Investigation of the Role of Aromatic Residues in the Antimicrobial Peptide BuCATHL4B

Matthew R. Necelis, Luis E. Santiago-Ortiz, Gregory A. Caputo

    Research output: Contribution to journalArticlepeer-review

    Abstract

    BACKGROUND: Antimicrobial Peptides (AMPs) are an attractive alternative to traditional small molecule antibiotics as AMPs typically target the bacterial cell membrane. A Trp-rich peptide sequence derived from water buffalo (Bubalus bubalis), BuCATHL4B was previously identified as a broad-spectrum antimicrobial peptide. OBJECTIVE: In this work, native Trp residues were replaced with other naturally occurring aromatic amino acids to begin to elucidate the importance of these residues on peptide activity. METHODS: Minimal Inhibitory Concentration (MIC) results demonstrated activity against seven strains of bacteria. Membrane and bilayer permeabilization assays were performed to address the role of bilayer disruption in the activity of the peptides. Lipid vesicle binding and quenching experiments were also performed to gain an understanding of how the peptides interacted with lipid bilayers. RESULTS: MIC results indicate the original, tryptophan-rich sequence, and the phenylalanine substituted sequences exhibit strong inhibition of bacterial growth. In permeabilization assays, peptides with phenylalanine substitutions have higher levels of membrane permeabilization than those substituted with tyrosine. In addition, one of the two-tyrosine substituted sequence, YWY, behaves most differently in the lowest antimicrobial activity, showing no permeabilization of bacterial membranes. Notably the antimicrobial activity is inherently species dependent, with varying levels of activity against different bacteria. CONCLUSION: There appears to be little correlation between membrane permeabilization and activity, indicating these peptides may have additional mechanisms of action beyond membrane disruption. The results also identify two sequences, denoted FFF and YYW, which retain antibacterial activity but have markedly reduced hemolytic activity.

    Original languageEnglish (US)
    Pages (from-to)388-402
    Number of pages15
    JournalProtein and Peptide Letters
    Volume28
    Issue number4
    DOIs
    StatePublished - 2021

    All Science Journal Classification (ASJC) codes

    • Structural Biology
    • Biochemistry

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