Angiotensin II restricted analogs with biological activity in the erythrocytic cycle of Plasmodium falciparum

The anti‐plasmodial activity of conformationally restricted analogs of angiotensin II against Plasmodium gallinaceum has been described. To observe activity against another Plasmodium species, invasion of red blood cells by Plasmodium falciparum was analyzed. Analogs restricted with lactam or disulfide bridges were synthesized to determine their effects and constraints in the peptide–parasite interaction. The analogs were synthesized using tert‐butoxycarbonyl and fluoromethoxycarbonyl solid phase methods, purified by liquid chromatography, and characterized by mass spectrometry. Results indicated that the lactam bridge restricted analogs 1 (Glu‐Asp‐Arg‐Orn ‐Val‐Tyr‐Ile‐His‐Pro‐Phe) and 3 (Asp‐Glu‐Arg‐Val‐Orn ‐Tyr‐Ile‐His‐Pro‐Phe) showed activity toward inhibition of ring formation stage of P. falciparum erythrocytic cycle, preventing invasion in about 40% of the erythrocytes. The disulfide‐bridged analog 10 (Cys‐Asp‐Arg‐Cys ‐Val‐Tyr‐Ile‐His‐Pro‐Phe) was less effective yet significant, showing a 25% decrease in infection of new erythrocytes. In all cases, the peptides presented no pressor activity, and hydrophobic interactions between the aromatic and alkyl amino acid side chains were preserved, a factor proven important in efficacy against P. gallinaceum. In contrast, hydrophilic interactions between the Asp¹ carboxyl and Arg² guanidyl groups proved not to be as important as they were in the case of P. gallinaceum, while interactions between the Arg² guanidyl and Tyr⁴ hydroxyl groups were not important in either case. The β‐turn conformation was predominant in all of the active peptides, proving importance in anti‐plasmodial activity. This approach provides insight for understanding the importance of each amino acid residue on the native angiotensin II structure and a new direction for the design of potential chemotherapeutic agents. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Characterization and functional study of a Cecropin‐like peptide from the Chinese oak silkworm,Antheraea pernyi

In present study, a Cecropin‐like peptide from Antheraea pernyi (ApCec) was cloned and characterized. The full‐length ApCec cDNA encoded a protein with 64 amino acids including a putative 22‐amino‐acid signal peptide, a 4‐amino‐acid propeptide, and a 38‐amino‐acid mature peptide. ApCec gene was highly expressed in Malpighian tubules of A. pernyi after induction for 24 h by Escherichia coli in PBS. Pro‐ApCec (including propeptide and mature peptide) and M‐ApCec (just mature peptide) were synthesized chemically and analyzed by HPLC and mass spectroscopy. The antibacterial activity of M‐ApCec is more potent than pro‐ApCec against E. coli K12 or B. subtilus in both minimum inhibitory concentration and inhibition zone assays. Hemolytic assay results showed M‐ApCec possessed a low cytotoxicity to mammalian cells. The secondary structure of M‐ApCec forms α‐helical structure, shown by circular dichroism spectroscopy. Transmission electron microscopy analysis suggested that M‐ApCec killed bacteria by disrupting bacterial cell membrane integrity. Our results indicate ApCec may play an important role in defending from pathogenic bacteria in A. pernyi, and it may be as a potential candidate for applications in antibacterial drug development and agriculture.     

