National Committee on Marine Sciences (NCMS)
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- Total synthesis and bioactivity evaluation of hydrophobic microcionamide‐inspired peptidesInocentes, Carl Rogel V.; Salvador‐Reyes, Lilibeth A.; Villaraza, Aaron Joseph L. (Wiley, 2023-01)In this report, we describe the facile synthesis of four microcionamide-inspired peptides where the atypical 2-phenylethylenamine (2-PEA) functional group in the marine natural product, microcionamide A, was replaced with a similarly-aromatic but more easily incorporated tryptophan (Trp) residue. Compounds 1–4 were synthesized using a standard Fmoc-based solid-phase synthesis strategy followed by iodine-mediated on-resin cyclization for disulfide-bridged compounds 1–3. Compound 1 showed antimicrobial activity against Staphylococcus aureus and Pseudomonas aeruginosa, with minimum inhibitory concentrations (MICs) of 9.1 μM and 15 μM, respectively. The inactivity of alanine analogs 2–4 against these pathogens suggests that the N-terminal Val, the cyclic scaffold, the contiguous Ile residues, and consequently, the hydrophobicity of compound 1 are essential for antibacterial activity. Compound 1 also favorably exhibited minimal cytotoxicity against normal mammalian cell lines. In summary, we have synthesized an analog of microcionamide A where replacement of the 2-PEA moiety with a Trp residue retained the antibacterial activity and with favorably low cytotoxicity.
- On-resin synthesis of the somatostatin venom analog Consomatin Ro1de Boda, Ramoncito Luis; Acyatan, Zildjian; Concepcion, Gisela; Villaraza, Aaron Joseph (Philippine-American Academy of Science and Engineering, 2023-08-29)Consomatin Ro1 is a disulfide-containing peptide derived from the venom of the cone snail Conus rolani with a sequence that is similar to the vertebrate peptide hormone somatostatin. It has been shown to preferentially activate human somatostatin receptor subtypes 1 and 4, and to exhibit antinociceptive and antihyperalgesic properties making it an interesting peptide to study and develop as a chemical probe or an analgesic drug. Here, we describe the synthesis of Consomatin Ro1 using an onresin approach wherein the disulfide bond is formed while the peptide is still attached to the resin. This was achieved by selectively removing the methoxytrityl protecting group of Cys residues with a weak acidic mixture, and treating the resulting thiol-containing peptidyl resin with the mild oxidant Nchlorosuccinimide. The strategy yielded a considerably higher amount of the peptide when compared with the previously reported in-solution disulfide formation method.This work was funded by the Department of Science and Technology through Project 1. Anti-Pain and AntiNeurodegeneration Drug Candidates: Discovery and Development under the Discovery and Development of Health Products - Marine Component (Phase II) program. The authors would like to thank the Philippine Council for Health Research and Development for monitoring the research project.