Pro-apoptotic bax-alpha1 synthesis and evidence for beta-sheet to alpha-helix conformational change as triggered by negatively charged lipid membranes.

Solid phase synthesis of Bax-alpha1, the 25 amino acids domain (14TSSEQIMKTGALLLQGFIQDRAGRM38) of the pro-apoptotic Bax protein has been accomplished using Fmoc chemistry. A new fast and harmless protocol is described for complete TFA removal from the purified peptide powder leading to a final purity greater than 98% as controlled by 19F-NMR, UV and MALDI-TOF mass spectrometry. Secondary structure was determined in various solution and membrane media using UV Circular Dichroism. In water solution, Bax-alpha1 is present as a mixture of beta-sheet and unstructured (random coil) conformations. A marked change from beta-sheet to alpha-helix secondary structures is observed upon interaction with negatively charged phospholipids vesicles whereas neutral lipid membranes have no significant effect on the aqueous peptide conformation. Results are discussed in terms of Bax binding to mitochondrial membranes.     

A cyclic peptide analogue of the loop III region of platelet-derived growth factor-BB is a synthetic antigen for the native protein.

We report the synthesis and characterization of a cyclic peptide analogue of the loop III region of platelet-derived growth factor (PDGF) B-chain sequence, cyclo(73Arg-Lys-Ile-Glu-Ile-Val-Arg-Lys-Lys81-Cys), incorporating a C-terminus cysteine residue for the conjugation to a carrier protein. The synthesis involved solid-phase chemistry, utilizing Fmoc-tBu chemistry and acid labile side-chain protecting groups, followed by 'head-to-tail' cyclization using the allyl-protected glutamic acid anchored on its side chain to the solid support with HATU/HOAt as the coupling agent. Conformational differences between the cyclic and its linear counterpart PDGF peptides were determined by circular dichroism measurements in aqueous media. High titre antisera were raised to both cyclic and linear peptide immunogens. Antisera raised to the cyclic peptide cross-reacted with PDGF-BB in both Western blot and ELISA, whereas antisera raised to the linear peptide had no reactivity with PDGF-BB. The cyclic peptide (conformational design analogue) produces an immunogen which is able to antigenically mimic the secondary structure of loop III of PDGF-BB and forms a basis from which further small molecular mimetics of PDGF may be designed for use as both immunogens and also potential agonists/antagonists of PDGF. Similarly constructed immunogens may also be useful in the design of vaccines which direct responses to loop regions in other target proteins.     

Prolyl Aminopeptidase from Streptomyces thermoluteus subsp. fuscus Strain NBRC14270 and Synthesis of Proline-Containing Peptides by Its S144C Variant