Purification,characterization and application of a novel antimicrobial peptide from Andrias davidianus blood

The Andrias davidianus has been known as a traditional Chinese medicine for a long time. Its blood is considered as a waste or by‐product of the meat production industry. Although there are reports on isolation of the antimicrobial peptides from different resources, there are no reports of their isolation from A. davidianus blood. In this work, an antimicrobial peptide, andricin B, was isolated from the blood of A. davidianus by an innovative method in which the magnetic liposome adsorption was combined with reversed‐phase high‐performance liquid chromatography. The structure, antimicrobial activity and safety of andricin B were further investigated. Amino acid sequence was determined by N‐terminal sequencing and found to be Gly‐Leu‐Thr‐Arg‐Leu‐Phe‐Ser‐Val‐Ile‐Lys. Circular dichroism (CD) spectra and prediction of three‐dimensional structure by bioinformatics software suggested the presence of a well‐defined random coil conformation. Andricin B was found to be active against all bacteria tested in this study as well as some fungi. The minimum inhibitory concentrations (MICs) were in the range 8–64 μg ml^?1. Moreover, the haemolytic testing also suggested that andricin B could be considered safe at the MICs. Finally, andricin B was shown to inhibit the growth of Staphylococcus aureus in the cooked meat of A. davidianus. This study shows that andricin B is a promising novel antimicrobial peptide that may provide further insights towards the development of new drugs.

Significance and Impact of the Study

This is the pioneer study on screening and isolation of antimicrobial peptide from the blood of Andrias davidianus. Here, we have developed a novel method by combining magnetic liposomes adsorption with reversed‐phase high‐performance liquid chromatography to purify and screen the antimicrobial peptides. From this screen, we identified a novel antimicrobial peptide which we name as andricin B. Andricin B is unique as it checks the growth of both Gram‐positive and Gram‐negative bacteria as well as few fungal species.     

Molecular dynamic simulations of nanomechanic chaperone peptide and effects of in silico His mutations on nanostructured function

The nanoscale peptide YSGVCHTDLHAWHGDWPLPVK exhibits molecular chaperone activity and prevents protein aggregation under chemical and/or thermal stress. Here, His mutations of this peptide and their impact on chaperone activity were evaluated using theoretical techniques. Molecular dynamic (MD) simulations with simulated annealing (SA) of different mutant nanopeptides were employed to determine the contribution of the scaffolding His residues (H45, H49, H52), when mutated to Pro, on chaperone action in vitro. The in silico mutations of His residues to Pro (H45P, H49P, H52P) revealed loss of secondary ordered strand structure. However, a small part of the strand conformation was formed in the middle region of the native chaperone peptide. The His‐to‐Pro mutations resulted in decreased gyration radius (R_g) values and surface accessibility of the mutant peptides under the simulation times. The invariant dihedral angle (ϕ) values and the disrupting effects of the Pro residues indicated the coil conformation of mutant peptides. The failure of the chaperone‐like action in the Pro mutant peptides was consistent with their decreased effective accessible surfaces. The high variation of Φ value for His residues in native chaperone peptide leads to high flexibility, such as a minichaperone acting as a nanomachine at the molecular level. Our findings demonstrate that the peptide strand conformation motif with high flexibility at nanoscale is critical for chaperone activity. Copyright © 2008 European Peptide Society and John Wiley & Sons, Ltd.     

Assembly of binding loops on aromatic templates as VCAM‐1 mimetics

The design and synthesis of cyclic mimetics of VCAM‐1 protein that reproduce the integrin‐binding domain are presented. The unprotected peptide precursor 37 – 43 , Thr‐Gln‐Ile‐Asp‐Ser‐Pro‐Leu, was grafted onto functional templates of type naphthalene, biphenyl and benzyl through the chemoselective formation of C‐ and N‐terminal oximes resulting in a mixture of four isomeric forms due to syn–anti isomerism of the oxime bonds. Some isomers could be monitored by HPLC and identified by NMR. The molecule containing a naphthalene‐derived template was found to inhibit the VCAM‐1/VLA‐4 interaction more efficiently than previously reported for sulfur‐bridged cyclic peptides containing similar sequences. The finding confirms the importance of incorporating conformational constraints between the terminal ends of the peptide loop 37 – 43 in the design of synthetic inhibitors of the VCAM‐1/integrin interaction. Copyright © 1999 European Peptide Society and John Wiley & Sons, Ltd.     

