Chemical synthesis of NS-1 region of hepatitis C-viral polyprotein fragments: a comparison of PS-BDODMA resin and merrifield resin

Three peptide fragments selected from the NS-1 region of hepatitis C-viral polyprotein (Leu-Ile-Asn-Thr-Asn-Ala-Ser-Trp-His-Ala-Asn-Arg-Thr-Ala-Leu-Ser Asn-Asp Ser-Lys Leu Asn Thr-Gly Ala NH(2), Leu-lle Asn Thr Asn Ala Ser-Trp-His-Ala-Asn-Arg-Thr Ala NH(2) and Leu-Asn-Cys(Acm)-Asn-Asp-Ser-Leu-Asn-Thr-Ala-NH(2)) have been synthesized on PS-BDODMA resin. The synthetic capability of the resin PS-BDODMA resin was compared with Merrifield resin. The peptides were synthesized by the stepwise fluoren-9-yl methoxycarbonyl (Fmoc) solid-phase method. The synthesized peptides were purified by HPLC and the identity of the peptides was established by mass spectrum and amino acid analysis. The synthesis of these peptides illustrates the application of the PS-BDODMA resin for the synthesis of long chain peptides in high yield and homogeneity compared to the Merrifield resin.     

Gel-phase synthesis of a difficult sequence peptide on 1,4-butanediol dimethacrylate-crosslinked polystyrene support

The synthetic usefulness of the protocol using NMP/DMSO and DIEA for the synthesis of difficult sequence peptides on amphiphilic and flexible 1,4-butanediol dimethacrylate-crosslinked polystyrene (BDDMA-PS) support was demonstrated by synthesizing [DAla¹⁷] analogue of gonadotropin releasing hormone precursor protein fragment (14–36) [hGnRH (14–36)] using Boc chemistry. The swelling capacity of the peptidyl resin was followed as a measure of the aggregation of pendant peptide chains on the support. The progress of chain assembly was monitored by quantitative ninhydrin test and amino acid analysis. The purity of the peptide was checked by reverse phase HPLC and characterized by amino acid analysis and electrospray ionisation mass spectrometry (ESI-MS).     

Gel-phase synthesis of a difficult sequence peptide on 1,4-butanediol dimethacrylate-crosslinked polystyrene support

Summary The synthetic usefulness of the protocol using NMP/DMSO and DIEA for the synthesis of difficult sequence peptides on amphiphilic and flexible 1,4-butanediol dimethacrylate-crosslinked polystyrene (BDDMA-PS) support was demonstrated by synthesizing [DAla¹⁷] analogue of gonadotropin releasing hormone precursor protein fragment (14–36) [hGnRH (14–36)] using Boc chemistry. The swelling capacity of the peptidyl resin was followed as a measure of the aggregation of pendant peptide chains on the support. The progress of chain assembly was monitored by quantitative ninhydrin test and amino acid analysis. The purity of the peptide was checked by reverse phase HPLC and characterized by amino acid analysis and electrospray ionisation mass spectrometry (ESI-MS).     

An efficient gel-phase synthesis of peptides on a high capacity flexible crosslinked polystyrene support: comparison with Merrifield resin.

A highly solvating copolymer was prepared in high yield by introducing a flexible crosslinker, 1,4-butanedioldimethacrylate, into the polystyrene matrix by a free radical aqueous suspension polymerization. A 2 mol% crosslinked resin showed rigidity and mechanical characteristics comparable to those of divinylbenzene-crosslinked polystyrene (Merrifield resin, DVB-PS) support. Swelling and solvation characteristics of the new resin, BDDMA-PS, were much higher than DVB-PS support in all solvents used for solid phase peptide synthesis. The diacrylate crosslinks in the resin network were found to be highly stable even after 48 h treatment with neat TFA, 6 N HCl and 6 N KOH at 110 degrees C. To demonstrate the usefulness of the new resin in high capacity peptide synthesis, a typical difficult peptide, acyl carrier protein (ACP) fragment (65-74), was synthesized on commercially available 1 mol% crosslinked DVB-PS and 2 mol% crosslinked BDDMA-PS resins under identical conditions. A protocol using NMP/DMSO mediated coupling was employed for chain assembly. The yield and purity of the product from BDDMA-PS resin was higher than when the DVB-PS resin was used. The mechanistic reason behind the synthetic efficiency of the new resin was found to be its ability to induce random coil conformation to the growing peptide chains.     

