from: http://www.ijmr.org.in/text.asp?2013/138/1/143/116204

Sir,

Staphylococcus aureus is a highly versatile and adaptable microorganism, existing either as a commensal in the anterior nares of about 30 per cent of the human population, or as a pathogen implicated in skin, soft tissue, respiratory system, bone, joints and endovascular disorders [1] . S. aureus infections vary greatly in severity and range from superficial or localized, deep-seated or invasive to toxemic syndromes [1] . The genotypic attributes governing the occurrence of S. aureus as a commensal, and its transition to a pathogen involved in both superficial and invasive infections remain unclear. Our previous studies have revealed a dichotomy in S. aureus isolates from localized and deep-seated infections [2],[3] . We, therefore, sought to study the differences in genetic repertoire of S. aureus isolates from nasal colonization, superficial infections and invasive infections, with respect to 11 major virulence determinants.

During 2004-2006, clinical isolates of S. aureus (n=69) obtained in bacteriology laboratory, Post-graduate Institute of Medical Education and Research (PGIMER), Chandigarh, India from consecutive cases with invasive (n=35) and superficial (n=34) infections were used in this study. These isolates were selected from 500 consecutive isolates on the basis of pulsed-field gel electrophoresis (PFGE), wherein only one isolate belonging to each PFGE type was included to prevent over-representation of any gene owing to the effect of clonal similarity (data not shown). Invasive cases were defined as cases with clinical evidence of sepsis or deep-seated infection, with isolation of S. aureus in blood or an aspirate from a normally sterile site. Cases with evidence of prior trauma or penetrating injury and conditions such as diabetes mellitus, haematological malignancies and immunosuppression were excluded. The cases with superficial infections included infections limited to skin and/or subcutaneous tissue, without any clinical evidence of invasion into deeper tissues. Twenty five S. aureus isolates from the anterior nares of healthy volunteers of the institute without any history of an infective episode or antibiotic uptake in the last two weeks were also included. The study protocol was approved by the Institute's Ethics Committee.

All the 94 isolates were screened for the presence of 10 virulence genes [fibronectin-binding protein A (fnbA), collagen-binding protein (cna), serine-aspartate repeat protein (sdrE), staphylococcal enterotoxins (sea, sem, seo and sej), exfoliative toxin A (eta), intercellular adhesin (icaA) and gamma hemolysin (hlg)], and a major virulence regulator in S. aureus (accessory gene regulator; agr subgroup I-IV). The genes were detected by PCR according to the methods described previously, employing genomic DNA (for all genes except sej) or plasmid DNA (for sej) [4],[5],[6] . To determine the significance of association between various virulence genes and origin type of particular isolate (superficial, invasive or nasal), the data were tested statistically by univariate analysis using odds ratio and Fisher's exact test using SPSS software (SPSS Inc., USA). Further, a multivariate analysis was performed by logistic regression to confirm if the genes which were significantly associated with a group (on univariate analysis) were both independent of each other and also independently associated with the anatomic site of isolation. The statistical significance was calculated with 95% confidence intervals.

Comparison of virulence genes in S. aureus isolates from invasive infections with those from nasal colonization [Table 1] and [Table 2] revealed a significant association of cna, icaA and sej with invasive isolates [icaA, P<0.001 and cna and sej, P<0.01 (univariate analysis); icaA, P<0.001 and sej, P<0.01 (multivariate analysis)]. cna encodes for collagen-binding protein which mediates attachment of staphylococci to cartilage, and is an important virulence factor in osteomyelitis, arthritis, sepsis, endocarditis and keratitis [6] . Most of the invasive isolates in this study (62.8%) were also from similar infections, with 62.9 per cent of these being positive for cna. sej is a plasmid-borne genetic determinant encoding for a pyrogenic, super-antigenic enterotoxin [7] . While nearly 57 per cent of the invasive isolates in this study were positive for sej, only 20 per cent of the nasal colonizers harboured this gene. Likewise, icaA, encoding for the polysaccharide intercellular adhesion (PIA) required during biofilm formation [8],[9] , was present at a considerably higher proportion in invasive isolates (74%) than in nasal colonizers (20%). Previous studies have also reported a significant association of cna, ica and sej, as well as fnbA, sdrE, hlg and eta, in invasive compared with carriage isolates [6],[7],[8],[9] . However, O'Donnell et al[10] reported no significant difference in the distribution of ica and cna amongst invasive and colonizing MRSA.
Table 1: Presence of 11 virulence determinants in S. aureus isolates from nasal colonization, superficial and invasive infections