Brucin,an antibacterial peptide derived from fruit protein of Fructus Bruceae,Brucea javanica (L.) Merr

A novel antibacterial peptide specific to Streptococcus pyogenes was produced from dried fruit protein of Brucea javanica (L.) Merr. A mixture of active peptides from the fruit protein was produced in vitro by pepsin hydrolysis. The hydrolysate was purified by reverse‐phase HPLC, and antimicrobial peptides active against Gram‐negative and Gram‐positive bacteria were analysed using SDS‐PAGE and nanoLC‐MS/MS. Here, four possible peptides were obtained and chemically synthesized for comparative study of the growth inhibition of Strep. pyogenes. One chemically synthesized peptide with a molecular mass of 1168·31 Da, His‐Thr‐Leu‐Cys‐Met‐Asp‐Gly‐Gly‐Ala‐Thr‐Tyr, showed the most potent antibacterial activity against Strep. pyogenes. This 11‐amino acid peptide was named Brucin. Its bacterial inhibitory activity was 16‐fold and 12·5‐fold higher than penicillin G and chloramphenicol, respectively, with a MIC value of 20 μmol l^?1. The results suggest that Brucin, a potent antibiotic peptide, may be developed as an alternative drug for the treatment of the disease caused by Strep. pyogenes.

Significance and Impact of the Study

An antibacterial peptide, named Brucin with specificity for Streptococcus pyogenes, was produced in vitro from dried fruit protein of Brucea javanica (L.) Merr. by pepsin‐catalysed hydrolysis. Its inhibitory activity towards the Gram‐positive bacteria was higher than penicillin G and chloramphenicol. The result suggested that Brucin may be applied for the treatment of the disease caused by Strep. pyogenes^*.     

Investigating the importance of the flexible hinge in caerin 1.1: solution structures and activity of two synthetically modified caerin peptides

Caerin 1.1 is a potent broad-spectrum antibacterial peptide isolated from a number of Australian frogs of the Litoria genus. In membrane-like media, this peptide adopts two alpha-helices, separated by a flexible hinge region bounded by Pro15 and Pro19. Previous studies have suggested that the hinge region is important for effective orientation of the two helices within the bacterial cell membrane, resulting in lysis via the carpet mechanism. To evaluate the importance of the two Pro residues, they were replaced with either Ala or Gly. The antibacterial activity of these two peptides was tested, and their three-dimensional structures were determined using two-dimensional NMR spectroscopy and restrained molecular dynamics calculations. The resulting structures indicate that the central hinge angle decreases significantly upon replacement of the Pro residues with Gly and to a further extent with Ala. This trend was mirrored by a corresponding decrease in antibiotic activity, further exemplifying the necessity of the hinge in caerin 1.1 and related peptides. In a broader context, the use of Pro, Gly, and Ala variants of caerin 1.1 has enabled the relationship between conformational flexibility and activity to be directly investigated in a systematic manner.     

A short α-helical antimicrobial peptide with antibacterial selectivity

A 13-residue alpha-helical peptide (K6L5WP), designed from Leu6-->Pro substitution of a hemolytic alpha-helical peptide (K6L6W), exhibited strong antibacterial activity (MIC: 2 to approximately 4 microM against three gram-positives and three gram-negatives) comparable to that of melittin but had no hemolytic activity. Tryptophan fluorescence studies indicated bacterial selectivity of K6L5WP is closely related to the selective interaction with negatively charged phospholipids on the surface of bacterial cells. These results suggested that the central Pro6 in K6L5WP plays an important role in its bacterial cell selectivity. In conclusion, K6L5WP with antibacterial selectivity may serve as an attractive candidate for the development of antimicrobial agents.     

