The antimicrobial activity of bovine lactoferrin (bLF) is attributed to lactoferricin, which is situated in the N1-domain of bLF. Recently, another antimicrobial domain consisting of residues 268-284, designated lactoferrampin (LFampin), has been identified in the N1-domain of bLF, which exhibited antimicrobial activity against Candida albicans and several bacteria. In the present study, the candidacidal activity of a series of peptides spanning this antimicrobial domain was investigated in relation to the charge and the capacity to form a helical conformation in hydrophobic environments. C-Terminal truncation of LFampin resulted in a drastic decrease in candidacidal activity. Positively charged residues clustered at the C-terminal side of the LFampin domain appeared to be crucial for the candidacidal activity. The ability to adopt helical conformations did not change when LFampin was truncated at the C-terminal side. N-Terminally truncated LFampin peptides, truncated up to the sequence 270-284, were more reluctant to adopt a helical conformation. Therefore, we conclude that the C-terminal part of LFampin 265-284, which is the most active peptide, is crucial for its candidacidal activity, due to the presence of clustered positive charges, and that the N-terminal part is essential for activity as it facilitates helix formation.
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Article Synopsis
- - This study looked at how different zinc compounds (like zinc chloride and gluconate) affect the activities of key enzymes (lysozyme, peroxidase) and their ability to combat fungi, particularly Candida albicans.
- - Results showed that zinc gluconate and sulfate boosted lysozyme activity while all zinc compounds reduced peroxidase activity, with zinc binding to these enzymes in varying degrees.
- - The zinc compounds were effective against C. albicans, with a minimum inhibitory concentration of 1.0-2.4 mM and showing candidacidal activity ranging from 17.7-47.0%, suggesting they could be useful for improving oral health, especially in older adults.
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