Platelet microbicidal protein enhances antibiotic-induced killing of and postantibiotic effect in Staphylococcus aureus

Pharmacokinetic contributions to postantibiotic effects. Focus on aminoglycosides

The postantibiotic effect (PAE) refers to a period of time after complete removal of an antimicrobial during which there is no growth of the target organism. The PAE appears to be a feature of most antimicrobial agents and has been documented with a variety of common bacterial pathogens. Various factors influence the presence or duration of the PAE including the type of organism, type of antimicrobial, concentration of antimicrobial, duration of antimicrobial exposure, antimicrobial combinations, and inoculum and medium used. beta-Lactams demonstrate a PAE against Gram-positive cocci, but produce only a short PAE with Gram-negative bacilli. Antimicrobial agents that inhibit RNA or protein synthesis have a PAE against Gram-positive cocci and Gram-negative bacilli. In vivo studies of aminoglycosides suggest that area under the plasma concentration-time curve is the pharmacokinetic parameter that best correlates with clinical efficacy. This is thought to be due to the concentration-dependent killing and PAE possessed by these antimicrobials. Animal and human studies have reported that once-daily administration of aminoglycoside is as effective as, or more effective than, and possibly less toxic than traditional multiple daily administration.

Platelet microbicidal protein alone and in combination with antibiotics reduces Staphylococcus aureus adherence to platelets in vitro

Bacterial adherence to platelets on the cardiac valve surface is believed to be critical in the induction of infective endocarditis. Recent studies have confirmed that thrombin-activated platelets secrete platelet microbicidal protein (PMP), which can both kill and exert nonlethal antiadherence effects against endovascular pathogens. In the present study, we quantified the influence of antibiotic and/or PMP exposures on in vitro platelet adherence of two Staphylococcus aureus strains, identical by DNA restriction and cell wall protein profiles, that differed in their susceptibility to PMP-induced killing (PMPs or PMPr, respectively). Adherence assays were performed by flow cytometry in the presence of sublethal PMP concentrations (1 to 2.5 micrograms/ml) alone or in combination with ampicillin (AMP) alone, sulbactam (SUL) alone, or AMP plus SUL (AMP-SUL), at levels achievable in serum. Exposure of the PMPs and PMPr S. aureus strains to antibiotics (for 2 h at 37 degrees C) prior to flow cytometry resulted in no substantive changes in the percent adherence to platelets compared with that for S. aureus cells not exposed to antibiotics, except for modestly increased adherence of both PMPs and PMPr cells exposed to AMP-SUL (18.5 and 15.8% increases, respectively). Addition of PMP to antibiotic-S. aureus mixtures (final 30 min) caused a significant decrease in S. aureus adherence to platelets, for both the PMPs and PMPr S. aureus strains, compared with antibiotic exposure alone (e.g., reduction in platelet adherence from 57.9 +/- 8.2% to 12.2 +/- 3.6% for PMPs cells exposed to AMP-SUL and PMP [P = 0.01]). Moreover, addition of PMP following exposure of the PMPs and PMPr strains to AMP-SUL reversed the enhanced bacterium-platelet adherence observed with such antibiotic exposures alone (P < or = 0.005). These data demonstrate that PMP exerts a potent antiplatelet adherence effect which is independent of its microbicidal capacity, rendering S. aureus cells less adherent to platelets in the presence or absence of antibiotics. Reduction of microbial adherence to platelets by PMP alone or with antibiotics provides further insight into the mechanism(s) that may be involved in host defense and antibiotic prophylaxis of infective endocarditis and other endovascular infections.

Fluconazole and platelet microbicidal protein inhibit Candida adherence to platelets in vitro

Adherence to vascular endothelium is considered an essential step in the pathogenesis of hematogenously disseminated candidiasis. Platelets have been shown to promote Candida adherence to vascular endothelium in vitro. In contrast, recent studies indicate that platelets may also play a role in the primary host defense against endovascular infection by secretion of alpha granule-derived platelet microbicidal protein (PMP), which possesses both bactericidal and fungicidal activities as well as antiadherence properties. We examined the influences of PMP and the antifungal agent fluconazole on the adherence of Candida albicans to rabbit platelets, as measured by quantitative flow cytometry. In the absence of PMP and fluconazole, adherence of C. albicans to platelets was rapid (complete within 1 min), saturable, and reversible. Following 2 h of exposure to fluconazole at 10x the MIC, platelet binding of C. albicans was substantially reduced (mean reduction, 32.1%; P = 0.08). Similarly, exposure of C. albicans to PMP (range, 0.5 to 5 micrograms/ml) for 2 h (but not 30 min) significantly reduced candidal adherence to platelets 43.1 to 62.1%; (reduction range, P < 0.05). Moreover, exposure of C. albicans to PMP (5 micrograms/ml for 30 min) and then fluconazole (10x the MIC for 2 h) further decreased candidal adherence to platelets in comparison with the adherence after exposure to either agent alone (mean reduction, 57.2%; P = 0.02 and 0.05, respectively). These data demonstrate that PMP and fluconazole individually reduce the ability of C. albicans to bind to platelets in vitro and that the antiadherence activities of fluconazole are augmented by PMP.