Optimization of butanediol dimethacrylate crosslinked polystyrene: A novel polymeric support for solid phase peptide synthesis

Summary Studies leading to optimization of butanediol dimethacrylate-crosslinked polystyrene supports (BDDMA-PS) for solid phase peptide synthesis are delineated. BDDMA-PS copolymers with different crosslink densities were prepared and functionalised with chloromethyl groups. The reactivity of the Lys(2-Cl−Z)−OH residue bound to these polymers through a benzyl ester linkage was investigated by following the kinetics of acylation by the HOBt active ester of Boc-Alanine. From the results it was observed that the rate of peptide bond formation was maximum for a 2% BDDMA crosslinked resin. This resin was compared with a 2% DVB-crosslinked polystyrene resin (DVB-PS). Synthesis of an extremely insoluble, hydrophobic, antiparallel β-sheeted difficult sequence peptide LMVGGVVIA (β 34–42), C-terminal fragment of β-amyloid protein, β (1–42), was carried out on both 2% DVB-PS and 2% BDDMA-crosslinked polystyrene supports. The synthesis of the peptide was carried out using Boc amino acid strategy. Greater extent of swelling of the resino peptide, increased coupling efficiency during the assembly of amino acids and relatively high purity of synthesised peptide were observed in the case of 2% BDDMA-PS polymer.     

Synthesis of cyclic penta- and hexapeptides: A general synthetic strategy on DAS resin

The active part or receptor-binding sequence of peptide hormones can usually be defined by a span of 4–8 amino acids. Cyclic penta- and hexapeptides are excellent model systems for performing conformational and structure-function studies on this class of bioactive molecules. A synthetic scheme has been devised comprising solid-phase Fmoc chemistry followed by resin cleavage, cyclization in solution, and, finally, side-chain deprotection. A new resin, DAS, cleaved under weak acid conditions, is an excellent solid-phase synthesis support, and HBTU or PyBOP are the activation reagents of choice, not only during synthesis, but also for the cyclization reaction. Three cyclic peptides were synthesized using this method, one requiring extensive side-chain protection, and this method has general applicability for any cyclic pentapeptide or hexapeptide, giving good yields and high purity.     

Heating and microwave assisted SPPS of C-terminal acid peptides on trityl resin: the truth behind the yield

Despite correct purity of crude peptides prepared on trityl resin by Fmoc/tBu microwave assisted solid phase peptide synthesis, surprisingly, lower yields than those expected were obtained while preparing C-terminal acid peptides. This could be explained by cyclization/cleavage through diketopiperazine formation during the second amino acid deprotection and third amino acid coupling. However, we provide here evidence that this is not the case and that this yield loss was due to high temperature promoted hydrolysis of the 2-chlorotrityl ester, yielding premature cleavage of the C-terminal acid peptides.     

Synthesis of esculentin-1 antibacterial peptide fragments on 1,4-butanediol dimethacrylate cross-linked polystyrene support

Peptide segments corresponding to antibacterial esculentin-1 (1–15), (33–44), (9–27), and their modified forms were synthesized on 1,4-butanediol dimethacrylate cross-linked polystyrene (PS-BDODMA) support. Hydroxymethyl and aminomethyl 2% PS-BDODMA supports were used for the synthesis. The HMPB linker was appended to the aminomethyl resin using HBTU in presence of HOBt and the first amino acid was incorporated using MSNT. The conventional Fmoc synthetic protocol was used for the synthesis of peptides. The peptides were cleaved from the support using TFA. The peptides were purified by HPLC, and characterized by amino acid analysis and MALDI TOF MS. The secondary structures of the peptides were revealed by CD measurements. The synthesis of these peptides illustrates the utility of the new support for the synthesis of long-chain bioactive peptides. The synthetic peptides were tested for antimicrobial activity against Escherichia coli Mos blue, E. coli 2, Bacillus brevis, B. megaterium, Pseudomonas HTL, and Vibrio mimicus. The antibacterial activity of the peptides was explained on the basis of the helicity and charged nature of the sequences.     

