Panton-Valentine leukocidin genes in Staphylococcus aureus.To the Editor: The pathogenicity of Staphylococcus aureus depends on various bacterial surface components and extracellular proteins. However, the precise role of single virulence determinants in relation to infection is hard to establish. The frequent recovery of staphylococcal isolates that produce leukocidal toxins from patients with deep skin and soft tissue infections, particularly furunculosis 1. the persistent sequential occurrence of furuncles over a period of weeks or months. 2. the simultaneous occurrence of a number of furuncles. fu·run·cu·lo·sis (fy  -r,
cutaneous abscesses, and severe necrotizing pneumonia, suggests that the
Panton-Valentine leukocidin leukocidin /leu·ko·ci·din/ (-si´din) a substance produced by some pathogenic bacteria that is toxic to polymorphonuclear leukocytes (neutrophils).leu·ko·ci·din (l  (PVL) is 1 such virulence factor that has a
major role in pathogenicity (1-3).In 1932, Panton and Valentine described PVL as a virulence factor belonging to the family of synergohymenotropic toxins (4). These toxins form pores in the membrane of host defense cells by synergistic action of 2 secretory proteins, designated LukS-PV and LukF-PV, which are encoded by 2 cotranscribed genes of a prophage integrated in the S. aureus chromosome (5). PVL is mostly associated with community-acquired methicillin-resistant S. aureus (MRSA) infections and distinguish able from nosocomial MRSA by non-multidrug resistance and carriage of the type IV staphylococcal chromosome cassette element (SCCmec type IV) (6, 7). Despite the presumed importance of PVL as a virulence factor, few data are available on its prevalence among S. aureus isolates from the nares nares /na·res/ (na´res) [L.] the nostrils; the external openings of the nasal cavity. of healthy persons compared with stains isolated from infections. This lack of data led us to investigate the frequency of PVL gene-positive S. aureus strains obtained from the nares of healthy carriers in the community. For this purpose, a single polymerase chain reaction method was used to detect both lukS-PV and lukF-PV genes (2). In a previous study, the population structure of S. aureus, isolated from the nares of healthy persons in the Rotterdam area, the Netherlands, was elucidated (8). Strains were obtained from healthy children (< 19 years) and elderly persons (>55 years). Invasive strains (blood culture, skin and soft tissue infections, and impetigo 1. impetigo contagiosa; a streptococcal or staphylococcal skin infection marked by vesicles that become pustular, rupture and form yellow crusts.impetig´inous 2. i. bullosa. impetigo bullo´sa , bullous impetigo impetigo in which the developing vesicles progress to form large bullae, which collapse and become covered with crusts.
isolates) were included in this study (Table). All carriage and clinical
isolates (n = 1,033) were mecA negative. We used the same strain
collection to study the PVL prevalence in carriage and invasive isolates
of S. aureus from a single geographic region.Five PVL-positive S. aureus strains (0.6%) were found in the carriage group (n = 829), and 3 (2.1%) of 146 blood-culture isolates carried the PVL gene (Table). This finding is in agreement with previously reported low PVL prevalences by Prevost et al. (0% in 31 carriage isolates and 1.4% in 69 blood-culture isolates) and Von Eiff et al. (1.4% in 210 carriage isolates and 0.9% in 219 blood-culture isolates) (9,10). However, a higher prevalence of PVL (38.9%) was found in S. aureus strains causing abscesses and arthritis (Fisher exact test, p <0.0001) (8). This finding is also in agreement with the proposed involvement of PVL in severe and invasive (soft tissue) staphylococcal infections (1-3). No significant differences were found in the presence of PVL when carriage isolates were compared with invasive blood-culture isolates. PVL was found in each major genomic amplified fragment length polymorphism (AFLP) cluster, indicating that PVL has been introduced in distinct phylogenetic subpopulations of S. aureus (online Figure; available from http://www.cdc.gov/ncidod/EID/vol1 2no07/05-0865-G.htm). Multilocus sequence typing analysis of a subset of the strain collection showed that the 15 PVL-positive strains were within clonal complex (CC) 30 (n = 7), CC 121 (n = 3), CC 1 (n = 2), CC 8 (n = 1), CC 22 (n = 1), and CC 45 (n = 1) (Table) (8). Although PVL was found among several staphylococcal genotypes, it was slightly overrepresented in AFLP cluster IVb (CC 121) compared with major clusters I and III. Whether the prevalence of PVL in carriage- and blood-culture isolates is higher and differs among distinct genetic clusters of S. aureus in countries with endemic CA-MRSA has to be investigated further. In conclusion, we have shown that the PVL-encoding phage has entered distinct staphylococcal lineages, although its prevalence differs per clonal group. PVL is associated with skin and soft tissue infections but not with bacteremia bac , which suggests that PVL is not
likely to be involved in the pathogenesis of bacteremia. Infections
