In Vitro Antibacterial Activities of Platelet Microbicidal Protein and Neutrophil Defensin against Staphylococcus aureus Are Influenced by Antibiotics Differing in Mechanism of Action

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Antimicrobial Agents and Chemotherapy, May 1999, p. 1111-1117, Vol. 43, No. 5
0066-4804/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

In Vitro Antibacterial Activities of Platelet Microbicidal Protein and Neutrophil Defensin against Staphylococcus aureus Are Influenced by Antibiotics Differing in Mechanism of Action

Yan-Qiong Xiong,¹^,^* Michael R. Yeaman,¹^,² and Arnold S. Bayer¹^,²

Department of Medicine, Division of Infectious Diseases, St. John's Cardiovascular Research Center, LAC-Harbor University of California at Los Angeles Medical Center, Torrance, California 90509,¹ and School of Medicine, University of California at Los Angeles, Los Angeles, California 90024²

Received 17 August 1998/Returned for modification 4 December 1998/Accepted 20 February 1999

Thrombin-induced platelet microbicidal protein-1 (tPMP-1) and human neutrophil defensin-1 (HNP-1) are small, cationic antimicrobialpeptides. These peptides exert potent in vitro microbicidal activityagainst a broad spectrum of human pathogens, including Staphylococcusaureus. Evidence suggests that tPMP-1 and HNP-1 target and disruptthe bacterial membrane. However, it is not yet clear whether membranedisruption itself is sufficient to kill the bacterium or whethersubsequent, presumably intracellular, events are also involvedin killing. We investigated the staphylocidal activities of tPMP-1and HNP-1 in the presence or absence of pretreatment with antibioticsthat differ in their mechanisms of action. The staphylocidal effectsof tPMP-1 and HNP-1 on control cells (no antibiotic pretreatment)were rapid and concentration dependent. Pretreatment of S. aureuswith either penicillin or vancomycin (bacterial cell wall synthesisinhibitors) significantly enhanced the anti-S. aureus effectsof tPMP-1 compared with the effects against the respective controlcells over the entire tPMP-1 concentration range tested (P < 0.05).Similarly, S. aureus cells pretreated with these antibiotics weremore susceptible to HNP-1 than control cells, although the differencein the effects against cells that received penicillin pretreatmentdid not reach statistical significance (P < 0.05 for cells thatreceived vancomycin pretreatment versus effects against controlcells). Studies with isogenic pairs of strains with normal ordeficient autolytic enzyme activities demonstrated that enhancementof S. aureus killing by cationic peptides and cell wall-activeagents could not be ascribed to a predominant role of autolyticenzyme activation. Pretreatment of S. aureus cells with tetracycline,a 30S ribosomal subunit inhibitor, significantly decreased thestaphylocidal effect of tPMP-1 over a wide peptide concentrationrange (0.16 to 1.25 µg/ml) (P < 0.05). Furthermore, pretreatmentwith novobiocin (an inhibitor of bacterial DNA gyrase subunitB) and with azithromycin, quinupristin, or dalfopristin (50S ribosomalsubunit protein synthesis inhibitors) essentially blocked theS. aureus killing resulting from exposure to tPMP-1 or HNP-1 atmost concentrations compared with the effects against the respectivecontrol cells (P < 0.05 for a tPMP-1 concentration range of 0.31to 1.25 µg/ml and for an HNP-1 concentration range of 6.25 to50 µg/ml). These findings suggest that tPMP-1 and HNP-1 exertanti-S. aureus activities through mechanisms involving both thecell membrane and intracellulartargets.

^* Corresponding author. Mailing address: Department of Medicine, Division of Infectious Diseases, St. John's CardiovascularResearch Center, Bldg. RB-2, LAC-Harbor UCLA Medical Center, 1000W. Carson St., Torrance, CA 90509. Phone: (310) 222-6423. Fax:(310) 782-2016. E-mail: XIONG{at}HUMC.EDU.

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