p56lck SH2 domain binding motifs from bead binding screening of peptide libraries containing phosphotyrosine surrogates

Phosphorylation reactions are key mediators in a variety of biochemical signal processes. Research into the selective inhibition of protein tyrosine kinases to generate anticancer agents has made O-phosphotyrosyl analogues important pharmacological tools. The simple procedures reported here involving the formation of iterative peptide libraries together with the development of a selective and sensitive bead-binding assay have made it possible to rapidly screen peptides incorporating O-phosphotyrosyl surrogates (including O-phospho-2,3,5,6-tetrafluorotyrosine, 4-(phosphono)hydroxymethyl-phenylalanine and 4-(phosphono)fluoromethyl-phenylalanine) for their potential to inhibit the protein tyrosine kinase p56^lck. These procedures can be easily adapted to combinatorial peptide libraries.     

p56lck SH2 domain binding motifs from bead binding screening of peptide libraries containing phosphotyrosine surrogates

Summary Phosphorylation reactions are key meditors in a variety of biochemical signal processes. Research into the selective inhibition of protein tyrosine kinases to generate anticancer agents has madeO-phosphotyrosyl analogues important pharmacological tools. The simple procedures reported here involving the formation of interative peptide libraries together with the development of a selective and sensitive bead-binding assay have made it possible to rapidly screen peptides incorporatingO-phosphotyrosyl surrogates (includingO-phospho-2,3,5,6-tetrafluorotyrosine, 4-(phosphono)hydroxymethyl-phenylalanine and 4-(phosphono)fluoromethyl-phenylalanine) for their potential to inhibit the protein tyrosine kinase p56^lck. These procedures can be easily adapted to combinatorical peptide libraries.     

SYFPEITHI: database for MHC ligands and peptide motifs

 The first version of the major histocompatibility complex (MHC) databank SYFPEITHI: database for MHC ligands and peptide motifs, is now available to the general public. It contains a collection of MHC class I and class II ligands and peptide motifs of humans and other species, such as apes, cattle, chicken, and mouse, for example, and is continuously updated. All motifs currently available are accessible as individual entries. Searches for MHC alleles, MHC motifs, natural ligands, T-cell epitopes, source proteins/organisms and references are possible. Hyperlinks to the EMBL and PubMed databases are included. In addition, ligand predictions are available for a number of MHC allelic products. The database content is restricted to published data only.     

A chitin-oligomer binding peptide obtained by screening of a phage display random peptide library and its affinity modulation corresponding to oxidation–reduction state

Screening of a phage display random 9-mer peptide library, in which cysteine residues were at the both terminals of the 7-mer random region, was performed to obtain an oligopeptide that recognizes a chitin-oligomer. Affinity of the obtained peptide (Cys-Ser-Arg-Thr-Thr-Arg-Thr-Arg-Cys) to chitotriose was modulated by its oxidation–reduction state. Only the oxidized form exhibited specific binding to the target molecule, chitotriose. This is the first report of reversible affinity modulation of a synthetic oligopeptide which can recognize a neutral saccharide.     

Monoclonal antibody purification by affinity chromatography with ligands derived from the screening of peptide combinatory libraries

The peptide, Ala-Pro-Ala-Arg (APAR), was selected from the screening of a tetrapeptide combinatorial synthetic library as the ligand for affinity purification of an anti-Granulocyte Macrophage-Colony Stimulating Factor (GM-CSF) monoclonal antibody (Mab) developed in mouse ascitis. The affinity chromatographic matrix obtained by attachment of APAR to agarose, having a peptide density of 0.5 mol ml^–1, showed a maximum capacity of 9.1 mg Mab ml^–1 and a dynamic capacity of 3.9 mg Mab ml^–1. A 95% yield of electrophoretically pure anti-GM-CSF was obtained in a single step.     

