HP(2-9)-magainin 2(1-12), a synthetic hybrid peptide, exerts its antifungal effect on Candida albicans by damaging the plasma membrane.

In our previous study, HP(2-9)-MA(1-12), HP-MA for short, a hybrid peptide incorporating residues 2-9 of Helicobacter pylori ribosomal protein L1 (HP) and residues 1-12 of magainin 2 (MA) was shown to have strong antibacterial activity. In this study the antifungal activity of HP-MA was evaluated using various fungi, and it was shown that the activity was increased when compared with the parent peptides. In order to investigate the fungicidal mechanism(s) of HP-MA its action against fungal cell membranes was examined by the potassium-release test, which showed that HP-MA caused an increase in the amount of K+ released from the cells. Furthermore, HP-MA induced significant morphological changes. These facts suggested that the fungicidal effect of HP-MA involves damaging the fungal cell membranes. CD investigators suggested that the alpha-helical structure of these peptides plays an important role in their antibiotic effect, but that alpha-helicity is less directly correlated with the enhanced antibiotic activity of the hybrid.     

Influence on the plasma membrane of Candida albicans by HP (2-9)-magainin 2 (1-12) hybrid peptide

A 20-residue hybrid peptide (HP (2-9)-MA (1-12): HP-MA), incorporating 2-9 residues of Helicobacter pyroli ribosomal protein L1 (HP) and 1-12 residues of magainin 2 (MA), has more potent antibacterial activity than parent peptide HP (2-20) and magainin 2. In this study, the antifungal activity and its mechanism of HP-MA were investigated. HP-MA displayed a strong antifungal activity in an energy-dependent manner. To elucidate the antifungal mechanism(s) of HP-MA, FACScan analysis and the change in membrane dynamics using 1,6-diphenyl-1,3,5-hexatriene (DPH) as a membrane probe of Candida albicans were examined. The results indicated that the HP-MA exerts its antifungal effect by acting on the plasma membrane. Furthermore, the peptide induced remarkable morphological change when tested for membrane disrupting activity using liposomes (PC/Cholesterol; 10:1, w/w). In C. albicans, dimorphism plays a crucial role in pathogenesis but HP-MA could disrupt the mycelial forms and exert its antifungal effect on the blastoconidia in 20% fetal bovine serum.     

Importance of the length of the N- and C-terminal regions of Helicobacter pylori ribosomal protein L1 (RPL1) on its antimicrobial activity

HP (2-20) (AKKVFKRLEKLFSKIQNDK-NH₂) is an antibacterial 19-mer peptide derived from the N-terminal region of Helicobacter pylori ribosomal protein L1 (RPL1). Several truncated peptides were synthesized to investigate the effects of the N- or C-terminal regions of HP (2-20) on antimicrobial activity. The antimicrobial activity of the peptides was measured by their growth inhibitory effect upon Pseudomonas aeruginosa, Salmonella typhimurium, Saccharomyces cerevisae, Trichosporon beigelii and Candida albicans. Antimicrobial activity required a full length N-terminus. None of the peptides exhibited hemolytic activity against human erythrocyte cells. The membrane-disrupting activity of these peptides, using liposomes and 1,6-diphenyl-1,3,5-hexatriene (DPH) as a probe, confirmed that the full N-terminal region of HP (2-20) is a prerequisite for antibiotic activity and that this region may facilitate penetration of the cell membrane. Circular dichroism indicated that the -helical structure of the peptides important for antimicrobial activity.     

