Abstract
BackgroundAntimicrobial peptides (AMPs) play important roles in the innate defense mechanism. The broad spectrum of activity of AMPs requires an efficient permeabilization of the bacterial outer and inner membranes. The outer leaflet of the outer membrane of Gram negative bacteria is made of a specialized lipid called lipopolysaccharide (LPS). The LPS layer is an efficient permeability barrier against anti-bacterial agents including AMPs. As a mode of protection, LPS can induce self associations of AMPs rendering them inactive. Temporins are a group of short-sized AMPs isolated from frog skin, and many of them are inactive against Gram negative bacteria as a result of their self-association in the LPS-outer membrane.Principal FindingsUsing NMR spectroscopy, we have determined atomic resolution structure and characterized localization of temporin-1Ta or TA (FLPLIGRVLSGIL-amide) in LPS micelles. In LPS micelles, TA adopts helical conformation for residues L4-I12, while residues F1-L3 are found to be in extended conformations. The aromatic sidechain of residue F1 is involved in extensive packing interactions with the sidechains of residues P3, L4 and I5. Interestingly, a number of long-range NOE contacts have been detected between the N-terminal residues F1, P3 with the C-terminal residues S10, I12, L13 of TA in LPS micelles. Saturation transfer difference (STD) NMR studies demonstrate close proximity of residues including F1, L2, P3, R7, S10 and L13 with the LPS micelles. Notably, the LPS bound structure of TA shows differences with the structures of TA determined in DPC and SDS detergent micelles.SignificanceWe propose that TA, in LPS lipids, forms helical oligomeric structures employing N- and C-termini residues. Such oligomeric structures may not be translocated across the outer membrane; resulting in the inactivation of the AMP. Importantly, the results of our studies will be useful for the development of antimicrobial agents with a broader spectrum of activity.
Highlights
Ribosomally-made cationic antimicrobial peptides (AMPs) are the first line of innate defense of almost all living organisms against microbial pathogens [1,2,3,4]
The membrane-Antimicrobial peptides (AMPs) interactions are initiated by an ionic bonding between the positively charged residues of AMPs and the anionic head groups of the microbial membrane phospholipids.This initial binding event may lead to an insertion of the hydrophobic residues of AMPs into the non-polar core of membranes [9,10,11,12] Remarkably, the amphipathic character of AMPs in complex with phospholipid bilayers is a critical parameter for their membranolytic activity [9,10,11,12]
Drug resistant bacteria represent a major concern in human health and infectious diseases; and the discovery of novel antimicrobials is highly demanding to combat the emergence of antibiotic resistant pathogens
Summary
Ribosomally-made cationic antimicrobial peptides (AMPs) are the first line of innate defense of almost all living organisms against microbial pathogens [1,2,3,4]. Several AMPs have a potent and quick activity against bacteria, both Gram-negatives and Grampositives including multidrug resistant strains, viruses, fungi, parasites and cancer cells [5,6]. Despite differences in their conformation and length, most naturally occurring AMPs are able to select micro-organisms and physically permeate their membrane making it difficult for them to develop resistance. Temporins are a group of short-sized AMPs isolated from frog skin, and many of them are inactive against Gram negative bacteria as a result of their self-association in the LPS-outer membrane
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