AI Article Synopsis
- Chem-KVL is a modified peptide derived from the human defense protein chemerin, designed to enhance antibacterial properties by increasing cationicity and hydrophobicity.
- Researchers created various versions of Chem-KVL peptides (Chem-A1 to Chem-A14 and SCL-1 to SCL-7) to analyze their antibacterial activity, proteolytic stability, and cytotoxicity through alanine and stapling scans.
- Key findings showed that specific charged and hydrophobic amino acids were essential for the peptide's effectiveness, with staples enhancing activity and stability, particularly in peptides SCL-4 and SCL-7, making them promising candidates for antimicrobial therapy.
Article Abstract
Chem-KVL is a tandem repeating peptide, with 14 amino acids that was modified based on a short peptide from a fragment of the human host defense protein chemerin. Chem-KVL increases cationicity and hydrophobicity and shows broad-spectrum antibacterial activity. To determine the molecular determinants of Chem-KVL and whether staple-modified Chem-KVL would improve antibacterial activity and protease stability or decrease cytotoxicity, we combined alanine and stapling scanning, and designed a series of alanine and staple-derived Chem-KVL peptides, termed Chem-A1 to Chem-A14 and SCL-1 to SCL-7. We next examined their antibacterial activity against several gram-positive and gram-negative bacteria, their proteolytic stability, and their cytotoxicity. Ala scanning of Chem-KVL suggested that both the positively charged residues (Lys and Arg) and the hydrophobic residues (Lue and Val) were critical for the antibacterial activities of Chem-KVL peptide. Of note, Chem-A4 was able to remarkably inhibit the growth of gram-positive and gram-negative bacteria when compared to the original peptide. And the antibacterial activities of stapled SCL-4 and SCL-7 were several times higher than those of the linear peptide against gram-positive and gram-negative bacteria. Stapling modification of peptides resulted in increased helicity and protein stability when compared with the linear peptide. These stapled peptides, especially SCL-4 and SCL-7, may serve as the leading compounds for further optimization and antimicrobial therapy.
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| http://dx.doi.org/10.1016/j.bmcl.2024.129794 | DOI Listing |
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