Solid-state NMR study of antimicrobial peptides from Australian frogs in phospholipid membranes

Antimicrobial peptides, isolated from the dorsal glands of Australian tree frogs, possess a wide spectrum of biological activity and some are specific to certain pathogens. These peptides have the capability of disrupting bacterial membranes and lysing lipid bilayers. This study focused on the following amphibian peptides: (1) aurein 1.2, a 13-residue peptide; (2) citropin 1.1, with 16 residues; and (3) maculatin 1.1, with 21 residues. The antibiotic activity and structure of these peptides have been studied and compared and possible mechanisms by which the peptides lyse bacterial membrane cells have been proposed. The peptides adopt amphipathic -helical structures in the presence of lipid micelles and vesicles. Specifically ¹⁵N-labelled peptides were studied using solid-state NMR to determine their structure and orientation in model lipid bilayers. The effect of these peptides on phospholipid membranes was determined by ²H and ³¹P solid-state NMR techniques in order to understand the mechanisms by which they exert their biological effects that lead to the disruption of the bacterial cell membrane. Aurein 1.2 and citropin 1.1 are too short to span the membrane bilayer while the longer maculatin 1.1, which may be flexible due to the central proline, would be able to span the bilayer as a transmembrane -helix. All three peptides had a peripheral interaction with phosphatidylcholine bilayers and appear to be located in the aqueous region of the membrane bilayer. It is proposed that these antimicrobial peptides have a "detergent"-like mechanism of membrane lysis.This paper was submitted as a record of the 2002 Australian Biophysical Society     

Interaction of amphipathic peptides with an immobilised model membrane

The interaction of melittin and a truncated analogue of melittin with an immobilised phosphatidylcholine monolayer has been studied using dynamic elution techniques. The melittin analogue (21Q analogue) had five amino acids omitted from the C-terminal region of melittin. The influence of temperature and methanol concentration on the binding affinity of the two peptides was determined and compared to the binding behaviour of two control molecules N-acetyltryptophanamide and diphenylalanine. Both peptides exhibited non-linear dependence of affinity on % methanol at different temperatures, while N-acetyltryptophanamide and diphenylalanine exhibited linear behaviour. In addition, both melittin and the 21Q analogue exhibited significant band broadening under a range of experimental conditions, which was not evident for N-acetyltryptophanamide and diphenylalanine. As melittin is known to adopt a significant degree of -helical conformation in the presence of lipids, the results suggest that melittin and the 21Q analogue adopt different conformations and orientations upon binding to the immobilised phosphatidylcholine surface. Overall, the results of this study demonstrate that the immobilised lipid monolayer provides a powerful system to rapidly assess the affinity of peptides for different lipid surfaces.     

Antimicrobial peptides containing arginine

Tetradecapeptides (RLARLAR)₂, D-(RLARLAR)₂, (RLARLAA)₂, and (RLGRLGR)₂ were synthesized by a solid phase method using Fmoc-amino acids. The antibacterial activity of the synthesized peptides was studied against Escherichia coli cells. The minimum inhibitory concentration (MIC) was, correspondingly, 3, 1, 3, and 12 M, which is comparable with MIC of such natural antimicrobial peptides as temporin, magainin, and dermaseptin. It was found that all of the synthesized peptides have no effect on human erythrocytes and rat thymocytes. The peptides form -helices in 30% trifluoroethanol and in 2.5 mM SDS, which have amphipathic structure.     

Hemoglobin binding with haptoglobin: Delineation of the haptoglobin binding site on the α-chain of human hemoglobin

Previous studies from this laboratory employing a comprehensive synthetic overlapping peptide strategy showed that the -chain of human hemoglobin (Hb) contains a single haptoglobin (HP) binding region residing within residues 121–135. The present study describes a precise delineation of this Hp-binding site on the -chain. Two overlapping peptides (111–125 and 121–135) spanning this region and a panel of five peptides decreasing at the C-terminal from residue 135 by decrements of two residues (119–135, 119–133, 119–131, 119–129, and 119–127) were synthesized, purified, and characterized. Quantitative radiometric titration of¹²⁵I-labeled human HP (type 2-1) with adsorbents of each of these synthetic peptides showed that the peptide 119–127 retained a Hp-binding activity equivalent to that of peptide 121–135. This finding indicated that Lys-127 marked the C-terminal boundary of the binding site. Another panel of eight peptides was then synthesized, which had their C-terminus fixed at Lys-127 and increased at the N-terminus by one-residue increments from residue 122 up to residue 115 (122–127, 121–127, 120–127, 119–127, 118–127, 117–127, 116–127, and 115–127). The binding of¹²⁵I-Hp to adsorbents of these peptides demonstrated that the N-terminal boundary of the site did not extend beyond Valine 121. It is, therefore, concluded that the Hp-binding site on the -chain of human Hb comprises residues 121–127.     

