COMBINED ANTIBACTERIAL ACTION OF SALIVARY CATIONIC PROLINE-RICH PEPTIDES AND ANTIMICROBIAL PEPTIDES

Abstract

Saliva is an important biological fluid that reflects human’s health. Its main function is protection of the oral cavity from pathogens. Antimicrobial peptides (AMPs) of the innate immunity may play an important role in anti-infectious defense of the oral cavity, but their relative amount in saliva is low. It’s major component is Proline-rich peptides (PRPs), whose impact in antimicrobial protection remains poorly understood. We suggest that salivary PRPs may reveal their defensive functions upon interaction with other molecules, in particular with AMPs. The aim of this work is an investigation of the combined antibacterial action of salivary PRPs (fragments of Basic salivary proline-rich protein 1: P-H (37-51), IB6 (98-116), p1932) with antimicrobial peptides (histatin 5 and cathelicidin LL-37 and beta-defensin hBD3). Listed PRPs have been obtained by chemical solid-phase synthesis. The method of broth microdilutions was used to compare minimal inhibitory concentrations (MICs) of individual fractions of AMPs and their MICs in the presence of salivary peptides. It was found that in the presence of peptides IB6 (98-116) or P-H (37-51) the activity of defensin hBD3 was increased (reduction of MICs by 2 times) against Staphylococcus aureus SG511. In the presence of IB6 (98-116) or p1932 the activity of this defensin against E. coli ML35p was also improved (MICs of hBD3 was lowered by 2 times). For other combinations of the peptides, this effect was not observed. The obtained data confirm the assumption that the combined action of varied salivary peptides, including cationic Proline-rich peptides, plays an important role in anti-infectious protection of the oral cavity.