Polyethyleneglycol graft copoly (styrene-1,4-butanediol dimethacrylate) resin for gel-phase peptide synthesis

Summary Synthesis and characterization of a flexible crosslinked polystyrene grafted polyethyleneglycol (PEG) resin which allows for efficient synthesis of aggregating peptides in high yield and purity has been described. The resin showed rigidity, mechanical and chemical stability, and improved swelling and solvation characteristics essential for the successful synthesis of peptides. To demonstrate the usefulness of the new resin in polypeptide synthesis, a 4-(hydroxymethyl)phenoxyacetic acid (HMPA) handle was anchored to the free terminus of PEG and a typical hydrophobic peptide, Alzheimer’s β-amyloid plaque protein (33–42) fragment, was synthesized using Fmoc/tBu tactics. The new resin was compared with commercially available 1 mol% divinylbenzene (DVB)-crosslinked Tentagel resin under identical conditions. HPLC profiles and LC/MS analyses of the crude products revealed the high synthetic efficiency of the newly developed support. Efficiency of the resin was further illustrated by the gel-phase synthesis of a 15-residue peptide, (28–42) fragment of β-amyloid protein.     

Synthesis and angiogenetic activity in the chick chorioallantoic membrane model of thymosin beta-15

Thymosin beta-15 (Tbeta15), a 44 amino acid peptide (MW = 5173) localized in human prostate and breast cancer tissues was successfully synthesized in multigram quantities using Fmoc solid-phase peptide synthesis. The synthesized product was shown to have the right structure by ESI and MALDI mass spectral techniques and amino acid analysis. Relatively high yield was achieved, which might be due to enhanced acid stability of the p-cyanotrityl resin used. The effect of the synthesized Tbeta15 on the angiogenesis process was investigated using the chick chorioallantoic membrane (CAM) in vivo model. At concentrations above 1 microg/10 microl per disc, Tbeta15 exhibited a positive effect on angiogenesis, comparable to the effect of the intense angiogenetic factor phorbol 12-myristate 13-acetate at a standard concentration of 0.1 microg/10 microl per disc. The results of this study contribute to the further elucidation of the biological regulatory role of thymosin peptides and provide helpful information in the investigation of their possible therapeutic potential.     

A convenient microwave‐enhanced solid‐phase synthesis of short chain N‐methyl‐rich peptides

Structural modification of the peptide backbone via N‐methylation is a powerful tool to modulate the pharmacokinetic profile and biological activity of peptides. Here we describe a rapid and highly efficient microwave(MW)‐assisted Fmoc/tBu solid‐phase method to prepare short chain N‐methyl‐rich peptides, using Rink amide p‐methylbenzhydrylamine (MBHA) resin as solid‐phase support. This method produces peptides in high yield and purity, and reduces the time required for Fmoc‐N‐methyl amino acid coupling. Copyright © 2010 European Peptide Society and John Wiley & Sons, Ltd.     

Acid-labile anchoring linkages for solid phase synthesis of C-terminal asparagine peptides using the Fmoc strategy

Two acid-labile substituted benzylamine type anchoring linkages, 4-benzoxy-2,6-dimethoxybenzylamine and 2-benzoxy-4,6-dimethoxybenzylamine, for solid phase synthesis of peptide amides were prepared. The Na-9-fluorenylmethyloxycarbonyl (Fmoc) amino acids could be easily attached to the resins with DCC/HOBt (loading 0.5-0.6 mmol/g resin). After final removal of the Na-protecting groups, treatment with TFA (50-95%) yielded amino acid and peptide amides in high purity. As we could show for the synthesis of thymulin (FTS, pGlu-Ala-Lys-Ser-Gln-Gly-Gly-Ser-Asn), these two resins with anchoring linkages are well suited for the synthesis of C-terminal Asn peptides using protected aspartic acid derivative as starting material.     