Structure‐activity relationship studies of shortened analogues of the antimicrobial peptide EeCentrocin 1 from the sea urchin Echinus esculentus

EeCentrocin 1 is a potent antimicrobial peptide isolated from the marine sea urchin Echinus esculentus. The peptide has a hetero‐dimeric structure with the antimicrobial activity confined in its largest monomer, the heavy chain (HC), encompassing 30 amino acid residues. The aim of the present study was to develop a shorter drug lead peptide using the heavy chain of EeCentrocin 1 as a starting scaffold and to perform a structure‐activity relationship study with sequence modifications to optimize antimicrobial activity. The experiments consisted of 1) truncation of the heavy chain, 2) replacement of amino acids unfavourable for in vitro antimicrobial activity, and 3) an alanine scan experiment on the truncated and modified heavy chain sequence to identify essential residues for antimicrobial activity. The heavy chain of EeCentrocin 1 was truncated to less than half its initial size, retaining most of its original antimicrobial activity. The truncated and optimized lead peptide ( P6 ) consisted of the 12 N‐terminal amino acid residues from the original EeCentrocin 1 HC sequence and was modified by two amino acid replacements and a C‐terminal amidation. Results from the alanine scan indicated that the generated lead peptide ( P6 ) contained the optimal sequence for antibacterial activity, in which none of the alanine scan peptides could surpass its antimicrobial activity. The lead peptide ( P6 ) was also superior in antifungal activity compared to the other peptides prepared and showed minimal inhibitory concentrations (MICs) in the low micromolar range. In addition, the lead peptide ( P6 ) displayed minor haemolytic and no cytotoxic activity, making it a promising lead for further antimicrobial drug development.     

Handedness preference and switching of peptide helices. Part I: Helices based on protein amino acids

In this article, we review the relevant results obtained during almost 60 years of research on a specific aspect of stereochemistry, namely handedness preference and switches between right‐handed and left‐handed helical peptide structures generated by protein amino acids or appropriately designed, side‐chain modified analogs. In particular, we present and discuss here experimental and theoretical data on three categories of those screw‐sense issues: (i) right‐handed/left‐handed α‐helix transitions underwent by peptides rich in Asp, specific Asp β‐esters, and Asn; (ii) comparison of the preferred conformations adopted by helical host–guest peptide series, each characterized by an amino acid residue (e.g. Ile or its diastereomer aIle) endowed with two chiral centers in its chemical structure; and (iii) right‐handed (type I)/left‐handed (type II) poly‐(Pro)_n helix transitions monitored for peptides rich in Pro itself or its analogs with a pyrrolidine ring substitution, particularly at the biologically important position 4. The unique modular and chiral properties of peptides, combined with their relatively easy synthesis, the chance to shape them into the desired conformation, and the enormous chemical diversity of their coded and non‐coded α‐amino acid building blocks, offer a huge opportunity to structural chemists for applications to bioscience and nanoscience problems. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Defensin‐like peptide3 from black solder fly: Identification,characterization, and key amino acids for anti‐Gram‐negative bacteria

An antibacterial peptide was isolated from a black soldier fly, Hermetia illucens. The molecular mass of this peptide was established as 4247.37 by matrix‐assisted laser desorption/ionization‐time of flight mass (MALD‐TOF MS) spectrometry. The amino acid sequence of the mature peptide was determined by N‐terminal sequencing using Edman degradation, combined with cDNA sequencing of the previously reported defensin‐like peptide (DLP) 3. Analysis of the minimal inhibitory concentration (MIC) revealed that DLP3 had potent activity against Gram‐positive and negative bacteria, but DLP4 had only anti‐Gram‐positive activity as previously reported. Recombinant DLP3 and DLP4 were overexpressed in Escherichia coli, and antibacterial activities were identical to DLPs purified from H. illucens hemolyph. In silico analysis revealed that only six amino acid sequences were different between DLP3 and DLP4, but antibacterial activity against Gram‐negative bacteria differed. Therefore these amino acid variants may be key amino acids (Gly‐10, Val‐18, Met‐23, Arg‐25, Asp‐32, Arg‐40) related to killing Gram‐negative bacteria.     