We specifically examined an exopeptidase, prolyl aminopeptidase (PAP), as a target for synthesis of proline-containing peptides. A PAP from Streptomyces thermoluteus subsp. fuscus NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270) was obtained using sequence-based screening. From {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, 144Ser was replaced by Cys (scPAP14270) to give aminolysis activity. In contrast to wild-type {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, scPAP14270 produced a polymer of proline benzyl ester and cyclo[Pro-Pro]. The product mass was confirmed using liquid chromatography-mass spectrometry (LC/MS). Several factors affecting the reaction, such as the pH, concentration of the substrate, and reaction time, were measured to determine their effects. Furthermore, a correlation was found between substrate specificity in proline peptide synthesis and the log D value of acyl acceptors in aminolysis catalyzed by scPAP14270. Results showed that dipeptide synthesis proceeded in a weakly acidic environment and that cyclization and polymerization occurred under alkaline conditions. Furthermore, results suggest that almost all amino acid esters whose log D value is greater than 0, except hydroxyproline benzyl ester (Hyp-OBzl), can be recognized as acyl acceptors. These findings support the use of PAPs as a tool for production of physiologically active proline peptides.Prolyl aminopeptidase (PAP) (EC 3.4.11.5), belonging to the S33 family, is an exopeptidase that catalyzes the hydrolysis of the N terminus prolyl residue of peptides or proteins. This family has catalytic Ser. To date, few applications of this enzyme for peptide synthesis have been reported. However, from the perspective of biotechnology, PAP might be a good tool for synthesizing proline-containing peptides by catalyzing aminolysis.Recently nutraceutical properties of peptides containing proline have received increasing attention. For example, prolyl hydroxyproline (Pro-Hyp) stimulates the growth of fibroblasts from mouse skin (11). Pro-Arg can protect against oxidative stress/damage and H₂O₂-induced human diploid fibroblast cell death (13). Furthermore, the lactotripeptides Ile-Pro-Pro and Val-Pro-Pro exhibit angiotensin I-converting enzyme-inhibiting activity (9). In addition to these dipeptides and tripeptides, a cyclic dipeptide (namely, diketopiperazine) containing proline shows several physiological functions. Cyclo[Pro-Pro] (cPP) exerts antibacterial activity against Micrococcus luteus and Pseudomonas aeruginosa (8). Caspase-3 activation by cyclo[Pro-Phe] in HT-29 cells has been described (3). However, its synthesis method has not been established. Enzymatic peptide synthesis presents a useful and desirable strategy because it can conduct specific reactions under milder conditions than those of chemical synthesis.Engineered endoserine proteases that have Cys substituted for catalytic Ser have also been applied for peptide synthesis since subtiligase was constructed by Abrahmsén et al. (1). Because of the weakened hydrolytic activity of the parent enzyme, it is considered that Ser/Cys-substituted protease can trap the substrate (acyl donor). Then, a nucleophilic reaction occurs between another substrate (acyl acceptor) and the trapped acyl donor (2). This is a so-called “aminolysis” reaction. Although aminolysis can conduct peptide synthesis in an aqueous solution, the problem of the necessity of using an N-protected amino acid as an acyl donor remains when using endoproteases.These problems would be solved using exoprotease as a catalyst, because N-terminal free amino groups of acyl donors are recognized by enzymes. It is rarely reported that exoprotease was applied for peptide synthesis, except in the report of Oshiro et al., in which Pro-Phe, Pro-Tyr, and Pro-Trp were synthesized (10). Recently our group reported that the Ser/Cys variant of exoprotease, aminolysin-S, has been constructed and has produced l-Phe-l-Phe ethyl ester and their derivatives from non-N-protected phenylalanine and phenylalanine ethyl ester as acyl donors in aqueous solution (12). However, aminolysin-S cannot produce proline-containing dipeptides.In this study, we describe a PAP from Streptomyces thermoluteus subsp. fuscus strain NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270). Furthermore, synthesis of various proline peptides was attempted through catalysis by its Ser/Cys variant (scPAP14270) from proline ester and several amino acids and their esters in aqueous solution. A basic characterization to determine the effect of pH and the amount of substrate was conducted. Moreover, correlation was found between proline peptide synthesis and the log D value, which is the distribution coefficient between octanol and water, of acyl acceptors in aminolysis mediated by scPAP14270.     

Combinatorial approaches to synthetic receptors

Combinatorial chemistry can be efficiently used for the synthesis and evaluation of binding properties of libraries of synthetic receptors. This approach has been applied particularly to 'tweezer' and other 'multi-armed' receptors, and has been used for the identification of receptors for peptides in aqueous media, and for the development of new sensors and sensor arrays.     

Peptide thioester preparation by Fmoc solid phase peptide synthesis for use in native chemical ligation.

Established methodology for the preparation of peptide thioesters requires the use of t-butoxycarbonyl chemistry owing to the lability of thioester linkers to the nucleophilic reagents used in Fmoc solid phase peptide synthesis. Both the greater ease of use and the broad applicability of the method has led to the development of an Fmoc-based methodology for direct peptide thioester synthesis. It was found that successful preparation of a peptide thioester could be achieved when the non-nucleophilic base, 1,8-diazabicyclo[5.4.0]undec-7-ene, together with 1-hydroxybenzotriazole in dimethylformamide, were used as the N(alpha)-Fmoc deprotection reagent. Native chemical ligation of the resulting thioester product to an N-terminal cysteine-containing peptide was successfully performed in aqueous solution to produce a fragment peptide of human alpha-synuclein. The formation of aspartimide (cyclic imide) in a base-sensitive hexapeptide fragment of scorpion toxin II was found to be significant under the deprotection conditions used. However, this could be controlled by the judicious protection of sensitive residues using the 2-hydroxy-4-methoxybenzyl group.     

Availability of tyrosine amide for α-chymotrypsin-catalyzed synthesis of oligo-tyrosine peptides

Oligo-tyrosine peptides such as Tyr-Tyr having angiotensin I-converting enzyme (ACE) inhibitory activity could be synthesized by α-chymotrypsin-catalyzed reaction with l-tyrosine ethyl ester in aqueous media. However, peptide yield in the reaction was below 10%. Since l-tyrosine amide showed highly nucleophilic activity for the deacylation of enzyme through which a new peptide bond was made, its application to the enzymatic peptide synthesis was evaluated in this study. Addition of tyrosine amide into the reaction produced Tyr-Tyr-NH₂, of which yield exceeded 130% on the basis of tyrosine ethyl ester. Although purified Tyr-Tyr-NH₂ did not inhibit ACE activity, α-chymotrypsin could act on the dipeptide amide and convert about 40% of it to Tyr-Tyr. The use of both ester and amide forms of tyrosine is expected to be a potent procedure for α-chymotrypsin-catalyzed synthesis of antihypertensive peptides.     

