Related ArticlesA 2H solid-state NMR study of lipid clustering by cationic antimicrobial and cell-penetrating peptides in model bacterial membranes.
Biophys J. 2013 Nov 19;105(10):2333-42
Authors: Kwon B, Waring AJ, Hong M
Abstract
Domain formation in bacteria-mimetic membranes due to cationic peptide binding was recently proposed based*on calorimetric data. We now use (2)H solid-state NMR to critically examine the presence and absence of domains in bacterial membranes containing zwitterionic 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphatidylethanolamine (POPE) and anionic 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphatidylglycerol (POPG) lipids. Chain-perdeuterated POPE and POPG are used in single-component membranes, binary POPE/POPG (3:1) membranes, and membranes containing one of four cationic peptides: two antimicrobial peptides (AMPs) of the ?-hairpin family of protegrin-1 (PG-1), and two cell-penetrating peptides (CPPs), HIV TAT and penetratin. (2)H quadrupolar couplings were measured to determine the motional amplitudes of POPE and POPG acyl chains as a function of temperature. Homogeneously mixed POPE/POPG membranes should give the same quadrupolar couplings for the two lipids, whereas the presence of membrane domains enriched in one of the two lipids should cause distinct (2)H quadrupolar couplings that reflect different chain disorder. At physiological temperature (308 K), we observed no or only small coupling differences between POPE and POPG in the presence of any of the cationic peptides. However, around ambient temperature (293 K), at which gel- and liquid-crystalline phases coexist in the peptide-free POPE/POPG membrane, the peptides caused distinct quadrupolar couplings for the two lipids, indicating domain formation. The broad-spectrum antimicrobial peptide PG-1 ordered ~40% of the POPE lipids while disordering POPG. The Gram-negative selective PG-1 mutant, IB549, caused even larger differences in the POPE and POPG disorder: ~80% of POPE partitioned into the ordered phase, whereas all of the POPG remained in the disordered phase. In comparison, TAT rigidified POPE and POPG similarly in the binary membrane at ambient temperature, indicating that TAT does not cause dynamic heterogeneity but interacts with the membrane with a different mechanism. Penetratin maintained the POPE order but disordered POPG, suggesting moderate domain separation. These results provide insight into the extent of domain formation in bacterial membranes and the possible peptide structural requirements for this phenomenon.
Characterization of Mapcho Bicelles - Model Membranes for the NMR Study of Membrane Proteins and Peptides
Characterization of Mapcho Bicelles - Model Membranes for the NMR Study of Membrane Proteins and Peptides
Publication date: 28 January 2014
Source:Biophysical Journal, Volume 106, Issue 2, Supplement 1</br>
Author(s): Maïwenn Beaugrand , Alexandre A. Arnold , Philip T.F. Williamson , Isabelle Marcotte</br>
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01-29-2014 12:50 AM
[NMR paper] Cationic membrane peptides: atomic-level insight of structure-activity relationships from solid-state NMR.
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http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--production.springer.de-OnlineResources-Logos-springerlink.gif Related Articles Cationic membrane peptides: atomic-level insight of structure-activity relationships from solid-state NMR.
Amino Acids. 2013 Mar;44(3):821-33
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Abstract
Many membrane-active peptides, such as cationic cell-penetrating peptides (CPPs) and antimicrobial peptides...
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08-15-2013 07:45 PM
[NMR paper] Interactions of lipopolysaccharide with lipid membranes, raft models - a solid state NMR study.
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Biochim Biophys Acta. 2013 Apr 5;
Authors: Ciesielski F, Griffin DC, Rittig M, Moriyón I, Bonev BB
Abstract
Lipopolysaccharide (LPS) is a major component of the external leaflet of bacterial outer membranes, key pro-inflammatory factor and an important mediator of host-pathogen interactions. In host cells it activates the complement...
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04-10-2013 07:21 PM
[NMR paper] Determining the mode of action involved in the antimicrobial activity of synthetic peptides: a solid-state NMR and FTIR study.
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Biophys J. 2012 Oct 3;103(7):1470-9
Authors: Lorin A, Noël M, Provencher MÈ, Turcotte V, Cardinal S, Lagüe P, Voyer N, Auger M
Abstract
We have previously...
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Solid-State (19)F-NMR of Peptides in Native Membranes.
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Top Curr Chem. 2011 May 20;
Authors: Koch K, Afonin S, Ieronimo M, Berditsch M, Ulrich AS
To understand how membrane-active peptides (MAPs) function in vivo, it is essential to obtain structural information about them in their membrane-bound state. Most biophysical approaches rely on the use of bilayers prepared from synthetic phospholipids, i.e. artificial model membranes. A particularly successful structural method is solid-state NMR,...
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05-21-2011 07:51 PM
Structure and dynamics of cationic membrane peptides and proteins: Insights from solid-state NMR.
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Protein Sci. 2011 Feb 22;
Authors: Hong M, Su Y
Many membrane peptides and protein domains contain functionally important cationic Arg and Lys residues, whose insertion into the hydrophobic interior of the lipid bilayer encounters significant energy barriers. To understand how these cationic molecules overcome the free energy barrier to insert into the...
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02-24-2011 11:04 AM
Long-Term-Stable Ether-Lipid vs Conventional Ester-Lipid Bicelles in Oriented Solid-State NMR: Altered Structural Information in Studies of Antimicrobial Peptides.
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J Phys Chem B. 2011 Feb 10;
Authors: Bertelsen K, Vad B, Nielsen EH, Hansen SK, Skrydstrup T, Otzen DE, Vosegaard T, Nielsen NC
Recently, ether lipids have been introduced as long-term stable alternatives to the more natural,...
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02-12-2011 05:26 PM
19F NMR analysis of the antimicrobial peptide PGLa bound to native cell membranes fro
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J Am Chem Soc. 2010 Jul 7;132(26):8822-4
Authors: Ieronimo M, Afonin S, Koch K, Berditsch M, Wadhwani P, Ulrich AS
(19)F NMR is a unique tool to examine the structure of fluorine-labeled peptides in their native cellular environment, due to an exquisite sensitivity...
A 2H solid-state NMR study of lipid clustering by cationic antimicrobial and cell-penetrating peptides in model bacterial membranes.
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