Effect of repetitive lysine-tryptophan motifs on the eukaryotic membrane

In a previous study, we synthesized a series of peptides containing simple sequence repeats, (KW)(n)-NH(2) (n = 2,3,4 and 5) and determined their antimicrobial and hemolytic activities, as well as their mechanism of antimicrobial action. However, (KW)(5) showed undesirable cytotoxicity against RBC c...

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Bibliographic Details
Published in:International journal of molecular sciences 2013-01, Vol.14 (1), p.2190-2202
Main Authors: Gopal, Ramamourthy, Lee, Jong Kook, Lee, Jun Ho, Kim, Young Gwon, Oh, Gwang Chae, Seo, Chang Ho, Park, Yoonkyung
Format: Article
Language:English
Subjects:
(KW)5
aggregation
Amino Acid Motifs
Antibiotics
Cell Membrane - chemistry
Cell Membrane Permeability
Cholesterol
Cytotoxicity
Eukaryotic Cells - chemistry
eukaryotic membrane
hemolytic peptide
Lipids
Lysine - chemistry
Membranes
Membranes, Artificial
Models, Chemical
Peptides
Peptides - chemistry
phosphatidylcholine
sphingomyelin
Toxicity
Tryptophan - chemistry
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Summary:In a previous study, we synthesized a series of peptides containing simple sequence repeats, (KW)(n)-NH(2) (n = 2,3,4 and 5) and determined their antimicrobial and hemolytic activities, as well as their mechanism of antimicrobial action. However, (KW)(5) showed undesirable cytotoxicity against RBC cells. In order to identify the mechanisms behind the hemolytic and cytotoxic activities of (KW)(5), we measured the ability of these peptides to induce aggregation of liposomes. In addition, their binding and permeation activities were assessed by Trp fluorescence, calcein leakage and circular dichrorism using artificial phospholipids that mimic eukaryotic liposomes, including phosphatidylcholine (PC), PC/sphingomyelin (SM) (2:1, w/w) and PC/cholesterol (CH) (2:1, w/w). Experiments confirmed that only (KW)(5) induced aggregation of all liposomes; it formed much larger aggregates with PC:CH (2:1, w/w) than with PC or PC:SM (2:1, w/w). Longer peptide (KW)(5), but not (KW)(3) or (KW)(4), strongly bound and partially inserted into PC:CH compared to PC or PC:SM (2:1, w/w). Calcein release experiments showed that (KW)(5) induced calcein leakage from the eukaryotic membrane. Greater calcein leakage was induced by (KW)(5) from PC:CH than from PC:SM (2:1, w/w) or PC, whereas (KW)(4) did not induce calcein leakage from any of the liposomes. Circular dichroism measurements indicated that (KW)(5) showed higher conformational transition compared to (KW)(4) due to peptide-liposome interactions. Taken together, our results suggest that (KW)(5) reasonably mediates the aggregation and permeabilization of eukaryotic membranes, which could in turn explain why (KW)(5) displays efficient hemolytic activity.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms14012190