High-resolution mass spectrometry-based peptidomics has been used to characterize several components in electro-stimulated skin secretions of the endemic Mexican frog Pachymedusa dacnicolor. Peptide mass screening performed in an Orbitrap-XL mass spectrometer showed that P. dacnicolor skin secretions possess 194 different components with molecular masses ranging mainly from 500 to 6,000 Da. Dozens of molecules were partially sequenced including two novel protease inhibitors. Additionally, one posttranslationally modified bradykinin and two novel dermaseptin-like antimicrobial peptides were fully sequenced. The novel peptide named here DMS-DA5 was fully characterized and showed potent antibacterial activity against various bacteria such as Escherichia coli, Bacillus subtilis, Salmonella enterica serovar typhimurium, and Pseudomonas aeruginosa with minimal inhibitory concentrations from 3.10 to 25.0 microM.
Disulfide C-terminal loop fragments derived from AMPs and the presence of peptidases have been previously reported in the skin secretions of different amphibians. However, there are only a few studies on the identification of enzymes in frog skin secretion based on the primary structure of these proteins. Similarly, little data exist regarding the identification of disulfide C-terminal loops at large scale. Therefore, a comprehensive study on this issue certainly could bring in much more information for understanding this molecular process and its biochemical consequences. Thus, the aim of this work was to characterize the presence of disulfide C-terminal loop fragments of AMPs and identify the proteins and probable enzymes present in the completely unknown secretion contents of the frog Lithobates spectabilis. For this purpose, high-resolution mass spectrometry was applied to analyze the skin secretions processed by two different protocols: (1) using a cocktail of enzymatic inhibitors and 2) without any protease inhibitors, maintaining the solution for 2 hours at 10°C. Results from procedure-1, revealed 122 molecular masses, whereas procedure-2 permitted 253 different molecular masses to be identified. Fifty-nine peptides including 22 disulfide C-terminal loop-containing peptides were obtained following procedure-2. Polyacrylamide gel electrophoresis separation, tryptic digestion and LCMS/ MS were used for "de novo" sequencing of 111 different peptides and the unequivocal identification of fifteen proteins including at least three different peptidases. Additionally, it was possible to fully sequence eight peptides, including a ranatuerin-related peptide identified here as Spectabilin, that was subsequently chemically synthesized and showed high antibacterial, antiparasitic and cytotoxic activities.
In this work, we describe the original characterization of peptides and proteins present in the skin secretions of the Mexican amphibian Hyla eximia. To this purpose, a novel water/dark extraction method, as well as the classic electrical stimulation procedure, was applied in order to extract the skin secretion. Two novel antimicrobial peptides He-1 and He-2 were sequenced. In addition, a molecular mass fingerprint revealed more than one hundred different molecules. Eight peptides in homogeneous form were assayed against five species of bacteria. Thereafter, the peptide He-2 demonstrated high antiparasitic activity against ookinete forms of malaria parasites at low concentration.
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