A Nonstatistical Approach to the Prediction of Regular Structures in Proteins by the Example of α Helices

A new approach to the analysis of regular structures in proteins that is based on the method of molecular mechanics is proposed. The method uses only the information about the amino acid sequence. The -helical conformation was simulated using the ICM program of molecular mechanics. Energy profiles of the sequences in the -helical conformation, spanning the entire polypeptide chain, were plotted for eight proteins from the Protein Data Bank. The regions of each profile that exhibit energy minima were found to correspond to the -helical regions of the real spatial structure of the protein. Twenty-four out of 25 helices were distinctly pronounced, which indicates a rather high accuracy of the prediction. The energy profiles also help reveal the short regions that correspond to 3/10-helices and the turns that include local -helical conformations. Unlike the known statistical methods of prediction, this method makes it possible to establish the physical principles of the formation of -helical conformations.     

Conformation of the transmembrane domain of the c-erbB-2 oncogene-encoded protein in its monomeric and dimeric states

The human c-erbB-2 oncogene is homologous to the ratneu oncogene, both encoding transmembrane growth factor receptors. Overexpression and point mutations in the transmembrane domain of the encoded proteins in both cases have been implicated in cell transformation and carcinogenesis. In the case of theneu protein, it has been proposed that these effects are mediated by conformational preferences for an-helix in the transmembrane domain, which facilitates receptor dimerization, an important step in the signal transduction process. To examine whether this is the case for c-erbB-2 as well, we have used conformational energy analysis to determine the preferred three-dimensional structures for the transmembrane domain of the c-erbB-2 protein from residues 650 to 668 with Val (nontransforming) and Glu (transforming) at position 659. The global minimum energy conformation for the Val-659 peptide from the normal, nontransforming protein was found to contain several bends, whereas the global minimum energy conformation for Glu-659 peptide from the mutant, transforming protein was found to be-helical. Thus, the difference in conformational preferences for these transmembrane domains may explain the difference in transforming ability of these proteins. The presence of higher-energy-helical conformations for the transmembrane domain from the normal Val-659 protein may provide an explanation for the presence of a transforming effect from overexpression of c-erbB-2. In addition, docking of the oncogenic sequences in their-helical and bend conformations shows that the all--helical dimer is clearly favored energetically over the bend dimer.     

Spectroscopic Characterization of Two Soluble Transducers from the Archaeon Halobacterium salinarum

In the present study, structural aspects of the two soluble transducers, HtrX and HtrXI, from the archaeon H. salinarum have been examined using UV circular dichroism and steady-state fluorescence spectroscopies. Circular dichroism (CD) data indicate that both HtrX and HtrXI exhibit salt-dependent protein folding. Under low-ionic-strength conditions (0.2 M NaCl or KCl) the CD spectra of HtrXI is similar to that of the Gdn-HCl- or urea-denatured forms and is indicative of random coil structure. In contrast, the CD spectrum of HtrX under low-ionic-strength conditions contains roughly 85% -helical character, indicating a significant degree of folding. Addition of NaCl or KCl to solutions of HtrX or HtrXI results in CD features consistent with predominately -helical character (>95%) for both proteins. In addition, the transition points (i.e., ionic strengths at which the protein converts from random coil to -helical character) are quite distinct and dependent upon the type of salt present (i.e., either NaCl or KCl). Accessibility of tryptophan residues to the solvent was also examined for both HtrX and HtrXI in both folded and unfolded states using Kl quenching. The Stern–Volmer constants obtained suggest that the tryptophans (Trp35 in HtrX and both Trp47 and Trp74 in HtrXI) are partially exposed to the solvent, indicating that they are located near the surface of the protein in all three cases. Furthermore, fluorescence quenching with the single Trp mutants Trp74AIa and Trp47AIa of HtrXI indicates different environments for these two residues.     

