Rapid semi-on-line monitoring of Fmoc solid-phase peptide synthesis by matrix-assisted laser desorption/ionization mass spectrometry

Summary A simple yet highly effective application of matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) for the rapid monitoring of Fmoc solid-phase peptide synthesis is described. A few beads of the resin are removed at any desired step during synthesis, the fully protected peptide is cleaved from the resin and an MS spectrum of the analytes present is produced. Some standard side-chain protecting groups may be cleaved off during sample preparation for MS analysis; however, these cleavages are readily identified. Using this approach, incomplete amino acid acylations are readily detected in approximately the same time as by traditional tests such as ninhydrin. The semi-on-line method also lends itself to ready optimization of synthesis protocols and to the examination of resin-bound peptide side reactions which may not be detectable by chemical means.     

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.     

Synthesis of acid-cleavable light isotope-coded affinity tags (ICAT-L) for potential use in proteomic expression profiling analysis

A convenient synthesis of some homologous light isotope-coded affinity tags (ICAT-L) containing an acid-labile moiety between the affinity component biotin and an electrophilic polar linker is described. These light ICAT reagents give smooth mass spectral signals in tandem mass spectrometry (MS/MS) analyses of some commercially available cysteine-containing peptides. However, these ICAT molecules are designed for use in identification and relative quantification of whole or partially purified cellular and tissue proteomes. Since the biotin moiety can be readily cleaved off the reagent after mass tagging, undesired residual fragmentation patterns caused by biotin of derived peptides, as normally observed using biotin-containing ICAT reagents, are effectively eliminated. This strategy should enhance peptide sequence coverage significantly which, in turn, should result in improving the quality of data obtained during data-dependent peptide mass and tandem mass spectral analysis of whole proteomes.     

Antibody-free peptide substrate screening of serine/threonine kinase (protein kinase A) with a biotinylated detection probe

Being different from anti-phosphotyrosine antibodies, anti-phosphoserine- or anti-phosphothreonine-specific antibodies with high affinity for the detection of serine/threonine kinase substrates are not readily available. Therefore, chemical modification methods were developed for the detection of phosphoserine or threonine in the screening of protein kinase substrates based on β-elimination and Michael addition. We have developed a biotin-based detection probe for identification of the phosphorylated serine or threonine residue. A biotin derivative induced a color reaction using alkaline phosphate-conjugated streptavidin that amplified the signal. It was effective for the detection and separation of the target peptide on the resin. The detection probe was successfully used in identifying PKA substrates from peptide libraries on resin beads. The peptide library was prepared as a ladder-type, such that the active peptides on the colored resin beads were readily sequenced with the truncated peptide fragments by MALDI-TOF/MS analysis after releasing the peptides from the resin bead through photolysis.     

Monitoring proteolysis of recombinant human interferon-γ during batch culture of Chinese hamster ovary cells

Proteolytic cleavage of recombinant human interferon- (IFN-) expressed in Chinese hamster ovary (CHO) cells during batch fermentation has been monitored by mass spectrometric peptide mapping. IFN- was purified from cell-free culture supernatant by immunoaffinity chromatography and cleaved by endoprotease Asp-N. Peptide fragments were resolved by reverse-phase HPLC and identified by a combination of matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry (MS) and automated N-terminal peptide sequencing. Using this approach, a peptide was identified as the C-terminal fragment of the IFN- polypeptide. Analysis of this peptide by MS indicated that the recombinant IFN- polypeptide secreted by CHO cells was truncated by at least ten amino acids, initially at Gln¹³³-Met¹³⁴. No full length (143 amino acids) polypeptide molecules were observed at any stages of the fermentation. Additional proteolytic cleavages at basic amino acids N-terminal of Gln¹³³ occurred during the later stages of the culture resulting in a heterogeneous IFN- polypeptide population with 'ragged' C-termini.     

α- 促黑激素的固相合成研究

目的:探索α-促黑激素的合成工艺。方法:采用多肽固相合成法制备α-促黑激素。以Rink amide-MBHA树脂为载体、使用Fmoc保护策略、TBTU、HOBt、DIEA为缩合剂体系,最后用TFA、苯甲硫醚、水、苯酚、乙二硫醇混合液将多肽从树脂上切割下来。结果:合成后的目标多肽产率达64.9%,经过RP-HPLC纯化纯度可达98%,质谱鉴定显示纯化产物与目标多肽理论相对分子质量一致。结论:该方法操作方便,反应结果稳定,为固相合成生产α-促黑激素提供了一种可行的工艺方案。     

One-bead, one-compound peptide library sequencing via high-pressure ammonia cleavage coupled to nanomanipulation/nanoelectrospray ionization mass spectrometry

Biological screening of one-bead, one-compound (OBOC) combinatorial peptide libraries is routinely carried out with the peptide remaining bound to the resin bead during screening. After a hit is identified, the bead is isolated, the peptide is cleaved from the bead, and its sequence is determined. We have developed a new technique for cleavage of peptides from resin beads whereby exposure of a 4-hydroxymethyl benzoic acid (HMBA)-linked peptide to high-pressure ammonia gas led to efficient cleavage in as little as 5 min. Here we also report a new method of extracting peptide from individual library beads for its introduction into a mass spectrometer that uses nanomanipulation combined with nanoelectrospray ionization mass spectrometry (NSI MS). Single beads analyzed by nanomanipulation/NSI MS were found to give identical MS results to those of bulk samples. Detection of 18 unique cleaved peptides 1 to 8 amino acids in length, and sequencing of 14 different peptide sequences 4 to 8 amino acids in length, was demonstrated on a combination of bulk samples and ones from individual beads of an OBOC library. The method was highly reproducible, with 100% of attempts to extract peptide resulting in high-quality MS data. This new collection of techniques allows rapid, reliable, environmentally responsible sequencing of hit beads from combinatorial peptide libraries.     

