一种特异性识别非小细胞肺癌A549细胞的小分子肽

应用"一个珠子一个化合物"的组合化学肽库,以期筛选得到特异性识别非小细胞肺癌细胞(A549)的小分子肽.初次筛选共得到29个与A549阳性结合的珠子,经氨基酸序列分析后发现含有-NGXG-肽链结构的序列共有10个.选择cNGQGEQc作进一步的细胞特异性研究,发现cNGQGEQc与非小细胞肺癌A549、Calu-1及H178的粘附特异性明显高于其他细胞系,对cNGQGEQc的结构分析显示,-NGXG-及六肽长度对小分子肽与A549细胞的粘附非常重要.标记FITC的小分子肽cNGQGEQc能与A549细胞发生特异性结合.用抗整合素的抗体(!1～6,"v和#1～5)阻断小分子肽与A549细胞表面的相应受体结合,结果显示,α3与$亚单位的任何组合均对cNGQGEQc与A549细胞的粘附有明显的阻断作用.结果表明,小分子肽cNGQGEQc是通过细胞表面整合素α3与非小细胞肺癌A549发生特异性结合.     

趋化因子受体 CCR5 亲合短肽的筛选

趋化因子受体 5 (CCR5) 是 HIV-1 与宿主细胞结合的辅助因子之一,其功能缺失或被 CCR5 拮抗剂封闭则会阻止 HIV-1 感染细胞 . 为得到与 CCR5 特异结合的肽类拮抗剂,采用噬菌体展示技术,以稳定表达 CCR5 的 CHO 细胞 (CHO/CCR5) 作为靶标,通过噬菌体随机 12 肽库筛选与 CCR5 特异结合的多肽;经过四轮筛选后,挑选 20 个阳性噬菌体克隆进行测序,从中得到 11 个含有 AFDWTFVPSLIL 序列的小分子肽 . 含该序列的噬菌体能与抗人 CCR5 单抗 (2D7) 竞争性结合 CCR5 ,且合成肽 AFDWTFVPSLIL 对趋化因子 RANTES 与 CHO/CCR5 的结合具有明显的抑制作用,初步证明该小肽与 CCR5 具有特异性结合作用 .     

脓毒症单核巨噬细胞特异性结合肽的筛选

利用噬菌体随机肽库展示技术,筛选出与脓毒症单核/巨噬细胞特异性结合的短肽,探索脓毒症治疗的新方法.分别以经过脂多糖(lipopolysaccharide, LPS)处理的人外周血单核细胞株(THP-1)细胞作为筛选的靶细胞,以未经LPS处理的THP-1细胞作为非特异性噬菌体吸附细胞,对噬菌体随机环七肽库进行4轮“差减"筛选,经过细胞ELISA验证阳性噬菌体克隆,对获得的阳性克隆进行DNA测序及生物信息学分析,并进一步利用免疫荧光实验,鉴定噬菌体克隆与LPS处理THP-1细胞的结合特异性.4轮筛选后,随机挑取的噬菌体克隆,测序后得到可与LPS处理的THP-1细胞特异性结合肽.对去冗余后的七肽进行Clustal W多序列比对分析和BlastP蛋白同源相似性分析,细胞免疫荧光检测确定获得的噬菌体展示七肽可与LPS处理的THP-1细胞特异性结合.噬菌体随机肽库技术为脓毒症单核/巨噬细胞表面靶位的筛选提供了高效、快捷的筛选体系,实验获得的多肽基序具有高度保守性和细胞特异性,这些多肽的生物活性将是下一步的研究内容.     

人类天然抗α-Gal抗体抑制肽的筛选

人类天然抗体可以与猪细胞抗原表位Gal-α1,3-Gal结合,触发超急性排斥反应（HAR）,HAR是猪器官移植至人体时的首要障碍.阻断人的天然抗体,阻止其与猪细胞表面特异性抗原的结合,是防止超急性排斥的有效措施.利用噬菌体展示技术,从XCX₁₅随机肽库中筛选与西非单叶豆凝集素(GS-I-B₄）特异性结合的噬菌体展示肽.得到一个小肽序列为SCTALSFPSFAFLARGT,其与人血清中天然抗体的结合可以被蜜二糖（melibiose）竞争性地抑制,同时该小肽还能抑制人类天然抗体介导的猪红细胞的凝集反应.因此,筛选到的小肽能作为人天然抗α-Gal抗体的抑制肽.     