Cationic oligopeptides modified with lipophilic fragments: Use for DNA delivery to cells

Cationic oligopeptides, including the amphipathic -helical peptides, are applied to the targeted delivery of DNA to eukaryotic cells due to their DNA-compacting properties and the ability to destabilize the cell lipid bilayer in some cases. We synthesized the peptides differing in the number and location of residues of decanoic acid covalently attached to Lys residues in order to combine the DNA-binding and the membrane activities in a single molecule. We chose peptide structures that assisted in the formation of helices. The DNA-binding ability of the peptides and the membrane activity of their complexes with DNA were shown to depend on the structure. The study of erythrocyte hemolysis by complexes with DNA of the pCMV LacZ plasmid and the peculiarities of transfection of these complexes revealed a correlation between the hemolytic activity and the expression level of the lacZ gene in cells.Translated from Bioorganicheskaya Khimiya, Vol. 31, No. 1, 2005, pp. 22–30.Original Russian Text Copyright © 2005 by Guryanov, Vlasov, Lesina, Kiselev, Baranov, Avdeeva, Vorobev.     

All-D-cecropin B: Synthesis,conformation, lipopolysaccharide binding,and antibacterial activity

Cecropin B (LCB) is a natural peptide with antibacterial and antifungal properties. The enantiomer of LCB, containing all-D amino acids (DCB), was synthesized to examine its antibacterial and binding properties. The conformation of DCB was compared to its enantiomer by circular dichroism. Both the L- and D-peptides showed an identical induction of -helical secondary structure. However, binding studies between Lipopolysaccharide (LPS) and DCB or LCB were studied with a dimethylmethylene blue spectrophotometric assay, showing the two enantiomeric peptides differed in their interaction with LPS. Antibacterial activity of DCB was determined against three Gram-negative bacteria, Pantoea agglomerans (ATCC 27996), Escherichia coli (ATCC 8739), and Pseudomonas aeruginosa (ATCC 17648), giving comparable results to LCB.     

High-resolution solution structure of two members of a conformationally homogeneous combinatorial peptide library based on the classical zinc-finger motif

Summary We describe the high-resolution structure by NMR of two peptides that belong to a combinatorial library based on the zinc-finger motif. The library represents, to the best of our knowledge, the first example of a conformationally homogeneous peptide library and was obtained by introducing random residues in five positions of the -helical portion of a 26-residue consensus peptide (CP1) belonging to the Cys²-Hys² zinc-finger family. The result was shown to be a highly homogeneous -helical library (Bianchi et al., 1995). The structures of the parent compound (CP1) and of a representative member (CP1m) that was selected by screening the library with a monoclonal antibody are compared in detail as an example of the very high stability of the zinc-finger scaffold upon sequence variability. The two peptides exhibit an extremely high degree of structural similarity. The use of this type of conformationally constrained combinatorial library might represent a step forward in the design of peptidomimetics, as it considerably accelerates the process of the identification of the spatial relationship among the pharmacophoric groups.Abbreviations t-Bu tert-butyloxycarbonyl - Fmoc 9-fluorenylmethoxycarbonyl     

Spatiotemporal expression patterns of sialoglycoconjugates during nephron morphogenesis and their regional and cell type-specific distribution in adult rat kidney

