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1.
Biochemistry (Mosc) ; 75(6): 728-33, 2010 Jun.
Article in English | MEDLINE | ID: mdl-20636264

ABSTRACT

The addition of the channel-forming domain of colicin E1 to liposomes elicited the transmembrane diffusion (flip-flop) of lipids concomitant to the release of the fluorescent dye from liposomes. Good correlation was found between kinetic and concentration dependences of the two processes. Both the liposome leakage and the lipid flip-flop were stimulated upon alkalinization of the buffer solution after colicin binding at acidic pH. These results in combination with the analysis of the data on colicin binding to liposomes provide evidence in favor of the validity of the toroidal (proteolipidic) pore model as the mechanism of colicin channel formation.


Subject(s)
Colicins/metabolism , Lipids/chemistry , Liposomes/metabolism , Diffusion , Fluorescent Dyes/metabolism , Hydrogen-Ion Concentration , Kinetics , Protein Binding , Spectrometry, Fluorescence
2.
Bioorg Khim ; 33(5): 511-9, 2007.
Article in Russian | MEDLINE | ID: mdl-18050656

ABSTRACT

The channel-forming activity of gramicidin A derivatives carrying positively charged amino acid sequences at their C-termini was studied on planar bilayer lipid membranes and liposomes. We showed previously that, at low concentrations, these peptides form classical cation-selective pores typical of gramicidin A, whereas, at high concentrations, they form large nonselective pores. The ability of the peptides to form nonselective pores, which was determined by the efflux of carboxyfluorescein, an organic dye, from liposomes, decreased substantially as the length of the gramicidin fragment in the series of cationic analogues was truncated. CD spectra showed that large pores are formed by peptides having both beta6.3 single-stranded and beta5.6 double-stranded helical conformations of the gramicidin fragment, with the C-terminal cationic sequence being extended. The dimerization of the peptides by the oxidation of the terminal cysteine promoted the formation of nonselective pores. It was shown that nonselective pores are not formed in membranes of erythrocytes, which may indicate a dependence of the channel-forming ability on the membrane type. The results may be of interest for the directed synthesis of peptides with antibacterial activity.


Subject(s)
Anti-Bacterial Agents/chemistry , Gramicidin/analogs & derivatives , Gramicidin/chemistry , Ion Channels/chemistry , Lipid Bilayers/chemistry , Amino Acid Sequence , Dimerization , Erythrocyte Membrane/chemistry , Gramicidin/chemical synthesis , Humans , Liposomes/chemistry , Peptides/chemical synthesis , Peptides/chemistry , Porosity
3.
Biochemistry (Mosc) ; 71(1): 99-103, 2006 Jan.
Article in English | MEDLINE | ID: mdl-16457626

ABSTRACT

Based on the model of a toroidal protein-lipid pore, the effect of calcium ions on colicin E1 channel was predicted. In electrophysiological experiments Ca2+ suppressed the activity of colicin E1 channels in membranes formed of diphytanoylphosphatidylglycerol, whereas no desorption of the protein occurred from the membrane surface. The effect of Ca2+ was not observed on membranes formed of diphytanoylphosphatidylcholine. Single-channel measurements revealed that Ca2+-induced reduction of the colicin-induced current across the negatively charged membrane was due to a decrease in the number of open colicin channels and not changes in their properties. In line with the toroidal model, the effect of Ca2+ on the colicin E1 channel-forming activity is explained by alteration of the membrane lipid curvature caused by electrostatic interaction of Ca2+ with negatively charged lipid head groups.


Subject(s)
Calcium/metabolism , Colicins/metabolism , Ion Channels/metabolism , Electric Conductivity , Lipid Bilayers/metabolism , Lipid Metabolism , Lipids/chemistry
4.
J Membr Biol ; 199(1): 51-62, 2004 May 01.
Article in English | MEDLINE | ID: mdl-15366423

ABSTRACT

Chemical modification and photodynamic treatment of the colicin E1 channel-forming domain (P178) in vesicular and planar bilayer lipid membranes (BLMs) was used to elucidate the role of tryptophan residues in colicin E1 channel activity. Modification of colicin tryptophan residues by N-bromosuccinimide (NBS), as judged by the loss of tryptophan fluorescence, resulted in complete suppression of wild-type P178 channel activity in BLMs formed from fully saturated (diphytanoyl) phospholipids, both at the macroscopic-current and single-channel levels. The similar effect on both the tryptophan fluorescence and the electric current across BLM was observed also after NBS treatment of gramicidin channels. Of the single-tryptophan P178 mutants studied, W460 showed the highest sensitivity to NBS treatment, pointing to the importance of the water-exposed Trp460 in colicin channel activity. In line with previous work, the photodynamic treatment (illumination with visible light in the presence of a photosensitizer) led to suppression of P178 channel activity in diphytanoyl-phospholipid membranes concomitant with the damage to tryptophan residues detected here by a decrease in tryptophan fluorescence. The present work revealed novel effects: activation of P178 channels as a result of both NBS and photodynamic treatments was observed with BLMs formed from unsaturated (dioleoyl) phospholipids. These phenomena are ascribed to the effect of oxidative modification of double-bond-containing lipids on P178 channel formation. The pronounced stimulation of the colicin-mediated ionic current observed after both pretreatment with NBS and sensitized photomodification of the BLMs support the idea that distortion of membrane structure can facilitate channel formation.


Subject(s)
Colicins/metabolism , Gramicidin/metabolism , Ion Channels/physiology , Lipid Bilayers/metabolism , Membrane Lipids/metabolism , Bromosuccinimide/pharmacology , Ion Channels/drug effects , Mutation/genetics , Oxidation-Reduction/drug effects , Tryptophan/metabolism
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