噬菌体肽库筛选抗人B7-H4中和抗体的模拟抗原表位及其免疫原性鉴定

目的:用噬菌体呈现随机12肽库筛选能与抗人B7-H4(h B7-H4)中和抗体特异性结合的模拟抗原表位肽,并用其免疫小鼠检测其免疫原性。方法:以抗h B7-H4中和抗体为靶分子,用体外生物淘洗法从噬菌体呈现随机12肽库中筛选与之结合的噬菌体克隆,用竞争性细胞ELISA鉴定阳性噬菌体克隆;化学合成候选多肽,并与钥孔血蓝蛋白或破伤风毒素偶联鉴定多肽的特异性;进一步用融合蛋白免疫小鼠检测其免疫原性和抗血清的补体依赖的细胞杀伤活性(CDC)。结果:经过3轮体外筛选后随机挑取50个阳性噬菌体克隆,其中20个克隆与抗h B7-H4抗体有较强的结合能力,DNA测序得到6组结构相似的肽序列;竞争性ELISA结果显示1号肽噬菌体能与细胞表面的h B7-H4竞争性地结合抗h B7-H4单抗;点杂交结果显示1号肽能特异性结合抗h B7-H4单抗;小鼠免疫实验结果显示1号肽融合蛋白能诱导高滴度的抗h B7-H4抗血清,并且抗血清具有补体依赖的细胞杀伤活性。结论:筛选得到能与抗h B7-H4中和抗体特异性结合的12肽模拟抗原表位序列并且具有免疫原性,为进一步开发h B7-H4相关的多肽疫苗提供了实验依据。     

双靶向MMP-14和金属离子的结合肽筛选与分子模拟

以基质金属蛋白酶-14(MMP-14)催化结构域为靶标,通过噬菌体随机十二肽库 筛选和分子模拟、细胞免疫荧光、金属离子亲和层析以及体外细胞作用测定等技 术,进行了双靶向MMP-14和金属离子小分子结合多肽的筛选与研究.经4轮筛选, 噬菌体得到有效富集并获得13条不同的多肽序列.序列分析显示,可能的一致序列 有：AHQLH、HHXH、EI/LPLL/I.分子模拟与对接进一步确认一致序列AHQLH、HHTH 、LPLL与MMP-14催化结构域的氨基酸120~125区域良好分子对接并具有一定的专 一性,多条MMP-14结合肽不仅靶向MMP-14,同时结合金属离子.细胞生物学研究确 认,所测定的结合肽噬菌体对MMP-14诱导表达的MG63细胞具有良好的结合作用,揭 示结合肽对MMP-14的靶向结合特性,并且合成的AHQLH、LPLL一致序列多肽对MG63 细胞活力具有一定的抑制能力.这些新的和具有一定MMP-14专一性的一致序列可望 用于靶向MMP-14抗肿瘤药物的研发和利用.     

P-糖蛋白的表达及其结合肽的筛选

为获得P 糖蛋白胞外段 ,构建了高效表达载体pGEX Pgp ,转化大肠杆菌DH5α ,进行表达、鉴定及纯化 ,以获得的融合蛋白为靶蛋白 ,筛选噬菌体随机 12肽库 ,免疫细胞化学方法进行鉴定 .SDS PAGE分析 ,表达出约 30kD大小的蛋白 ;从噬菌体随机肽库中筛选获得了与P 糖蛋白特异性结合的噬菌体阳性克隆 ,测序获得了其特异性结合肽序列 :NDGLLFTWQPSP .免疫细胞化学结果显示 :筛选得到的噬菌体阳性克隆可与耐药细胞BIU 87 ADM结合 ,而与敏感细胞BIU 87不结合 .结果表明 ,筛选获得的结合肽可与耐药的肿瘤细胞结合 ,表现出一定的肿瘤特异性 .P 糖蛋白结合肽的筛选 ,为进行人膀胱癌多药耐药的靶向治疗等工作奠定了基础 .     