caused by PVL-positive S. aureus strains have been documented since the
1930s. Expansion and increased incidence of such infections, however,
are more recent, and further epidemiologic studies for tracking this
phenomenon are still warranted. te·re mic (-m k) adj.References (1.) Gillet Y, Issartel B, Vanhems P, Fournet JC, Lina G. Bes M, et al. Association between Staphylococcus aureus strains carrying gene for Panton-Valentine leukocidin and highly lethal necrotising pneumonia in young immunocompetent im·mu·no·com·pe·tent ( my -n -k patients. Lancet. 2002;359:753-9.(2.) Lina G, Piemont Y, Godail-Gamot F, Bes M, Peter MO, Gauduchon V, et al. Involvement of Panton-Valentine leukocidin-producing Staphylococcus aureus in primary skin infections and pneumonia. Clin Infect Dis. 1999;29:1128-32. (3.) Holmes A, Ganner M, McGuane S, Pitt TL, Cookson BD, Kearns AM. Staphylococcus aureus isolates carrying Panton-Valentine leucocidin genes in England and Wales: frequency, characterization, and association with clinical disease. J Clin Microbiol. 2005;43:2384-90. (4.) Panton PN, Valentine FCO FCO - Facility Control Office FCO - Fast Cook-Off (explosives/propellants) FCO - Federal Career Opportunities FCO - Federal Cartel Office FCO - Federal Communications Office (Swiss PTT) FCO - Federal Coordinating Officer (senior official at a disaster) FCO - Festival Chorale Oregon FCO - Festival Chorale Oregon (Salem) FCO - Field Change Order FCO - Field Claim Office (Insurance) FCO - File Control Office FCO - Film Censor's Office (Ireland). Staphylococcal toxin. Lancet. 1932; 1:506-8. (5.) Prevost G, Cribier B, Couppie P, Petiau P, Supersac G, Finck-Barbancon V, et al. Panton-Valentine leucocidin and gammahemolysin from Staphylococcus aureus ATCC 49775 are encoded by distinct genetic loci and have different biological activities. Infect Immun. 1995;63:4121-9. (6.) Miller LG, Perdreau-Remington F, Rieg G, Mehdi S, Perlroth J, Bayer AS, et al. Necrotizing fasciitis caused by community-associated methicillin-resistant Staphylococcus aureus in Los Angeles. N Engl J Med. 2005;352:1445-53. (7.) Vandenesch F, Naimi T, Enright MC, Lina G, Nimmo GR, Heffernan H, et al. Community-acquired methicillin-resistant Staphylococcus aureus carrying Panton-Valentine leukocidin genes: worldwide emergence. Emerg Infect Dis. 2003;9:978-84. (8.) Melles DC, Gorkink RF, Boelens HA, Snijders SV, Peeters JK, Moorhouse MJ, et al. Natural population dynamics and expansion of pathogenic clones of Staphylococcus aureus. J Clin Invest. 2004;114: 1732-40. (9.) Prevost G, Couppie P, Prevost P, Gayet S, Petiau P, Cribier B, et al. Epidemiological data on Staphylococcus aureus strains producing synergohymenotropic toxins. J Med Microbiol. 1995;42:237-45. (10.) von Eiff C, Friedrich AW, Peters G, Becker K. Prevalence of genes encoding for members of the staphylococcal leukotoxin leukotoxin /leu·ko·tox·in/ (loo´ko-tok?sin) a cytoxin destructive to leukocytes. leu·ko·tox·in (l k family among
clinical isolates of Staphylococcus aureus. Diagn Microbiol Infect Dis.
2004;49:157-62.Damian C. Melles, * Willem B. van Leeuwen, * Helene A.M. Boelens, * Justine K. Peeters, * Henri A. Verbrugh, * and Alex van Belkum * * University Medical Center Rotterdam, Rotterdam, the Netherlands Address for correspondence: Damian C. Melles, Erasmus MC, University Medical Center Rotterdam, Department of Medical Microbiology & Infectious Diseases, Rm L-313, Dr Molewaterplein 40, 3015 GD Rotterdam, the Netherlands; email: d.melles@ erasmusmc.nl
Table. Panton-Valentine Leukocidin (PVL) distribution among carriage
and invasive isolates per genetic cluster of Staphylococcus aureus
Amplified fragment length
polymorphism cluster
I II
(n = 462) (n = 261)
PVL positive, n (%)
Carriage isolates (n = 829) 1 1
Bacteremia isolates (n = 146) 1 1
Soft tissue infection 1 5
isolates (n = 18)
Impetigo isolates (n = 40) 0 0
Total (N = 1,033) 3 (0.6) ([section]) 7 (2.7)
MLST ** data of PVL-positive CC 1, n = 2 CC 30, n = 7
isolates CC 8, n = 1
Amplified fragment length
polymorphism cluster
PVL positive, n (%)
III IVa
(n = 208) (n = 62)
Carriage isolates (n = 829) 1 0
Bacteremia isolates (n = 146) 0 0
Soft tissue infection 0 1
isolates (n = 18)
Impetigo isolates (n = 40) 0 0
Total (N = 1,033) 1 (0.5) ([paragraph]) 1 (1.6)
MLST ** data of PVL-positive CC 45, n = 1 CC 22, n = 1
isolates
Amplified fragment length
polymorphism cluster
PVL positive, n (%)
IVb Total
(n = 40) (N = 1,033)
Carriage isolates (n = 829) 2 5 (0.6) *
Bacteremia isolates (n = 146) 1 3 (2.1) ([dagger])
Soft tissue infection 0 7 (38.9)
isolates (n = 18) ([double dagger])
Impetigo isolates (n = 40) 0 0 (0.0)
Total (N = 1,033) 3 (7.5) (#) 15 (1.5)
MLST ** data of PVL-positive CC 121, n = 3
isolates
([double dagger]) versus * Fisher exact test (2-sided); p<0.0001.
([double dagger]) versus ([dagger]) Fisher exact test (2-sided);
p<0.0001.
(#) versus ([section]) Fisher exact test (2-sided); p = 0.0001.
(#) versus ([paragraph]) Fisher exact test (2-sided); p = 0.0140.
** MLST, multilocus sequence typing; CC, clonal complex.
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