Immunodetermination of peptide factors. I. Synthesis of N-alpha-maleoyl-peptide derivatives

A new synthesis of N-maleoyl-omega-amino acids, their use for the introduction of the maleimido group into peptide factors as well as the stability of this group under standard conditions of conventional peptide synthesis are described. The relatively high stability of N-maleoyl-peptide derivatives in aqueous solutions at neutral or slightly acidic pH values as well as the fast addition of thiol compounds to the maleimido group indicate that these peptide derivatives are well suited for the preparation of tracers of peptide factors and of peptide-protein conjugates.     

A convenient incorporation of conformationally constrained 5,5-dimethylproline into the ribonuclease A 89-124 sequence by condensation of synthetic peptide fragments.

The presence of l-5,5-dimethylproline (dmP) within an amino acid sequence results in the formation of an X-dmP peptide bond predominantly locked in a cis conformation. However, the common use of this unnatural amino acid has been hampered by the difficulty of the economical incorporation of the dmP residue into longer peptide segments due to the steric hindrance imposed by the dimethyl moieties. Here, we describe synthesis of the C-terminal 36-residue peptide, corresponding to the 89-124 sequence of bovine pancreatic ribonuclease A (RNase A), in which dmP is incorporated as a substitute for Pro93. The peptide was assembled by condensation of protected 5- and 31-residue peptide fragments, which were synthesized by solid-phase peptide methodology using fluorenylmethyloxycarbonyl chemistry. We focused on optimizing the synthesis of the Fmoc-Ser(tBu)-Ser(tBu)-Lys(Boc)-Tyr(tBu)-dmP-OH pentapeptide (residues 89-93) with efficient acylation of the sterically hindered dmP residue. In a comparative study, the reagent O-(7-azabenzotriazol-1-yl)-1,1,3,3-tetramethyluronium hexafluorophosphate was found to be superior to bromo-tris-pyrrolidino-phosphonium hexafluorophosphate and tetramethylfluoroformamidinium hexafluorophosphate for the synthesis of the -Tyr(tBu)-dmP- peptide bond in solution as well as on a resin.     

Evolutionary combinatorial chemistry, a novel tool for SAR studies on peptide transport across the blood-brain barrier. Part 2. Design, synthesis and evaluation of a first generation of peptides.

The use of high-throughput methods in drug discovery allows the generation and testing of a large number of compounds, but at the price of providing redundant information. Evolutionary combinatorial chemistry combines the selection and synthesis of biologically active compounds with artificial intelligence optimization methods, such as genetic algorithms (GA). Drug candidates for the treatment of central nervous system (CNS) disorders must overcome the blood-brain barrier (BBB). This paper reports a new genetic algorithm that searches for the optimal physicochemical properties for peptide transport across the blood-brain barrier. A first generation of peptides has been generated and synthesized. Due to the high content of N-methyl amino acids present in most of these peptides, their syntheses were especially challenging due to over-incorporations, deletions and DKP formations. Distinct fragmentation patterns during peptide cleavage have been identified. The first generation of peptides has been studied by evaluation techniques such as immobilized artificial membrane chromatography (IAMC), a cell-based assay, log Poctanol/water calculations, etc. Finally, a second generation has been proposed.     

A novel route to synthesize Freidinger lactams by micowave irradiation.

The incorporation of a Freidinger-like lactam structure into the backbone of peptides has been proven to be an useful strategy in the design of a variety of conformationally restricted targets. Several different strategies have been developed toward Freidinger lactams but no one resulted to be completely facile. Here, we report an efficient strategy that involves the iodo-derivatives in side chain of an appropriate amino acid used as electrophilic agent, and the standard solid phase peptide synthesis assisted by microwave irradiation. The methodology developed could be useful to perform Freidinger-like lactams with defined stereochemistry for routine use in solid phase peptide chemistry.     

Combinatorial solid phase peptide synthesis and bioassays

Solid phase peptide synthesis method, which was introduced by Merrifield in 1963, has spawned the concept of combinatorial chemistry. In this review, we summarize the present technologies of solid phase peptide synthesis (SPPS) that are related to combinatorial chemistry. The conventional methods of peptide library synthesis on polymer support are parallel synthesis, split and mix synthesis and reagent mixture synthesis. Combining surface chemistry with the recent technology of microelectronic semiconductor fabrication system, the peptide microarray synthesis methods on a planar solid support are developed, which leads to spatially addressable peptide library. There are two kinds of peptide microarray synthesis methodologies: pre-synthesized peptide immobilization onto a glass or membrane substrate and in situ peptide synthesis by a photolithography or the SPOT method. This review also discusses the application of peptide libraries for high-throughput bioassays, for example, peptide ligand screening for antibody or cell signaling, enzyme substrate and inhibitor screening as well as other applications.     