Identification of avidin and streptavidin binding motifs among peptides selected from a synthetic peptide library consisting solely of D-amino acids

Peptides consisting solely of D -amino acids (D -peptides) as opposed to their L -counterparts (L -peptides) are resistant towards proteolytic degradation in the organism and may therefore be useful in future efforts to develop new stable peptide-based drugs. Using the random synthetic peptide library technique several L - and D -peptides, capable of binding to both avidin and streptavidin, were found. The L -peptides contained the previously described HPQ/M motifis, and among the D -peptides three binding motifs could be identified, of which the most frequently found one contained an N-terminal aliphatic hydrophobic amino acid (V, L or I) and an aromatic amino acid (Y or F) on the second position. At the third position in this motif several different amino acid residues were found, although N was the most frequent. Peptides representing two of the D -motifs were synthesized as well as peptides containing the HPQ/M motifs, and their binding properties were examined. Although the D -peptides were originally selected using avidin they also inhibited binding between immobilized biotin and soluble streptavidin as well as avidin. The IC₅₀ of some of the peptides were approximately 10⁵ times higher than the IC₅₀ for biotin but some had a lower IC₅₀ than iminobiotin. The D -peptides, which were originally selected from the library using avidin, could also inhibit the binding between streptavidin and biotin. Likewise, L -peptides selected from a library screened with streptavidin, could inhibit the binding of both streptavidin and avidin to immobilized biotin. Furthermore, the D -peptide, VFSVQSGS, as well as biotin could inhibit binding of streptavidin to an immobilized L -peptide (RYHPQSGS). This indicates that the biotin-like structure mimicked by these two seemingly very different peptides may react with the same binding sites in the streptavidin molecule.     

A polystyrene binding target-unrelated peptide isolated in the screening of phage display library

Phage display is a powerful methodology for the identification of peptide ligands binding to any desired target. However, the selection of target-unrelated peptides (TUPs) appears as a huge problem in the screening of phage display libraries through biopanning. The phage-displayed peptide TLHPAAD has been isolated both in our laboratory and by another reserach group on completely different screening targets prompting us to hypothesize that it may be a potential TUP. In the current study, we analyzed the binding characteristics and propagation rate of phage clone displaying TLHPAAD peptide (SW-TUP clone). The results of ELISA experiment and phage recovery assay provided strong support for the notion that SW-TUP phage binds to polystyrene with a significantly higher affinity than control phage clones. Furthermore, this polystyrene binding was demonstrated to occur in a concentration- and pH-dependent mode. Characterization of the propagation profile of phage clones within a specified time course revealed no statistically significant difference between the amplification rate of SW-TUP and control phages. Our findings lead us to the conclusion that SW-TUP phage clone with the displayed peptide TLHPAAD is not a true target binder and its selection in biopanning experiments results from its bidning affinity to the polystyrene surface of the solid phase.     

Tertiary motifs as building blocks for the design of protein‐binding peptides

Despite advances in protein engineering, the de novo design of small proteins or peptides that bind to a desired target remains a difficult task. Most computational methods search for binder structures in a library of candidate scaffolds, which can lead to designs with poor target complementarity and low success rates. Instead of choosing from pre‐defined scaffolds, we propose that custom peptide structures can be constructed to complement a target surface. Our method mines tertiary motifs (TERMs) from known structures to identify surface‐complementing fragments or “seeds.” We combine seeds that satisfy geometric overlap criteria to generate peptide backbones and score the backbones to identify the most likely binding structures. We found that TERM‐based seeds can describe known binding structures with high resolution: the vast majority of peptide binders from 486 peptide‐protein complexes can be covered by seeds generated from single‐chain structures. Furthermore, we demonstrate that known peptide structures can be reconstructed with high accuracy from peptide‐covering seeds. As a proof of concept, we used our method to design 100 peptide binders of TRAF6, seven of which were predicted by Rosetta to form higher‐quality interfaces than a native binder. The designed peptides interact with distinct sites on TRAF6, including the native peptide‐binding site. These results demonstrate that known peptide‐binding structures can be constructed from TERMs in single‐chain structures and suggest that TERM information can be applied to efficiently design novel target‐complementing binders.     