Polyethyleneglycol graft copoly (styrene-1,4-butanediol dimethacrylate) resin for gel-phase peptide synthesis

Synthesis and characterization of a flexible crosslinked polystyrene graftedpolyethyleneglycol (PEG) resin which allows for efficient synthesis of aggregating peptides in high yield and purity has been described. The resin showed rigidity, mechanical and chemical stability, and improved swelling and solvation characteristics essential for the successful synthesis of peptides. To demonstrate the usefulness of the new resin in polypeptide synthesis, a 4-(hydroxymethyl)phenoxyacetic acid (HMPA) handle was anchored to the free terminus of PEG and a typical hydrophobic peptide, Alzheimer's -amyloid plaque protein (33–42) fragment, was synthesized using Fmoc/t-Bu tactics. The new resin was compared with commercially available 1 mol% divinylbenzene (DVB)-crosslinked Tentagel resin under identical conditions. HPLC profiles and LC/MS analyses of the crude products revealed the high synthetic efficiency of the newly developed support. Efficiency of the resin was further illustrated by the gel-phase synthesis of a 15-residue peptide, (28–42) fragment of -amyloid protein.     

2-(N-Fmoc)-3-(N-Boc-N-methoxy)-diaminopropanoic acid, an amino acid for the synthesis of mimics of O-linked glycopeptides

Amino acids with N-alkylaminooxy side chains have proven effective for the rapid synthesis of neoglycopeptides. Chemoselective reaction of reducing sugars with peptides containing these amino acids provides glycoconjugates that are structurally similar to their natural counterparts. 2-(N-Fmoc)-3-(N-Boc-N-methoxy)-diaminopropanoic acid (Fmoc: 9-fluorenylmethoxycarbonyl; Boc: t-butyloxycarbonyl) was synthesized from Boc-Ser-OH in >40% overall yield and incorporated into peptides by standard Fmoc chemistry based solid phase peptide synthesis. The resulting peptides are efficiently glycosylated and serve as mimics of O-linked glycopeptides. The synthesis of this derivative greatly expands the availability of the N-alkylaminooxy strategy for neoglycopeptides.     

Solid-phase synthesis of a range of O-phosphorylated peptides by post-assembly phosphitylation and oxidation.

A completely general method for the O-phosphorylation of peptides of any given composition using solid-phase methodology is described. Peptides were assembled using Fmoc amino acid active esters, with base used for Fmoc deprotection. Unprotected amino acid side chain hydroxyl groups were phosphitylated and oxidised at the end of the assembly using bis(benzyloxy)(diisopropylamino)phosphine and tert.-butylhydroperoxide respectively. TFA was used for final deprotection of the amino acid side chains and for simultaneous cleavage from the resin. The synthesis of O-phosphopeptides of up to 15 residues in length is described.     

一种多肽固相合成方法与纯化策略研究

目的：多肽与小分子化学药物相比,具有生物活性高、特异性强、不容易产生耐药性等特点,是目前新型药物研发的重点领域。多肽的合成直接影响到多肽药物的作用机制以及药物效果,因此需要建立一种更加便捷、高效的多肽合成方法。方法：采用Fmoc固相合成法合成多肽HF01,通过比较氨基酸连接的反应体系以及氨基酸脱保护的反应体系,从中确定最优体系。利用乙酰化基团进行肽链末端保护,经肽链剪切制备干燥的粗肽,最后采用高效液相色谱仪与高分辨质谱仪联用对粗肽进行纯化。结果：确定多肽合成的连接和脱保护反应体系,并获得纯度高达98.3%的线性多肽。结论：建立了一种高效、便捷的多肽合成及纯化方法,提高了实验室合成多肽的效率,为多肽类药物的研发提供技术支撑。     

Solid phase synthesis without repetitive acidolysis. Preparation of leucyl-alanyl-glycyl-valine using 9-fluorenylmethyloxycarbonylamino acids.

The utility of repetitive nonhydrolytic base cleavage of alpha-amino protective groups in solid phase peptide synthesis is shown by a preparation of the model tetrapeptide leucyl-alanyl-glycyl-valine on a p-benzyloxybenzyl ester polystyrene--1% divinylbenzene resin support. Nalpha-9-Fluorenylmethyloxycarbonyl (Fmoc: Carpino & Han, 1970, 1972) amino acids were coupled by the symmetrical anhydride procedure, followed by Fmoc group cleavage using 50% piperidine in methylene chloride. Quantitative removal of the Fmoc-tetrapeptide from the solid support was effected by treatment with 55% trifluoroacetic acid in methylene chloride. Homogeneous free tetrapeptide was obtained in 87% overall yield. The procedure is proposed to offer advantages over present solid phase methods which use acidolysis for repetitive alpha-amino group deblocking.     