7肽和12肽两种M13噬菌体展示库筛选肿瘤坏死因子alpha拮抗肽的比较

肿瘤坏死因子alpha的拮抗剂是治疗多种炎症性自身免疫疾病的首选,但抗体类拮抗物因副作用明显而使用受限,尤其是机体内抗抗体的产生,严重影响治疗效果和药物代谢。而肽类物除免疫原性低之外,和小分子相比也有更低的毒性和更强的靶标特异性。使用7肽和12肽两种M13噬菌体展示库筛选TNFα拮抗肽,以分析7肽和12肽分别作为TNFα拮抗肽的亲和性与功能性。经过3~4轮的筛选和验证,得到2条7肽序列和2条12肽序列。利用ELISA方法检测合成肽与TNFα结合的亲和性,编号632的7肽亲和性最强,Kd=138nmol/L;编号636的12肽亲和性稍差,Kd=8.59μmol/L。InsightⅡ软件分别分析632肽和636肽与TNFα二聚体结合,发现632肽与TNFα二聚体结合更加稳定,并且在细胞水平上632肽拮抗TNFα活性功能比636肽更强,有632肽存在的条件下TNFα诱导的L929细胞生存率上升了3倍,而636肽的作用只有2倍。7肽比12肽更适合作为TNFα拮抗肽。     

从噬菌体表面展示肽库中筛选葡萄球菌B型肠毒素抑制剂

通过生物淘选,从噬菌体表面展示12肽肽库中筛选能与葡萄球菌B型肠毒素(staphylococcalenterotoxinB ,SEB)结合且能抑制其肠毒活性的特异性短肽.采用Phage ELISA和MTT鉴定所得目的肽的亲和性;根据优势噬菌体阳性克隆序列合成相应多肽.利用竞争ELISA研究合成肽与SEB单克隆抗体竞争结合SEB的情况;通过动物实验考察其抑制SEB的超抗原特性和肠毒活性情况.筛选所得短肽在一定浓度范围内可以抑制SEB对鼠脾淋巴细胞的激活;合成肽与SEB质量比为16 0∶1时,合成肽可较好地抑制SEB对乳猫的肠毒活性,并对SEB引起的小鼠致死具有明显保护作用.结果表明,初步得到了能与SEB特异结合并能抑制SEB超抗原特性和肠毒活性的短肽,为进一步研制SEB高效抑制剂奠定了基础.     

体外抑制鸡传染性支气管炎病毒的多肽鉴定

使用纯化的鸡传染性支气管炎病毒(IBV), 从12肽噬菌体随机展示肽库中筛选特异性结合多肽. 经过四轮淘筛, 得到10个阳性噬菌体, 进一步进行测序、血凝抑制活性及病毒抑制特性鉴定. 所有阳性噬菌体均能特异性阻断IBV对HeLa细胞的感染, 并能抑制IBV对鸡红细胞的血凝活性. 人工合成其中一条病毒抑制效价最高的线性多肽“GSH HRH VHS PFV”, 其细胞抑制试验证实该多肽同样具有病毒抑制特性. 以上结果为研制抗病毒分子及鉴定病毒与细胞相互作用功能域等奠定了基础.     

Identification of protein-binding peptides by direct matrix-assisted laser desorption ionization time-of-flight mass spectrometry analysis of peptide beads selected from the screening of one bead-one peptide combinatorial libraries

A fast and inexpensive strategy for the identification of peptide ligands by direct matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF-MS) analysis of peptide beads screened from one bead-one peptide combinatorial libraries is herein described. Streptavidin was used as the model protein. A combinatorial library of 6561 peptides was synthesized on ChemMatrix resin by the divide-couple-recombine method. 4-Hydroxymethylbenzoic acid was used as the linker and five residues of Gly were incorporated at the C termini to increase the final peptide molecular weight. Positive control peptides with the HPQ motif and negative control peptides without the HPQ motif evidenced that the linker and the five residues of Gly have neither impaired the specific binding nor facilitated unspecific binding. After screening the library, positive beads were isolated and washed with 8M guanidine hydrochloride. The beads were sliced into two or four pieces, deposited onto the stainless steel MALDI sample plate, and treated with ammonia vapor to release the peptides. In addition, 26 beads picked at random from the library were subjected to the same treatment. All samples were analyzed by MALDI-TOF-MS and the peptides were unambiguously identified with very good reproducibility between the bead pieces, thus evidencing the good homogeneity of the bead. All sequences obtained from the screening contained HPQ.     