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Table 2: Odds ratios and 95% confidence intervals for the presence of eleven virulence determinants in S. aureus isolates from nasal colonization, superficial and invasive infections

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None of the virulence determinants tested showed a significant association with superficial isolates compared to nasal colonizers [Table 1] and [Table 2]. sem and seo were significantly more prevalent in colonizing isolates than invasive and/or superficial isolates [seo and sem, P<0.001 and P<0.01, respectively (univariate analysis); seo, P<0.01 (multivariate analysis)] [Table 1]. These genes are encoded by egc, a locus encoded by a mobile genetic element which may augment the carriage potential of S. aureus by inactivation of a crucial sequence or loss of another mobile genetic element carrying virulence gene during its insertion [11] . Several previous studies have also reported the predominance of egc locus in carriage isolates [5],[11],[12],[13],[14],[15],[16] .

Comparison of S. aureus isolates from invasive and superficial infections [Table 1] and [Table 2] demonstrated a significantly greater presence of cna and icaA in invasive isolates on univariate analysis (P<0.05), and of icaA on multivariate analysis (P<0.05). sej was also more frequently present in invasive isolates but the association was not significant. In the superficial isolates, the presence of eta and hlg was higher compared to invasive ones, though not significant.

Amongst the agr subgroups [Table 1] and [Table 2], the presence of agr III and agr I type was significantly greater in isolates from nasal colonization and superficial infections, respectively (P<0.05 on univariate and multivariate analysis).

The isolates from each group were also evaluated for the total number of virulence genes present [Figure 1]. While most of the superficial isolates (74.28%) harboured 2-4 genes, majority of the invasive isolates (88.57%) harboured 3-6 genes. None of the nasal colonizers contained more than four virulence genes. Nearly two-thirds (68.58%) of the invasive isolates contained all the three or at least two of the genes out of icaA, cna and sej. In contrast, two-third (68.57%) of the superficial isolates harboured either one or none of the three genes. Also, 56 per cent of the nasal colonizers did not harbour icaA, cna or sej; 28 and 16 per cent of these isolates carried one and two of the three genes, respectively, and none of these isolates were positive for all the three genes.
Figure 1: Distribution of S. aureus isolates from nasal colonization (n = 25), superficial infections (n = 34) and invasive infections (n = 35) according to the number of virulence genes present, and different combinations of icaA, cna and sej. The diameter of the circles represents the number of isolates. A, cna +, ica +, sej +; B, cna +, ica +, sej -; C, cna +, ica -, sej +; D, cna -, ica +, sej +; E, cna +, ica -, sej -; F, cna -, ica +, sej -; G, cna -, ica -, sej +; H, cna -, ica -, sej -. SC, clinical isolates from superficial infections; IC, clinical isolates from invasive infections; N, nasal colonizers.

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In conclusion, the present study suggests a considerable difference in the virulence potential of colonizing vs. superficial vs. invasive S. aureus isolates. Majority of the invasive isolates were found to harbour a greater number of virulence genes compared to the superficial or carriage isolates. Of the 11 major virulence markers tested, icaA, cna and sej were significantly associated with the invasive isolates, and detection of these genes may be a likely indicator of S. aureus invasiveness in a clinical setting. Isolates from superficial infections predominantly exhibited an agr I background, without a specific association with any of the virulence factors tested. In contrast, nasal colonizers showed agr III background and carried sem and seo more frequently. The presence of sem and seo may thus be suggestive of an isolate's carriage potential.


   Acknowledgment Top


This work was supported by funding from PGIMER, Chandigarh, India in the form of Ph.D. research fellowship to the first author (MB). We thank Dr Richard Novick and Network on Antimicrobial Resistance in S. aureus (NARSA) for providing the positive control strains used in this study.

 
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