N‐terminal residues of the yeast pheromone receptor,Ste2p,mediate mating events independently of G1‐arrest signaling

In Saccharomyces cerevisiae, mechanisms modulating the mating steps following cell cycle arrest are not well characterized. However, the N‐terminal domain of Ste2p, a G protein‐coupled pheromone receptor, was recently proposed to mediate events at this level. Toward deciphering receptor mechanisms associated with this mating functionality, scanning mutagenesis of targeted regions of the N‐terminal domain has been completed. Characterization of ste2 yeast overexpressing Ste2p variants indicated that residues Ile 24 and Ile 29 as well as Pro 15 are critical in mediating mating efficiency. This activity was shown to be independent of Ste2p mediated G1 arrest signaling. Further analysis of Ile 24 and Ile 29 highlight the residues' solvent accessibility, as well as the importance of the hydrophobic nature of the sites, and in the case of Ile 24 the specific size and shape of the side chain. Mutation of these Ile's led to arrest of mating after cell contact, but before completion of cell wall degradation. We speculate that these extracellular residues mediate novel receptor interactions with ligand or proteins, leading to stimulation of alternate signaling effector pathways. J. Cell. Biochem. 107: 630–638, 2009. © 2009 Crown in the right of Canada.     

Structural and functional differences of Litopenaeus vannamei crustins

Penaeid crustins were described in Litopenaeus vannamei and L. setiferus as proteins belonging to an antibacterial peptide family with similar sequences but different sizes. Six crustin-coding clones were isolated from a cDNA library from L. vannamei hemocytes, sequenced and compared. Two different isoforms (named I and P) were found, based on two nucleotide differences that produce one change in amino acid sequence (Ile/Pro). Other single differences in nucleotide sequences were also noted, but they did not change the translated product. The mRNA steady state levels of crustin I, but not of crustin P, were down regulated by Vibrio alginolyticus inoculation. Thus, the differences among penaeid crustins seem to be associated with one amino acid substitution, which affects their expression after bacterial inoculation. By structural similarity, shrimp crustins seem to belong to an antibacterial WAP-domain containing protein family.     

樟芝固态发酵产物抗氧化性分析

本文对樟芝谷物固态发酵产物抗氧化性能及活性成分进行了研究.在所选谷物中,樟芝青稞固态发酵产物的乙醇提取物总抗氧化性最好,较未发酵青稞提高了4.02倍.通过无水乙醇50℃水浴振荡提取80 min,其总抗氧化性达到了769.60 U/g.对其抗氧化性能分析发现,樟芝青稞固态发酵乙醇提取物为6 mg/L时,对DP P H自由基、羟基自由基以及超氧阴离子的去除率分别为91.9%、51.2%、61.3%,对铁离子的螯合能力为79.5%.相对于未发酵谷物,大米、小米、玉米以及青稞的樟芝发酵产物中总酚含量均有显著的提升,其中青稞乙醇提取和水提取物中总酚含量分别提高了2.36倍和4.23倍.通过HP LC分析可知,樟芝固态发酵产物含有丰富的活性化合物,包括马来酸衍生物(Antrodin)以及泛醌类衍生物(Antroquinonol),且各组分含量较为均衡;而樟芝液态发酵菌丝体乙醇提取物中主要活性成分为马来酸衍生物,不含有泛醌类化合物.     

Isolation and Chemical Characterization of an Alpha-Helical Peptide,Dendrocin-ZM1, Derived from Zataria multiflora Boiss with Potent Antibacterial Activity