Preparation, analysis and antibody binding studies of simultaneously synthesized soluble and cellulose-bound HIV-1 p24 peptide epitope libraries

Summary Epitope libraries of the HIV-1 p24 epitope GATPQDLNTM, recognized by the murine monoclonal antibody CB 4-1, were prepared by simultaneous synthesis on single resin supports (solution phase library) and on a continuous cellulose membrane support (solid phase-bound library) Each position of the epitope was replaced by 19 l-amino acids (cysteine omitted) in the soluble library or by 20 l-amino acids in the cellulose-bound library. The soluble library was synthesized by simultaneously incorporating equimolar amino acid mixtures at each position of the epitope or by synthesizing single epitope analogues. The peptide mixtures were subsequently analyzed by HPLC, CZE and MALDI-TOF mass spectrometry. Double coupling of equimolar amino acid mixtures of either 0.8 equiv (coupling at epitope positions 6–10) or 1.5 equiv (coupling at epitope positions 1–5) resulted in approximately equimolar incorporation of all single components of the mixture. The mixtures were then separated by preparative HPLC, and the peptides or peptide mixtures of single fractions were isolated and analyzed for binding CB 4-1. The results were compared with those obtained from antibody binding studies using the cellulose-bound epitope library. The affinity constants of the soluble peptide variants qualitatively correlated with the binding of CB 4-1 to single cellulose-bound analogues. Both approaches allowed the rapid identification of key residues in antibody binding, thus giving insight into the molecular nature of this antibody-peptide interaction.     

MHC allele-specific binding of a malaria peptide makes it become promiscuous on fitting a glycine residue into pocket 6

Peptide 1585 (EVLYLKPLAGVYRSLKKQLE) has a highly conserved amino-acid sequence located in the Plasmodium falciparum main merozoite surface protein (MSP-1) C-terminal region, required for merozoite entry into human erythrocytes and therefore represents a vaccine candidate for P. falciparum malaria. Original sequence-specific binding to five HLA DRB1* alleles (0101, 0102, 0401, 0701, and 1101) revealed this peptide's specific HLA DRB1*0102 allele binding. This peptide's allele-specific binding to HLA DRB1*0102 took on broader specificity for the DRB1*0101, -0401, and -1101 alleles when lysine was replaced by glycine in position 17 (peptide 5198: EVLYLKPLAGVYRSLKG(17)QLE). Binding of the identified G(10)VYRSLKGQLE(20) C-terminal register to these alleles suggests that peptide promiscuous binding relied on fitting Y(12), L(15), and G(17) into P-1, P-4, and P-6, respectively. The implications of the findings and the future of this synthetic vaccine candidate are discussed.     

ESI-MS studies on novel liquid homo-peptide libraries and their conjugate libraries directed by phosphorus oxychloride

The reactions of natural non-polar amino acids with phosphorus oxychloride wereinvestigated. Some non-polar amino acids, such as L-Phe, L-Leu and L-Val were treated withphosphorus oxychloride, then quenched with water or some bioactive compounds (L-menthol,cinchonidine and benzylamine), and yielded the corresponding peptide and peptide conjugatelibraries. ESI-MS/MS was used to study the products of the reaction and confirm the structureof the library. This paper reports a simple method to synthesize the homo-oligo-peptidelibraries and peptide conjugated libraries.     

ESI-MS studies on novel liquid homo-peptide libraries and their conjugate libraries directed by phosphorus oxychloride

Summary The reactions of natural non-polar amino acids with phosphorus oxychloride were investigated. Some non-polar amino acids, such as L-Phe, L-Leu and L-Val were treated with phosphorus oxychloride, then quenched with water or some bioactive compounds (L-menthol, cinchonidine and benzylamine), and yielded the corresponding peptide and peptide conjugate libraries. ESI-MS/MS was used to study the products of the reaction and confirm the structure of the library. This paper reports a simple method to synthesize the homo-oligo-peptide libraries and peptide conjugated libraries.     