Solid support-dependent alkylation of tryptophan residues in SPPS using a 2-methoxybenzyl alcohol-based linker

Summary Several side reactions can be encountered in the synthesis of Trp-containing peptides, due to molecular species originating from side chain-protecting groups or from the linker during acidolytic cleavage of the peptide from the resin. The linker can be the source of both alkylation in solution of the indole moiety of the tryptophan side chain and permanent readdition of the cleaved peptide to the resin. We report that both these reactions occur at a high level during the synthesis of Trp-containing peptides on a PEG-PS resin containing a 2-methoxybenzyl alcohol-based linker, in spite of the presence of suitable scavengers in the TFA-based cleavage mixture. Both side reactions are efficiently prevented by the use of a protected analogue of tryptophan, namely N^im-Boc-Trp, previously reported for the synthesis of peptides containing tryptophan and arginine residues.     

Two-step hard acid deprotection/cleavage procedure for solid phase peptide synthesis

A new two-step deprotection/cleavage procedure for t-butoxycarbonyl (Boc) based solid phase peptide synthesis is reported. First the protective groups are removed from 4-(oxymethyl)-phenylacetamidomethyl (PAM) resin attached peptide with the weak hard acid, trimethylsilyl bromide-thioanisole/trifluoroacetic acid (TFA). In the second step, the peptide is cleaved from the resin with a stronger hard acid such as trimethylsilyl trifluoromethanesulfonate in TFA or with HF. The method is also shown to deformylate Nin-formyltryptophan moiety efficiently. The usefulness of this procedure for practical solid phase peptide synthesis is demonstrated by comparison with other deprotection methods in the synthesis of urotensin II and human endothelin.     

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).     

Facile removal of the N-indole-mesitylenesulfonyl protecting group using HF cleavage conditions

Summary Nitrogen indole protection of the -methyltryptophan side-chain residue is important for avoiding undesired side reactions during peptide synthesis. Of great importance is the choice of a side-chain protecting group for orthogonal peptide synthesis and its stability under a variety of chemical conditions required for synthesis of the four isomers of this unusual amino acid. We report here the successful use of the mesitylenesulfonyl (Mts) protecting group for -methyltryptophan in the synthesis of melanotropin and CCK peptide analogues and the ready cleavage of this protecting group under HF conditions.     

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.     

A Dde resin based strategy for inverse solid-phase synthesis of amino terminated peptides, peptide mimetics and protected peptide intermediates.

This report describes a Dde resin based attachment strategy for inverse solid-phase peptide synthesis (ISPPS). This attachment strategy can be used for the synthesis of amino terminated peptides with side chains and the carboxyl terminus either protected or deprotected. Amino acid t-butyl esters were attached through their free amino group to the Dde resin. The t-butyl carboxyl protecting group was removed by 50% TFA, and inverse peptide synthesis cycles performed using an HATU/TMP based coupling method. Protected peptides were cleaved from the resin with dilute hydrazine. Side chain protecting groups could then be removed by treatment with TFMSA/TFA. The potential of this approach was demonstrated by the synthesis of several short protected and unprotected peptides in good yield and with low epimerization. Its potential for peptide mimetic synthesis was demonstrated by the synthesis of two peptide trifluoromethylketones.     

Cleavage Specificities of Individual Members of Kallikrein Family of Proteins on Synthetic Peptide Containing the Bradykinin Sequence

We have analyzed the effect on bond specificity of various isolated members of the mouse kallikrein family of proteins on a synthetic peptide containing the bradykinin sequence. The cleavage pattern shows the selected specificity of these proteases toward the synthetic peptide. The Phe–His bond (positions 11–12) in the synthetic peptide was favorably cleaved by most of the members in this family, including gamma nerve growth factor. On the other hand, the Lys–Arg bond (position 3–4) was found to be susceptible only to -NGF. The combination of these cleavages could result in the degradation of bradykinin in vivo.     

Preparation of protected peptide amides using the Fmoc chemical protocol. Comparison of resins for solid phase synthesis.

Different resins were examined for their potential use in the solid phase synthesis of protected peptide amides using the 9-fluorenylmethoxycarbonyl (Fmoc) chemical protocol. The model protected peptide amide BocTyr-Gly-Gly-Phe-Leu-Arg(Pmc)NH2 (1) was synthesized on both the acid-labile 4-(2',4'-dimethoxyphenyl-Fmoc-aminomethyl)phenoxy resin (Rink amide resin) (2) and on resins containing the base-labile linker 4-hydroxymethylbenzoic acid. Of the resins examined only the methylbenzhydrylamine resin containing the 4-hydroxymethylbenzoic acid linkage, which was cleaved by ammonolysis in isopropanol, gave the model peptide 1 in good overall yield (53% including functionalization). Thus the synthesis of protected peptide amides by solid phase synthesis using Fmoc-protected amino acids with t-butyl-type side chain protecting groups is feasible. The choice of peptide-resin linkage and its cleavage conditions, however, are critical to the success of such syntheses. The potential application of this synthetic strategy to the preparation of novel peptide amides is discussed.     

Synthesis of a shark repellent peptide toxin, Pardaxin (16-33) on a highly flexible polymer support: CLPSER

A high swelling resin, CLPSER has been developed and utilized for the solid phase synthesis of Pardaxin, which is an 18-residue peptide. The resin was characterized by gel phase (13)C NMR, IR and SEM. The utility of the new polymer support in polypeptide synthesis was further established by the comparative synthesis of pardaxin with commercially available Merrifield resin. The MALDI TOF MS, amino acid analysis and the HPLC revealed the superior quality of CLPSER.