Today, resistance of microorganisms to antibiotics has become a major challenge. To overcome this problem, development of new drugs, besides research on their antibacterial activity, is essential. Among chemical components, antimicrobial peptides (AMPs) exhibit antibacterial activity and can be selected as suitable antimicrobial candidates. In this study, a novel antimicrobial peptide, called dendrocin-ZM1, with a molecular weight of?~3716.48 Da, was isolated from Zataria multiflora Boiss (ZM) and purified via precipitation with ammonium sulfate and reverse-phase HPLC chromatography; it was then sequenced via Edman degradation. The in silico method was used to examine the physicochemical properties of dendrocin-ZM1. In this study, four reference strains (gram-positive and gram-negative) and one clinical vancomycin-resistant Staphylococcus aureus strain were used to survey the antimicrobial activities. Moreover, to examine cytotoxicity and hemolytic activity, a HEK-293 cell line and human red blood cells (RBCs) were used, respectively. Evaluation of the physicochemical properties of dendrocin-ZM1, as an AMP, indicated a net charge of?+?7 and a hydrophobicity percentage of 54%. This peptide had an amphipathic alpha-helical conformation. It exhibited broad-spectrum antibacterial activities against the tested strains at minimum inhibitory concentrations (MICs) of 4–16 μg/mL. Besides, this peptide showed negligible hemolysis and cytotoxicity in the MIC range. It also exhibited heat stability at temperatures of 20 to 80 °C and was active in a broad pH range (from 6.0 to 10.0). Overall, the present results suggested dendrocin-ZM1 as a remarkable antimicrobial candidate.

     

Design, synthesis and antibacterial activity studies of model peptidess of proline/arginine-rich region in bactenecin7

Bactenecin 7 (Bac7), a cationic antibacterial peptide, contains a repeating region of Xaa-Pro-Arg-Pro (Xaa = hydrophobic residue). To investigate the structure and property of a Pro/Arg-rich region, e synthesized a series of peptides, Xaa-Pro-Arg-Pro (Xaa = Gly, Arg, Leu, Ile, and Phe) as models and characterized . The conformational preferences of these peptides in water and trifluoroethanol were examined by circular dichroism. The results suggest the presence of largely poly(Pro)-II helical conformation in aqueous and trifluoroethanol solutions. Their antibacterial activity against gram-negative bacteria such as Escherichia coli, Klebsiella Pneumoniae, Pseudomonas aeruginosa, and Escherichia coliHB101, and gram-positive bacteria such as Staphylococcus aureus were measured at various peptide concentrations. Two of our synthetic tetrapeptide fragments containing Gly and Arg were efficiently killed with gram-positive bacteria, Staphylococcus aureus, at the concentration level of 200 microg/mL.     

Antibacterial activity of disodium succinoyl glycyrrhetinate,a derivative of glycyrrhetinic acid against Streptococcus mutans

Streptococcus mutans is a cariogenic bacterium that localizes in the oral cavity. Glycyrrhetinic acid (GRA) is a major component of licorice extract. GRA and several derivatives, including disodium succinoyl glycyrrhetinate (GR‐SU), are known to have anti‐inflammatory effects in humans. In this study, the antimicrobial effect of GRA and its derivatives against the S. mutans UA159 strain were investigated. Minimum inhibitory concentrations (MICs) of GRA and GR‐SU showed antibacterial activity against the S. mutans strain, whereas other tested derivatives did not. Because GR‐SU is more soluble than GRA, GR‐SU was used for further experiments. The antibacterial activity of GR‐SU against 100 S. mutans strains was evaluated and it was found that all strains are susceptible to GR‐SU, with MIC values below 256 µg/mL. A cell viability assay showed that GR‐SU has a bacteriostatic effect on S. mutans cells. As to growth kinetics, sub‐MICs of GR‐SU inhibited growth. The effect of GR‐SU on S. mutans virulence was then investigated. GR‐SU at sub‐MICs suppresses biofilm formation. Additionally, GR‐SU greatly suppresses the pH drop caused by the addition of glucose and glucose‐induced expression of the genes responsible for acid production (ldh and pykF) and tolerance (aguD and atpD). Additionally, expression of enolase, which is responsible for the carbohydrate phosphotransferase system, was not increased in the presence of GR‐SU, indicating that GR‐SU suppresses incorporation of sugars into S. mutans. In conclusion, GR‐SU has antibacterial activity against S. mutans and also decreases S. mutans virulence.     