Solid-phase sequencing on the gas-phase sequencer

Automated Edman degradation has been successfully used for determining the primary structure of numerous peptides and proteins. Quantitative solid-phase Edman degradation has great potential use for amino acid sequence analysis of synthetic peptides assembled on resin support by the Merrifield procedure. We report here the combined use of a modified gas-phase sequencer program and our improved reversed-phase HPLC analysis for PTH-amino acids to carry out the sequence analysis on synthesized peptide resins. This approach is far more sensitive than using glass beads on the conventional solid-phase sequencer. The peptide was assembled on copoly (styrene-1% divinylbenzene) resin beads at an initial substitution of 0.54 mmol/g. On a routine basis, 10-15 resin beads are used, and a repetitive yield of 94% is obtained: as few as 4 beads can be successfully sequenced. The HPLC PTH-amino acid analysis is sensitive down to subpicomole quantities. This procedure offers a sensitive and rapid analytical tool for checking the purity of peptides as they are being assembled on solid support.     

Synthesis of Aβ[1‐42] and its derivatives with improved efficiency

It has been proved that the principal component of senile plaques is aggregates of β‐amyloid peptide (Aβ) in cases of one of the most common forms of age‐related neurodegenerative disorders, Alzheimer's disease (AD). Although the synthetic methods for the synthesis of Aβ peptides have been developed since their first syntheses, Aβ[1‐42] is still problematic to prepare. The highly hydrophobic composition of Aβ[1‐42] results in aggregation between resin‐bound peptide chains or intrachain aggregation which leads to a decrease in the rates of deprotection and repetitive incomplete coupling reactions during 9‐flurenylmethoxycarbonyl (Fmoc) synthesis. In order to avoid aggregation and/or disrupt internal aggregation during stepwise Fmoc solid phase synthesis and to improve the quality of crude products, several attempts have been made. Since highly pure Aβ peptides in large quantities are used in biological experiments, we wanted to develop a method for a rational synthesis of human Aβ[1‐42] with high purity and adequate yield. This paper reports a convenient methodology with a novel solvent system for the synthesis of Aβ[1‐42], its N‐terminally truncated derivatives Aβ[4‐42] and Aβ[5‐42], and Aβ[1‐42] labeled with 7‐amino‐4‐methyl‐3‐coumarinylacetic acid (AMCA) at the N‐terminus using Fmoc strategy. The use of 10% anisole in Dimethylformamide/Dichloromethane (DMF/DCM) can substantially improve the purity and yield of crude Aβ[1‐42] and has been shown to be an optimal coupling condition for the synthesis of Aβ[1‐42]. Anisole is a cheap and simple aid in the synthesis of ‘difficult sequences’ where other solvents are less successful in the prevention of aggregation during the synthesis. Copyright © 2006 European Peptide Society and John Wiley & Sons, Ltd.     

Syntheses of four peptides from the immunodominant region of hepatitis C viral pathogens using PS-TTEGDA support for the investigation of HCV infection in human blood.

Four peptides were designed and synthesized on a highly solvating copolymer of tetraethyleneglycol diacrylate cross-linked polystyrene (PS-TTEGDA) support with very high purity and yield. The polymer was synthesized in various cross-linking densities (1, 2, 3, 4, 5 and 10%) using radical aqueous suspension polymerization. Four per cent PS-TTEGDA resin showed rigidity and mechanical characteristics comparable with those of divinylbenzene cross-linked polystyrene (PS-DVB) support. Swelling and solvation characteristics of PS-TTEGDA were much higher than PS-DVB support in all solvents used in solid-phase peptide synthesis. Forty-eight hour treatment of the support with neat trifluoroacetic acid did not show any change in its infrared spectra. PS-TTEGDA could be functionalized with chloromethyl, aminomethyl and hydroxymethyl functional groups under various controlled conditions. Synthetic utility of the support was demonstrated by the synthesis of four peptides selected from the envelope and nonstructural protein region of the prototype hepatitis C virus (HCV). These peptides were later used successfully to develop a peptide-based immunoassay (PBEIA) for the detection of HCV immunity. Peptides designed from the NS1 and NS4 protein regions were found to be very promising for the development of a new diagnostic kit to detect HCV infection in human blood. Peptide purity was tested by RP-FPLC and the peptide identity was confirmed by amino acid analysis.