Influence of peptide conformation on oligosaccharide binding characteristics--a study using apamin-based chimeric peptide

Interactions between proteins and heparin play a crucial role in most of the cellular process. Unraveling the forces that govern the formation of these complexes is vital for understanding the specificities involved in these biomolecular events. In the present study, a detailed analysis has been undertaken to evaluate the effect(s) of peptide conformation on heparin-binding, using a chimeric peptide, apaK6—a chimera of a highly stable neurotoxic peptide from honey-bee venom and a de novo designed lysine-rich peptide. The dissociation constants of these peptide–heparin complexes were found to be in the submicromolar range. Comparison of the results obtained from the titration of the disulfide-reduced and disulfide-intact chimeric peptide with various sulfated oligosaccharides, derived from heparin, suggest that the initial structure of the peptide has pronounced effect on the binding affinity, binding modes and also on binding preferences. The results of this study indicate that the heparin-binding specificity of an isolated peptide and that exhibited by the same peptide when present in a globular protein could be significantly different, especially if the isolated peptide undergoes conformational change(s) upon binding to the sulfated oligosaccharides. In addition, such dependency of the binding specificity on the preformed structures could be utilized for the design of high-affinity and sequence-specific heparin-binding polypeptides.     

In vitro system for high-throughput screening of random peptide libraries for antimicrobial peptides that recognize bacterial membranes.

Antibacterial peptides have been isolated from a wide range of species. Some of these peptides act on microbial membranes, disrupting their barrier function. With the increasing development of antibiotic resistance by bacteria, these antibacterial peptides, which have a new mode of action, have attracted interest as antibacterial agents. To date, however, few effective high-throughput approaches have been developed for designing and screening peptides that act selectively on microbial membranes. In vitro display techniques are powerful tools to select biologically functional peptides from peptide libraries. Here, we used the ribosome display system to form peptide-ribosome-mRNA complexes in vitro from nucleotides encoding a peptide library, as well as immobilized model membranes, to select specific sequences that recognize bacterial membranes. This combination of ribosome display and immobilized model membranes was effective as an in vitro high-throughput screening system and enabled us to identify motif sequences (ALR, KVL) that selectively recognized the bacterial membrane. Owing to host toxicity, it was not possible to enrich any sequence expected to show antimicrobial activity using another in vitro system, e.g. phage display. The synthetic peptides designed from these enriched motifs acted selectively on the bacterial model membrane and showed antibacterial activity. Moreover, the motif sequence conferred selectivity onto native peptides lacking selectivity, and decreased mammalian cell toxicity of native peptides without decreasing their antibacterial activity.     

Identification of tubulins as substrates of serine protease HtrA1 by mixture‐based oriented peptide library screening

Serine protease HtrA1 belongs to a family of chymotrypsin‐like proteases that were first identified in bacteria and later in mammalian systems. These proteases were identified as components of protein quality control in prokaryotic systems and as regulators of diverse signaling pathways in mammalian systems. In particular, HtrA1 is implicated in trophoblast cell migration and invasion, tumor progression, chemotherapy‐induced cytotoxicity, osteoarthritis, age‐related macular degeneration, and pathogenesis of Alzheimer's disease. However, systematic analysis of its potential substrates in biological system is still lacking. Therefore, we performed a mixture‐based oriented peptide library screening to identify putative substrates of HtrA1. We identified [AEGR]‐[LAGR]‐[IAMLR]‐[TVIAL] as consensus residues for P1 to P4 sites. We identified several putative substrates of HtrA1 involved in the pathogenesis of various diseases. In this study, we report on the identification of tubulins as potential substrates of HtrA1, and validated tubulins as in vitro and intracellular substrates of HtrA1. These results provide initial insights into substrate identification and functional characterization of HtrA1 in pathogenesis of various diseases. J. Cell. Biochem. 107: 253–263, 2009. © 2009 Wiley‐Liss, Inc.     

囊素与杂交瘤细胞的结合及结合肽的鉴定

【目的】囊素(BS)是禽类和哺乳动物中具有重要免疫调节功能的多肽,能有效促进杂交瘤细胞抗体的分泌,为探讨杂交瘤细胞是否有BS受体分子的表达。【方法和结果】本研究采用荧光显微镜、激光扫描共聚焦显微镜和流式细胞仪分析的方法,检测BS与杂交瘤细胞的结合特性。实验结果证实BS与杂交瘤细胞的结合具有特异性、趋饱和性和可逆性。为进一步分析BS与杂交瘤细胞的结合位点,实验中以BS分子作为靶标,对噬菌体随机12肽库进行了4轮亲和筛选,ELISA和竞争抑制试验显示2个噬菌体克隆能特异性与BS结合。对阳性噬菌体克隆进行序列测定分析表明,其插入的12肽分别为:ACTKHLCLLQPL、MSCNDTLCLLPN,保守序列为LCLL。体外实验表明,2个人工合成的12均都能在一定程度上抑制BS与杂交瘤细胞的特异性结合。【结论】本研究表明杂交瘤细胞具有BS结合的受体,这为进一步研究BS促杂交瘤细胞抗体分泌的信号传导通路奠定了基础。     