Epitope analysis of the multiphosphorylated peptide αs1‐casein(59–79)

The multiphosphorylated tryptic peptide α_s1‐casein(59–79) has been shown to be antigenic with anti‐casein antibodies. In an approach to determine the amino acyl residues critical for antibody binding we undertook an epitope analysis of the peptide using overlapping synthetic peptides. With α_s1‐casein(59–79) as the adsorbed antigen in a competitive ELISA only two of five overlapping synthetic peptides at 1 mM significantly inhibited binding of the anti‐casein antibodies. Peptides Glu‐Ser(P)‐Ile‐Ser(P)‐Ser(P)‐Ser(P)‐Glu‐Glu and Ile‐Val‐Pro‐Asn‐Ser(P)‐Val‐Glu‐Glu inhibited antibody binding by 20.0±3.6% and 60.3±7.9%, respectively. The epitope of Glu⁶³‐Ser(P)‐Ile‐Ser(P)‐Ser(P)‐Ser(P)‐Glu‐Glu⁷⁰ was further localised to the phosphoseryl cluster as the peptide Ser(P)‐Ser(P)‐Ser(P) significantly inhibited binding of the anti‐casein antibodies to α_s1‐casein(59–79) by 29.5±7.4%. Substitution of Ser(P)⁷⁵ with Ser⁷⁵ in the second inhibitory peptide Ile‐Val‐Pro‐Asn‐Ser(P)⁷⁵‐Val‐Glu‐Glu also abolished inhibition of antibody binding to α_s1‐casein (59–79) demonstrating that Ser(P)⁷⁵ is also a critical residue for recognition by the antibodies. These data show that the phosphorylated residues in the cluster sequence ‐Ser(P)⁶⁶‐Ser(P)‐Ser(P)⁶⁸ and in the sequence ‐Pro⁷³‐Asn‐Ser(P)‐Val‐Glu⁷⁷‐ are critical for antibody binding to α_s1‐casein(59–79) and further demonstrate that a highly phosphorylated segment of a protein can be antigenic. Copyright © 1999 European Peptide Society and John Wiley & Sons, Ltd.     

Self‐assembly of short peptides composed of only aliphatic amino acids and a combination of aromatic and aliphatic amino acids

The morphology of structures formed by the self‐assembly of short N‐terminal t‐butyloxycarbonyl (Boc) and C‐terminal methyl ester (OMe) protected and Boc‐deprotected hydrophobic peptide esters was investigated. We have observed that Boc‐protected peptide esters composed of either only aliphatic hydrophobic amino acids or aliphatic hydrophobic amino acids in combination with aromatic amino acids, formed highly organized structures, when dried from methanol solutions. Transmission and scanning electron microscopic images of the peptides Boc‐Ile‐Ile‐OMe, Boc‐Phe‐Phe‐Phe‐Ile‐Ile‐OMe and Boc‐Trp‐Ile‐Ile‐OMe showed nanotubular structures. Removal of the Boc group resulted in disruption of the ability to form tubular structures though spherical aggregates were formed. Both Boc‐Leu‐Ile‐Ile‐OMe and H‐Leu‐Ile‐Ile‐OMe formed only spherical nanostructures. Dynamic light scattering studies showed that aggregates of varying dimensions were present in solution suggesting that self‐assembly into ordered structures is facilitated by aggregation in solution. Fourier transform infrared spectroscopy and circular dichroism spectroscopy data show that although all four of the protected peptides adopt well‐defined tertiary structures, upon removal of the Boc group, only H‐Phe‐Phe‐Phe‐Ile‐Ile‐OMe had the ability to adopt β‐structure. Our results indicate that hydrophobic interaction is a very important determinant for self‐assembly and presence of charged and aromatic amino acids in a peptide is not necessary for self‐assembly. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.