RNA oligonucleotide synthesis via 5'-silyl-2'-orthoester chemistry

The chemical synthesis of RNA oligonucleotides is a valuable resource for biological research. A new approach for RNA synthesis that is now as reliable and efficient as DNA synthesis methods is described in this report. A 5'-O-silyl ether is used in conjunction with acid-labile orthoester protecting groups on the 2'-hydroxyls. RNA synthesis proceeds efficiently on commercial synthesizers in high yields. Analysis by anion-exchange HPLC shows that the quality and yields of RNA synthesized with this chemistry are unprecedented. Furthermore, this chemistry enables analysis and purification of stable 2'-O-protected RNA. This property serves to minimize possibilities for degradation of the RNA. In addition, it now possible to analyze troublesome sequences, which, when fully 2'-O-deprotected, do not easily resolve into one major conformation due to strong secondary structure. When ready for use, the RNA is easily 2'-O-deprotected in mild-acidic aqueous buffers in 30 min. This new RNA chemistry has enabled the routine high-quality synthesis of RNA oligonucleotides up to 50 bases in length regardless of sequence or secondary structure.     

Facile preparation of disulfide-bridged peptides using the polymer-supported oxidant CLEAR-OX.

Formation of disulfide bonds in synthetic peptides is one of the more challenging transformations to achieve in peptide chemistry, in view of the possible formation of oligomeric by-products and other side reactions, as well as occasional solubility problems in aqueous oxidizing media. It was shown previously that 5,5'-dithiobis(2-nitrobenzoic acid) (DTNB identical with Ellman's reagent), when attached to polyethylene glycol-polystyrene (PEG-PS), controlled-pore glass (CPG), or modified Sephadex supports, was an effective oxidizing agent that promoted disulfide formation under mild conditions. More recently, this work was extended to Cross-Linked Ethoxylate Acrylate Resin (CLEAR) supports, because of their compatibility with both organic and aqueous solvent mixtures. The resultant new tool, termed CLEAR-OX, was used to conveniently produce several model cyclic disulfides with improved purities and yields, when compared with solution oxidations. A particularly striking example was the gram-scale oxidation of a urotensin II antagonist peptide containing a hindered penicillamine unit.     

A new amino acid derivative with a masked side-chain aldehyde and its use in peptide synthesis and chemoselective ligation.

A new amino acid derivative with a diol side-chain, L-2-amino-4,5-dihydroxy-pentanoic acid (Adi), has been prepared from L-allylglycine by suitable protection, for use in peptide synthesis, as Fmoc-L-Adi(Trt)2. This building block enables the introduction of a side-chain aldehyde at any position in a given peptide sequence without use of specialized side-chain protection schemes. The aldehyde is revealed by mild oxidation with sodium periodate, circumventing the problematic release of reactive peptidic aldehydes in TFA solution. Peptides with aldehyde side-chains are useful for chemo-selective ligation, reacting selectively with oxyamines to yield oxime links, while all other peptide functions can be left unprotected. The utility of the new building block has been demonstrated by the synthesis of peptide dimers and a cyclo-peptide.     

Comparative study of the enzymatic synthesis of cephalexin at high substrate concentration in aqueous and organic media using statistical model

Synthesis of cephalexin with immobilized penicillin acylase at high substrates concentration at an acyl donor to nucleophile molar ratio of 3 was comparatively evaluated in aqueous and ethylene glycol media using a statistical model. Variables under study were temperature, pH and enzyme to substrate ratio and their effects were evaluated on cephalexin yield, ratio of initial rates of cephalexin synthesis to phenylglycine methyl ester hydrolysis, volumetric and specific productivity of cephalexin synthesis, that were used as response parameters. Results obtained in both reaction media were modeled using surface of response methodology and optimal operation conditions were determined in terms of an objective function based on the above parameters. At very high substrates concentrations the use of organic co-solvents was not required to attain high yields and actually almost stoichiometric yields were obtained in a fully aqueous media with the advantages of higher productivities than in an organic co-solvent media and compliance with the principles of green chemistry.     

