Pharmacological Evaluation of Synthetic Dominant-Negative Peptides Derived from the Competence-Stimulating Peptide of .

The competence regulon of (pneumococcus) is a quorum-sensing circuitry that regulates the ability of this pathogen to acquire antibiotic resistance or perform serotype switching, leading to vaccine-escape serotypes, via horizontal gene transfer, as well as initiate virulence. Induction of the competence regulon is centered on binding of the competence-stimulating peptide (CSP) to its cognate receptor, ComD. We have recently synthesized multiple dominant-negative peptide analogs capable of inhibiting competence induction and virulence in . However, the pharmacodynamics and safety profiles of these peptide drug leads have not been characterized. Therefore, in this study, we compared the biostability of cyanine-7.5-labeled wild-type CSPs versus dominant-negative peptide analogs (dnCSPs) spatiotemporally by using an IVIS Spectrum imaging system. Moreover, cytotoxicity and toxicity were evaluated. We conclude that our best peptide analog, CSP1-E1A-cyc(Dap6E10), is an attractive therapeutic agent against pneumococcal infection with superior safety and pharmacokinetics profiles.