The expression of 2,6- and 2,3-linked sialic acids on N-glycans was studied in embryonic, postnatal, and adult rat kidney. Histochemistry and blotting using Polyporus squamosus and Sambucus nigra lectins for 2,6-linked sialic acids and the Maackia amurensis lectin for 2,3-linked sialic acids were performed and sialyltransferase activity was assayed. N-glycans with 2,6- and 2,3-linked sialic acid were differently expressed in the two embryonic anlagen and early stages of nephron. Metanephrogenic mesenchyme was positive for 2,3-linked sialic acid but not for the 2,6-linked one, which became detectable initially in the proximal part of S-shaped bodies. Collecting ducts were positive for 2,6-linked sialic acid, whereas 2,3-linked sialic acid was restricted to their ampullae. Although positive in embryonic kidney, S1 and S2 of proximal tubules became unreactive for 2,3-linked sialic acid in postnatal and adult kidneys. In adult kidney, intercalated but not principal cells of collecting ducts were reactive for 2,3-linked sialic acid. In contrast, 2,6-linked sialic acids were detected in all cells of adult kidney nephron. Blot analysis revealed a different but steady pattern of bands reactive for 2,6- and 2,3-linked sialic acid in embryonic, postnatal, and adult kidney. Activity of 2,6 and 2,3 sialyltransferases was highest in embryonic kidney and decreased over postnatal to adult kidney with the activity of 2,6 sialyltransferase always being three to fourfold that of 2,3 sialyltransferase. Thus, 2,6- and 2,3-linked sialic acids are differently expressed in embryonic anlagen and mesenchyme-derived early stages of nephron and show regional and cell type-specific differences in adult kidney.     

The regions of alpha-neurotoxin binding on the extracellular part of the alpha-subunit of human acetylcholine receptor

A set of 18 synthetic uniform overlapping peptides spanning the entire extracellular part (residues 1–210) of the -subunit of human acetylcholine receptor were studied for their binding activity of¹²⁵I-labeled -bungarotoxin and cobratoxin. A major toxin-binding region was found to reside within peptide 122–138. In addition, low-binding activities were obtained with peptides 34–49 and 194–210. It is concluded that the region within residues 122–138 constitutes a universal major toxin-binding region for acetylcholine receptor of various species.     

The effect of mechanical load on integrin subunits α5 and β1 in chondrocytes from mature and immature cartilage explants

Articular cartilage is subjected to cyclic compressive stresses during joint loading. There is increasing experimental evidence that this loading is essential for the chondrocytes to maintain the functionality of the cartilage extracellular matrix (ECM) and that members of the integrin family of transmembrane receptors may play an important role in signal mechanotransduction between the ECM and chondrocytes. Of particular interest are the integrin subunits 5 and 1, which are known to form the receptor for fibronectin, an important ECM protein, and to be involved in mechanotransduction as well as in the regulation of cytokine production. In this study, we measured the amounts of the integrin subunits 5 and 1 in chondrocytes from young (immature) and adult (mature) bovine articular cartilage explants which were subjected to a continuously applied cyclic compressive stress of 1 MPa for 6 and 24 h. The integrin content per chondrocyte was measured immediately after load cessation by flow cytometry following matrix digestion to release the cells. We found that a mechanical stress induced an increase in the number of integrin subunit 5 in immature and mature cartilage but not in the integrin subunit 1 content. The integrin contents were greatest after 6 h of loading and returned to control levels after 24 h of unloading. The results of this study supply further experimental evidence that chondrocytes respond to changes in their mechanical environment and that the integrin 51 may act as a mechanical signal transducer between the chondrocyte and the ECM for the modulation of cellular physiology.This work was supported by NIH grant AR45748 to PAT and the HSS MacArthur Cartilage Fund.     

Steroid Compounds from the Far Eastern Starfish Diplopteraster multipes

Sodium salt of (20R)-3,4-dihydroxycholest-5-ene-21-yl sulfate and disodium salts of (20R)-4-hydroxycholest-5-ene-3,21-diyl disulfate, (20R)-24-methylcholest-5,24(28)-diene-3,21-diyl disulfate, (20R)-24-methyl-5-cholest-24(28)-ene-3,21-diyl disulfate, (20R)-cholest-5-ene-3,21-diyl disulfate, (20R)-5-cholestane-3,21-diyl disulfate, and (20R)-3-hydroxycholest-5-ene-2,21-diyl disulfate were isolated from the far eastern starfish Diplopteraster multipes and characterized. These compounds differ structurally from sulfated polyhydroxysteroids in other starfish species. At the same time, they are typical secondary metabolites of Ophiuroidea and have some structural features characteristic of the ophiuroid-isolated steroids, namely the 3-hydroxy (or 3-sulfoxy) and 21-sulfoxy groups. These data support the opinion of some taxonomists that starfishes and ophiuroids are phylogeneteically related classes and are closer to each other than to other classes of the Echinodermata phylum.     