Ultrahigh-throughput screening system for directed polymer binding peptide evolution

Accumulation of plastics in the environment became a geological indicator of the Anthropocene era. An effective reduction of long-lasting plastics requires a treatment with micro-organisms that release polymer-degrading enzymes. Polymer binding peptides function as adhesion promoters and enable a targeted binding of whole cells to polymer surfaces. An esterase A-based Escherichia coli cell surface display screening system was developed, that enabled directed evolution of polymer binding peptides for improved binding strength to polymers. The E. coli cell surface screening system facilitates an enrichment of improved binding peptides from a culture broth through immobilization of whole cells on polymer beads. The polypropylene (PP)-binding peptide liquid chromatography peak I (LCI) was simultaneously saturated at five positions (Y29, D31, G35, E42, and D45; 3.2 million variants) and screened for improved PP-binding in the presence of the anionic surfactant sodium dodecylbenzenesulfonate (LAS; 0.25 mM). The cell surface system enabled efficient screening of the generated LCI diversity (in total ~10 million clones were screened). Characterization of identified LCI binders revealed an up to 12-fold improvement (eGFP-LCI-CSD-3: E42V/D45H) in PP-binding strength in the presence of the surfactant LAS (0.125 mM). The latter represents a first whole cell display screening system to improve adhesion peptides which can be used to direct and to immobilize organisms specifically to polymer surfaces (e.g., PP) and novel applications (e.g., in targeted plastic degradation).     

Cell adhesive sequences in mouse laminin beta1 chain

Laminin-1, a major component of the basement membrane, consists of three different chains, alpha1, beta1, and gamma1. We sought to identify cell adhesive sequences from the mouse laminin beta1 chain by testing HT-1080 fibrosarcoma and B16-F10 melanoma cells for binding to 187 overlapping synthetic peptides which covered the entire chain. Fourteen peptides showed cell adhesive activities with either peptide-conjugated Sepharose beads or peptide-coated plates or both. Additional cells, including neuronal, endothelial, and salivary gland cells, showed biological responses in a cell type-specific manner. B-7, B-133, and B-160 showed the most potent cell attachment. Cell binding on three peptides (B-34, B-133, and B-160) was inhibited by EDTA. Cell adhesion to 11 of the 12 active peptides was inhibited to varying degrees by heparin. Of the 17 active peptides identified in the laminin beta1 chain in this and other studies, 8 are clustered on the amino terminal globular domain, suggesting a possible important role in cell binding for this domain that may be multifunctional. These data demonstrate that the laminin beta1 chain has multiple active sites for cell adhesion, some of which are cell-type specific.     

Targeting of Embryonic Stem Cells by Peptide-Conjugated Quantum Dots

Background

Targeting stem cells holds great potential for studying the embryonic stem cell and development of stem cell-based regenerative medicine. Previous studies demonstrated that nanoparticles can serve as a robust platform for gene delivery, non-invasive cell imaging, and manipulation of stem cell differentiation. However specific targeting of embryonic stem cells by peptide-linked nanoparticles has not been reported.

Methodology/Principal Findings

Here, we developed a method for screening peptides that specifically recognize rhesus macaque embryonic stem cells by phage display and used the peptides to facilitate quantum dot targeting of embryonic stem cells. Through a phage display screen, we found phages that displayed an APWHLSSQYSRT peptide showed high affinity and specificity to undifferentiated primate embryonic stem cells in an enzyme-linked immunoabsorbent assay. These results were subsequently confirmed by immunofluoresence microscopy. Additionally, this binding could be completed by the chemically synthesized APWHLSSQYSRT peptide, indicating that the binding capability was specific and conferred by the peptide sequence. Through the ligation of the peptide to CdSe-ZnS core-shell nanocrystals, we were able to, for the first time, target embryonic stem cells through peptide-conjugated quantum dots.

Conclusions/Significance

These data demonstrate that our established method of screening for embryonic stem cell specific binding peptides by phage display is feasible. Moreover, the peptide-conjugated quantum dots may be applicable for embryonic stem cell study and utilization.     

Peptide tags for enhanced cellular and protein adhesion to single-crystalline sapphire