Availability of tyrosine amide for α-chymotrypsin-catalyzed synthesis of oligo-tyrosine peptides

Oligo-tyrosine peptides such as Tyr-Tyr having angiotensin I-converting enzyme (ACE) inhibitory activity could be synthesized by α-chymotrypsin-catalyzed reaction with l-tyrosine ethyl ester in aqueous media. However, peptide yield in the reaction was below 10%. Since l-tyrosine amide showed highly nucleophilic activity for the deacylation of enzyme through which a new peptide bond was made, its application to the enzymatic peptide synthesis was evaluated in this study. Addition of tyrosine amide into the reaction produced Tyr-Tyr-NH₂, of which yield exceeded 130% on the basis of tyrosine ethyl ester. Although purified Tyr-Tyr-NH₂ did not inhibit ACE activity, α-chymotrypsin could act on the dipeptide amide and convert about 40% of it to Tyr-Tyr. The use of both ester and amide forms of tyrosine is expected to be a potent procedure for α-chymotrypsin-catalyzed synthesis of antihypertensive peptides.     

O-N intramolecular acyl migration reaction in the development of prodrugs and the synthesis of difficult sequence-containing bioactive peptides

N-Ointramolecular acyl migration in Ser- or Thr-containing peptides is a well-known side reaction in peptide chemistry. It results in the mutual conversion of ester and amide bonds. Our medicinal chemistry study focused on the fact that the O-acyl product can be readily converted to the original N-acyl form under neutral or slightly basic conditions in an aqueous buffer and the liberated ionized amino group enhances the water solubility of O-acyl products. Because of this, we have developed a novel class of "O-N intramolecular acyl migration"-type water-soluble prodrugs of HIV-1 protease inhibitors. These prodrugs released the parent drugs via a simple chemical mechanism with no side reaction. In this study, we applied this strategy to important cancer chemotherapeutic agents, paclitaxel and its derivatives, to develop water-soluble taxoid prodrugs, and found that these prodrugs, 2'-O-isoform of taxoids, showed promising results with higher water solubility and proper kinetics in their parent drug formation by a simple pH-dependent chemical mechanism with O-N intramolecular acyl migration. These results suggest that this strategy would be useful in toxicology and medical economics. After the successful application of O-N intramolecular acyl migration in medicinal chemistry, this concept was recently used in peptide chemistry for the synthesis of "difficult sequence-containing peptides." The strategy was based on hydrophilic O-acyl isopeptide synthesis followed by the O-N intramolecular acyl migration reaction, leading to the desired peptide. In a model study with small, difficult sequence-containing peptides, synthesized "O-acyl isopeptides" not only improved the solubility in various media and efficiently performed the high performance liquid chromatography purification, but also altered the nature of the difficult sequence during SPPS, resulting in the efficient synthesis of O-acyl isopeptides with no complications. The subsequent O-N intramolecular acyl migration of purified O-acyl isopeptides afforded the desired peptides as precipitates with high yield and purity. Further study of the synthesis of a larger difficult sequence-containing peptide, Alzheimer's disease-related peptide (A beta 1-42), surprisingly showed that only one insertion of the O-acyl group drastically improved the unfavorable nature of the difficult sequence in A beta 1-42, and achieved efficient synthesis of 26-O-acyl isoA beta 1-42 and subsequent complete conversion to A beta 1-42 via the O-N intramolecular acyl migration reaction of 26-O-acyl isoA beta 1-42. This suggests that our new method based on O-N intramolecular acyl migration is an important method for the synthesis of difficult sequence-containing bioactive peptides.     

Synthesis of a New Template with a Built-in Adjuvant and Its Use in Constructing Peptide Vaccine Candidates Through Polyoxime Chemistry

Synthetic lipopeptides are showing promise as vaccine candidates, but until now it has been very difficult to prepare them in homogeneous form. We describe the synthesis and characterization of a new water-soluble, four-branched template with a built-in lipophilic adjuvant (Pam₃Cys). Through the use of oxime chemistry, we attached four copies of an unprotected influenza virus peptide and characterized the product (13kDa) by reversed-phase HPLC and electrospray ionization mass spectrometry. Several other such constructions were made using the new template and different peptides. We seem to have a general method for making synthetic lipopeptides in homogeneous form.     

Solid-phase peptide synthesis: a silver anniversary report

It has been a quarter of a century since Merrifield's initial report on solid-phase peptide synthesis. The field has matured significantly in recent years with a better understanding of the underlying chemistry. This is reflected by new, milder orthogonal protection schemes and more efficient coupling methods, some of which have been incorporated into automated systems. Advances in purification, especially high performance liquid chromatography, have had a major impact. The efficacy of these improvements has been demonstrated by an impressive litany of applications to biological problems.