It was initially discovered by Van deVelde in 1894 due to its ability to lyseleukocytes. It was named after Sir Philip Noel Panton and Francis Valentine when they associated it with soft tissue infections in 1932.[5][6]
Exotoxins such as PVL constitute essential components of the virulence mechanisms of S. aureus.
Nearly all strains secrete lethal factors that convert host tissues into nutrients required for bacterial growth.[7]
PVL is a member of the synergohymenotropic toxin family that induces pores in the membranes of cells.[8]
The PVL factor is encoded in a prophage—designated as Φ-PVL—which is a virus integrated into the S. aureusbacterial chromosome.[failed verification]
Its genes secrete two proteins—toxins designated LukS-PV and LukF-PV, 33 and 34 kDa[failed verification] in size. The structures of both proteins have been solved in the soluble forms, and are present in the PDB as ID codes 1t5r and 1pvl respectively.[9]
LukS-PV and LukF-PV act together as subunits, assembling in the membrane of host defense cells, in particular, white blood cells, monocytes, and macrophages.[10]
The subunits fit together and form a ring with a central pore through which cell contents leak and which acts as a superantigen.[8][11] Other authors contribute the differential response of MRSA subtypes to phenol-soluble modulin (PSM) peptides and not to PVL.[12]
Clinical effects
PVL causes leukocyte destruction and necrotizing pneumonia, an aggressive condition that can kill up to 75% of patients.[13]
Comparing cases of staphylococcal necrotizing pneumonia, 85% of community-acquired (CAP) cases were PVL-positive, while none of the hospital-acquired cases were. CAP afflicted younger and healthier patients and yet had a worse outcome (>40% mortality.)[8]
It has played a role in a number of outbreaks of fatal bacterial infections.[14]
PVL may increase the expression of staphylococcal protein A, a key pro-inflammatory factor for pneumonia.[15]
Epidemiology
Panton–Valentine leukocidin (PVL) is one of many toxins associated with S. aureus infection. Because it can be found in virtually all CA-MRSA strains that cause soft-tissue infections, it was long described as a key virulence factor, allowing the bacteria to target and kill specific white blood cells known as neutrophils.
This view was challenged, however, when it was shown that removal of PVL from the two major epidemic CA-MRSA strains resulted in no loss of infectivity or destruction of neutrophils in a mouse model.[16][17]
Genetic analysis shows that PVL CA-MRSA has emerged several times, on different continents, rather than being the worldwide spread of a single clone.[18]
^Spentzas, Thomas; Kudumula, Ravi; Acuna, Carlos; Talati, Ajay J.; Ingram, Kimberly C.; Savorgnan, Fabio; Meals, Elizabeth A.; English, B. Keith (2011-01-01). "Role of bacterial components in macrophage activation by the LAC and MW2 strains of community-associated, methicillin-resistant Staphylococcus aureus". Cellular Immunology. 269 (1): 46–53. doi:10.1016/j.cellimm.2011.03.009. ISSN1090-2163. PMID21458780.
^Gillet Y, Issartel B, Vanhems P, et al. (2002). "Association between Staphylococcus aureus strains carrying gene for Panton-Valentine leukocidin and highly lethal necrotising pneumonia in young immunocompetent patients". Lancet. 359 (9308): 753–9. doi:10.1016/s0140-6736(02)07877-7. PMID11888586. S2CID20400336.