AI Article Synopsis
- Biologically active peptides, particularly mastoparans from wasp venom, show potential for drug development due to their various biological effects, but their hemolytic activity poses challenges for clinical use.
- A study of 55 mastoparans revealed differing levels of hemolytic activity, with 18 exhibiting strong, 14 moderate, and 23 minimal hemolytic effects, highlighting molecular diversity among these peptides.
- Further analysis indicated that hydrophobicity is key to hemolytic activity, and four specific mastoparans (Parapolybia-MP, Mastoparan-like peptide 12b, Dominulin A, and Dominulin B) were identified as promising
Article Abstract
Biologically active peptides have attracted increasing attention in research on the development of new drugs. Mastoparans, a group of wasp venom linear cationic α-helical peptides, have a variety of biological effects, including mast cell degranulation, activation of protein G, and antimicrobial and anticancer activities. However, the potential hemolytic activity of cationic α-helical peptides greatly limits the clinical applications of mastoparans. Here, we systematically and comprehensively studied the hemolytic activity of mastoparans based on our wasp venom mastoparan family peptide library. The results showed that among 55 mastoparans, 18 had strong hemolytic activity (EC ≤ 100 μM), 14 had modest hemolytic activity (100 μM < EC ≤ 400 μM) and 23 had little hemolytic activity (EC > 400 μM), suggesting functional variation in the molecular diversity of mastoparan family peptides from wasp venom. Based on these data, structure-function relationships were further explored, and, hydrophobicity, but not net charge and amphiphilicity, was found to play a critical role in the hemolytic activity of mastoparans. Combining the reported antimicrobial activity with the present hemolytic activity data, we found that four mastoparan peptides, Parapolybia-MP, Mastoparan-like peptide 12b, Dominulin A and Dominulin B, have promise for applications because of their high antimicrobial activity (MIC ≤ 10 μM) and low hemolytic activity (EC ≥ 400 μM). Our research not only identified new leads for the antimicrobial application of mastoparans but also provided a large chemical space to support the molecular design and optimization of mastoparan family peptides with low hemolytic activity regardless of net charge or amphiphilicity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10611374 | PMC |
| http://dx.doi.org/10.3390/toxins15100591 | DOI Listing |
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