IgY‐binding peptide screened from a random peptide library as a ligand for IgY purification

Chicken egg yolk immunoglobulin (IgY) is a functional substitute for mammalian IgG for antigen detection. Traditional IgY purification methods involve multi‐step procedures resulting in low purity and recovery of IgY. In this study, we developed a simple IgY purification system using IgY‐specific peptides identified by T7 phage display technology. From disulfide‐constrained random peptide libraries constructed on a T7 phage, we identified three specific binding clones (Y4‐4, Y5‐14, and Y5‐55) through repeated biopanning. The synthetic peptides showed high binding specificity to IgY‐Fc and moderate affinity for IgY‐Fc (K_d: Y4‐4 = 7.3 ± 0.2 μM and Y5‐55 = 4.4 ± 0.1 μM) by surface plasmon resonance analysis. To evaluate the ability to purify IgY, we performed immunoprecipitation and affinity high‐performance liquid chromatography using IgY‐binding peptides; the result indicated that these peptides can be used as affinity ligands for IgY purification. We then used a peptide‐conjugated column to purify IgY from egg yolks pre‐treated using an optimized delipidation technique. Here, we report the construction of a cost‐effective, one‐step IgY purification system, with high purity and recovery. © 2017 The Authors. Journal of Peptide Science published by European Peptide Society and John Wiley & Sons Ltd.     

Conformation-specific affinity purification of proteins using engineered binding proteins: application to the estrogen receptor

Affinity chromatography coupled with an "affinity tag" has become a powerful and routine technology for the purification of recombinant proteins. However, such tag-based affinity chromatography usually cannot separate different conformational states (e.g., folded and misfolded) of a protein to be purified. Here, we describe a strategy to separate different conformations of a protein by using "tailor-made" affinity chromatography based on engineered binding proteins. Our method involves: (i) engineering of a binding protein specific to a particular conformation of the protein of interest, and (ii) production and immobilization of the binding protein to prepare conformation-specific affinity chromatography media. Using "monobodies," small antibody mimics based on the fibronectin type III domain, as the target-binding proteins, we demonstrated the effectiveness of our method by separating the active form of the estrogen receptor alpha ligand-binding domain (ERalpha-LBD) from a mixture of active and misfolded species and by discriminating two different conformations of ERalpha-LBD bound to different ligands. Our strategy should be generally applicable to the preparation of conformationally homogeneous protein samples.     

A new hybrid resin for stepwise screening of peptide libraries combined with single bead Edman sequencing

A library system was developed for the discovery of bioactive peptides. Library synthesis and peptide sequencing was performed on a solid support while the screening for bioactivity was done with peptides in solution. The peptides were synthesized by split and mix, one-bead–one-peptide library synthesis, using a Tentagel S-NH₂ solid support with a loading of approximately 100 pmol/bead. The major part of the peptide was connected to the support by a single acid-labile linker and a minor part of the peptide was acid-stabile attached to the polymer. The percentage of acid-stabile attached peptides could easily be controlled during modification of the amino functionalities of the resin at the start of the process. The cleavage rate of the acid-labile attached peptide from the resin depends on the composition of the cleavage mixture. When cleavage conditions were carefully controlled, a three-step partial cleavage protocol allowed for convergent bioactivity screening on peptide libraries using only one type of acid-labile linker. The partial cleavage and convergent screening procedure was repeated three times, after which the bead containing the bioactive peptide was sequenced. As such a bead still contained acid-stabile attached peptide, the Edman sequencing was straightforward and repetitive yields were excellent because the immobilized peptide was not washed out. © 1998 European Peptide Society and John Wiley & Sons, Ltd.