Background: Severe sepsis, combining acute osteomyelitis and lung involvement, has been described increasingly in healthy children with the spread of community-associated methicillin-resistant Staphylococcus aureus (CA-MRSA).
Methods: Outcomes (mortality, hematogenous spread, lung and bone involvements) of rabbit osteomyelitis caused by CA-MRSA LAC(WT) USA300 and its Panton-Valentine leukocidin (PVL)- and α-hemolysin (Hla)-negative isogenic derivatives (LACΔpvl and LACΔhla, respectively) were compared.
Results: Three days after inoculation (D3), all LAC(WT)- and LACΔpvl-, and 72% of LACΔhla-infected rabbits had no hematogenous spread and similar lung and bone bacterial densities. LACΔpvl and LACΔhla caused less severe histological lung lesions than LAC(WT) (P ≤ .01). Between D3 and D9, 10 (53%) LAC(WT)-, 11 (55%) LACΔpvl-, but no LACΔhla-infected rabbits (P < .005) died of severe sepsis with disseminated infection. Unlike deceased animals, most LAC(WT), LACΔpvl, and LACΔhla D14 survivors had no hematogenous spread (P < .001). LAC(WT) (88%) caused more bone abscesses than LACΔpvl (0, P = .001) or LACΔhla (30%, P = .01).
Conclusion: In this model, both PVL and Hla seemed to be required for early lung involvement via hematogenous spread. Hla, but not PVL, significantly impacted severe sepsis-related mortality. PVL was the predominant factor determining late-stage bone abscesses.
Keywords: CA-MRSA; Panton-Valentine leukocidin; Staphylococcus aureus; osteomyelitis; rabbit model; severe sepsis; α-hemolysin.