In vitro spermicidal activity of peptides from amphibian skin: dermaseptin S4 and derivatives.

Sexually transmitted infections and unplanned pregnancies present a great risk to the reproductive health of women. Therefore, female-controlled vaginal products directed toward disease prevention and contraception are needed urgently. In the present study, efforts were made to evaluate the contraceptive potency of dermaseptin DS4, an antimicrobial peptide derived from frog skin. To assess the structure-activity relationship between the native DS4 and its derivatives, a set of chemically modified peptides was synthesized and evaluated. Normal human semen samples were used to detect the spermicidal activity of the new compounds. HeLa cultures were used to determine the safety of compounds toward their toxicity. Fluorescent-binding assays were performed to evaluate the rapidity and the irreversibility of the sperm-immobilizing activity of peptides. All DS4 derivatives elicited concentration-dependent spermicidal activity at microgram concentrations (EC(100) values: 25 microg/ml-l mg/ml). The order was K4S4=S4a>S4>K4S4(1-16)a>S4(6-28). In cytotoxicity assay, some compounds were found to be significantly safer than nonoxynol-9, the most widely used spermicide, and their activity was not accompanied by total loss of plasma membrane integrity as detected by fluorescent microscopy. Our data also show that increasing the number of positive charges of the peptide resulted in a reduced cytotoxicity without affecting the spermicidal effect. This study indicates that dermaseptins are spermicidal molecules that deserve to be tested as topical contraceptive with useful activities that can add to their prophylaxis, safety, and effectiveness.

Susceptibility of Neisseria gonorrhoeae to antimicrobial peptides from amphibian skin, dermaseptin, and derivatives.

We evaluated the antimicrobial effect of antimicrobial peptides from frog skin belonging to the dermaseptin family against reference and clinical Neisseria gonorrhoeae strains, including penicillin-resistant strains. Dermaseptin S4 exhibited anti-N. gonorrhoeae activity against all strains with MICs ranging between 10 and 100 microg/mL. We then used derivatives of DS4 and determined the anti-N. gonorrhoeae activity of each of analogs. All the derivatives showed antimicrobial activity. Among the different molecules tested, we found that dermaseptins K4S4 (1-16)a and K4S4 (1-28) were the more potent to inhibit N. gonorrhoeae growth with MIC of 10 microg/mL against all strains.

The antimicrobial peptide dermaseptin S4 inhibits HIV-1 infectivity in vitro.

Most of HIV-1 infections are acquired through sexual contact. In the absence of a preventive vaccine, the development of topical microbicides that can block infection at the mucosal tissues is needed. Dermaseptin S4 (DS4) is an antimicrobial peptide derived from amphibian skin, which displays a broad spectrum of activity against bacteria, yeast, filamentous fungi, and herpes simplex virus type 1. We show here that DS4 inhibits cell-free and cell-associated HIV-1 infection of P4-CCR5 indicator cells and human primary T lymphocytes. The peptide is effective against R5 and X4 primary isolates and laboratory-adapted strains of HIV-1. Its activity is directed against HIV-1 particles by disrupting the virion integrity. Increasing the number of DS4-positive charges reduced cytotoxicity without affecting the antiviral activity. The modified DS4 inhibited HIV-1 capture by dendritic cells and subsequent transmission to CD4(+) T cells, as well as HIV-1 binding on HEC-1 endometrial cells and transcytosis through a tight epithelial monolayer.