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The structural parameters for antimicrobial activity, human epithelial cell cytotoxicity and killing mechanism of synthetic monomer and dimer analogues derived from hBD3 C-terminal region |
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| Authors: | L Zhou S P Liu L Y Chen J Li L B Ong L Guo T Wohland C C Tang R Lakshminarayanan J Mavinahalli C Verma R W Beuerman |
| Institution: | 1. Singapore Eye Research Institute, Singapore, Singapore 2. Department of Ophthalmology, Yong Loo Lin School of Medicine, National University of Singapore, Singapore, Singapore 3. Department of Chemistry, National University of Singapore, Singapore, Singapore 4. Department of Pharmaceutical Microbiology, Singapore General Hospital, Singapore, Singapore 5. Bioinformatics Institute (ASTAR), Singapore, Singapore 6. Duke-NUS Graduate Medical School, SRP Neuroscience and Behavioral Disorders, Singapore, Singapore |
| Abstract: | Understanding the molecular mechanisms of antimicrobial peptide?Cmembrane interactions is crucial in predicting the design of useful synthetic antimicrobial peptide analogues. Defensins are small (3?C5?kDa) cysteine-rich cationic proteins which constitute the front line of host innate immunity. In this study, a series of eight 10 AA C-terminal analogues of hBD3 sequence: RGRKXXRRKK, X?=?W, F, Y, V, L, I, H, C(Acm); net charge?=?+7, coded as W2, F2, Y2, V2, L2, I2, H2, and C2] and covalent V2-dimer (RGRKVVRR)2KK] (18 AA, net charge?=?+11) were synthesized using solid phase peptide synthesis (SPPS) in Fmoc chemistry. Wild-type hBD3 was used as a control in all analyses. W2, V2, and especially Y2 showed high activity selectively against Gram-negative bacteria Pseudomonas aeruginosa in the concentration range of 4.3?C9.7???M. The covalent dimeric form of V2-monomer, V2-dimer, showed increased antibacterial killing compared to the monomeric form, V2-monomer. Cytotoxicity assays on a human conjunctival epithelial cell line (IOBA-NHC cells) showed that no change in viable cell number 24?h after constant exposure to all the eight peptide analogues even at concentrations up to 200???g/ml. Fluorescence correlation spectroscopy (FCS) was used to study the interaction of these peptides against POPC vesicles (neutral; mammalian cell membrane mimic) and POPG vesicles (negatively charged; bacterial cell membrane mimic). Using FCS, significant aggregation and some leakage of Rhodamine dye were observed with POPG with Y2, W2 and V2 at the concentration of 5?C10???M and no significant aggregation or disruption of vesicles was observed for all peptide analogues tested against POPC. V2-dimer induced more leakage and aggregation than the monomeric form. Overall, V2-dimer is the most effective antimicrobial peptide, with aggregation of POPG vesicles observed at concentrations as low as 1???M. The concentration of 5?C10???M for Y2 from FCS correlated with the concentration of 5???M (6.25???g/ml), at which Y2 showed a cooperative increase in the activity. This suggests a structural transition of Y2 in the 2.5?C5???M concentration range resulting in the correlated increased antimicrobial activity. These results and the FCS together with previous NMR and molecular dynamics (MD) suggested that the charge density-based binding affinity, stable covalent dimerization, the ability to dimerize or even oligomerize and adopt a well-defined structure are important physicochemical properties distinguishing more effective cationic antimicrobial peptides. |
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