C(alpha) chemical shift tensors in helical peptides by dipolar-modulated chemical shift recoupling NMR

The C chemical shift tensors of proteins contain information on the backbone conformation. We have determined the magnitude and orientation of the C chemical shift tensors of two peptides with -helical torsion angles: the Ala residue in G*AL (=–65.7°, =–40°), and the Val residue in GG*V (=–81.5°, =–50.7°). The magnitude of the tensors was determined from quasi-static powder patterns recoupled under magic-angle spinning, while the orientation of the tensors was extracted from C–H and C–N dipolar modulated powder patterns. The helical Ala C chemical shift tensor has a span of 36 ppm and an asymmetry parameter of 0.89. Its ₁₁ axis is 116° ± 5° from the C–H bond while the ₂₂ axis is 40° ± 5° from the C–N bond. The Val tensor has an anisotropic span of 25 ppm and an asymmetry parameter of 0.33, both much smaller than the values for -sheet Val found recently (Yao and Hong, 2002). The Val ₃₃ axis is tilted by 115° ± 5° from the C–H bond and 98° ± 5° from the C–N bond. These represent the first completely experimentally determined C chemical shift tensors of helical peptides. Using an icosahedral representation, we compared the experimental chemical shift tensors with quantum chemical calculations and found overall good agreement. These solid-state chemical shift tensors confirm the observation from cross-correlated relaxation experiments that the projection of the C chemical shift tensor onto the C–H bond is much smaller in -helices than in -sheets.     

Molecular shape and dipole moment of alamethicin-like synthetic peptides

The peptides Boc-(l-Ala-Aib-l-Ala-Aib-l-Ala)_n-OMe, with n=2 (P10) and n=4 (P20), have been synthesized as purely hydrophobic models of the antibiotic alamethicin, which is known to be a voltage-dependent pore former in membranes and is apparently -helical in lipophilic media. These peptides were investigated in 1-octanol, a solvent which resembles the membrane environment. From dielectric dispersion studies quantitative information on the molecular shape and dipole moments could be derived. Further independent data concerning conformation and extent of aggregation of the peptides were obtained by circular dichroism and ultracentrifuge measurements. The results suggest that the peptides assume the form of elongated particles having a significant amount of ordered secondary structure and carrying a dipole parallel to the long axis. Apparently the monomeric peptide molecules undergo, to some extent, a head-to-tail aggregation which is slightly enhanced at lower temperatures. Based on the high-frequency parts of the dielectric dispersion curves the lengths, diameters, and dipole moments of the monomer particles have been determined as 22.5 Å, 10 Å, 36 D (P10) and 28.5 Å, 12 Å, 64 D (P20).     

Modified chemotactic peptides: Synthesis and activity of an azaTic-containing fMLP-OMe analogue

Summary The synthesis and the biological activity of a pseudopeptide analogue of the chemotacticN-formyltripeptide fMLP-OMe, containing the aza Tic (3,4-dihydro-2(1H)-phthalazinecarboxylic acid) residue replacing the native phenylalanine, is described. Whereas pseudopeptides containing lineara-azaammo acids are currently studied, data on the new group of analogues containing cyclic-aza residues capable of limiting the rotameric distribution of the side chains (topological control) are just emerging in the literature. At our best knowledge, the here described [azaTic³]fMLP-OMe represents the first example of the introduction of this new type of-aza residue into a natural bioactive peptide.