In order to facilitate a novel means for coupling proteins to metal oxides, peptides were identified from a dodecamer peptide yeast surface display library that bound a model metal oxide material, the C, A, and R crystalline faces of synthetic sapphire (alpha-Al(2)O(3)). Seven rounds of screening yielded peptides enriched in basic amino acids compared to the naive library. While the C-face had a high background of endogenous yeast cell binding, the A- and R faces displayed clear peptide-mediated cell adhesion. Cell detachment assays showed that cell adhesion strength correlated positively with increasing basicity of expressed peptides. Cell adhesion was also shown to be sensitive to buffer ionic strength as well as incubation with soluble peptide (with half maximal inhibition of cell binding at approximately 5 microM peptide). Next, dodecamer peptides cloned into yeast showed that lysine led to stronger interactions than arginine, and that charge distribution affected adhesion strength. We postulate binding to arise from peptide geometries that permit conformation alignment of the basic amino acids towards the surface so that the charged groups can undergo local electrostatic interactions with the surface oxide. Lastly, peptide K1 (-(GK)(6)) was cloned onto the c-terminus of maltose binding protein (MBP) and the resultant mutant protein showed a half-maximal binding at approximately 10(-7)-10(-6) M, which marked a approximately 500- to 1,000-fold binding improvement to sapphire's A-face as compared with wild-type MBP. Targeting proteins to metal oxide surfaces with peptide tags may provide a facile one-step alternative coupling chemistry for the formation of protein bioassays and biosensors.     

The cell adhesion and proliferation activities of a peptide derived from human tenascin-C are dependent on two Ile residues

A tenascin-C derived peptide (TNIIIA2 peptide, 1) stimulated β1 integrin-mediated cell adhesion via binding to syndecan-4. Ala-substituted peptides were synthesized to understand the structure-activity relationship. Peptides in which basic amino acids were substituted showed reduced cell adhesion activity, but their proliferation activities were similar to or higher than those mediated by peptide 1. In contrast, peptides in which the Ile residues of peptide 1 were replaced were inactive, indicating that the Ile residues are critical for the peptide's activity. CD analysis suggested that the Ile residues are necessary for the formation of a specific conformation required for binding to syndecan-4.     

An effective and rapid method for functional characterization of immunoadsorbents using POROS beads and flow cytometry

To facilitate the construction, functional characterization, and use of immunoadsorbents, we have developed a flow cytometry method that allows rapid assessment of large numbers of particle-bound antibodies. Protein G derivitized POROS beads were used to bind affinity-purified antibodies specific for synthetic peptides designed from human plasma proteins. The antibodies were covalently coupled to the beads and used to capture and release synthetic peptides that had been labeled at the C-terminus with the fluorochrome Alexa Fluor 488. Antibody coupling and specificity of antigen binding and release were measured by analysis of the POROS affinity beads by flow cytometry. The affinity-capture matrixes were also used through several antigen-binding and release cycles without loss of peptide binding efficiency. The ability to produce and characterize extremely small amounts of POROS affinity matrices will facilitate their use in protein microchemical procedures such as protein chip technology, monoclonal antibody screening and mass spectrometry, applications where analytes are limiting or present in low abundance in complex mixtures.     

An on-bead assay for the identification of non-natural peptides targeting the androgen receptor-cofactor interaction

An efficient and rapid on-bead screening method was established to identify non-natural peptides that target the Androgen Receptor-cofactor interaction. Binding of the Androgen Receptor ligand binding domain to peptide sequences displayed on beads in a One-Bead-One-Compound format could be screened using fluorescence microscopy. The method was applied to generate and screen both a focussed and a random peptide library. Resynthesis of the peptide hits allowed for the verification of the affinity of the selected peptides for the Androgen Receptor in a competitive fluorescence polarization assay. For both libraries strong Androgen Receptor binding peptides were found, both with non-natural and natural amino acids. The peptides identified with natural amino acids showed great similarity in terms of preferred amino acid sequence with peptides previously isolated from biological screens, thus validating the screening approach. The non-natural peptides featured important novel chemical transformations on the relevant hydrophobic amino acid positions interacting with the Androgen Receptor. This screening approach expands the molecular diversity of peptide inhibitors for nuclear receptors.     

Identification of metastasis-promoting sequences in the mouse laminin alpha 1 chain.

Laminin-1, a major basement membrane matrix glycoprotein, enhances adhesion, migration, and metastasis of tumor cells. We have screened 208 overlapping synthetic peptides covering the short and long arms of mouse laminin alpha1 chain for their adhesion activity with B16-F10 mouse melanoma cells. Cell adhesion activity was determined using various amounts of peptides coated on plastic dishes and by measuring cell adhesion on peptide-conjugated Sepharose beads. Nineteen peptides showed B16-F10 cell adhesion activity. Three peptides, designated A-13, -24, and -208, showed the strongest attachment activity in the plate assay, whereas 4 peptides, A-13, -51, -99, and -112, demonstrated the strongest cell adhesion when conjugated to beads. The 19 peptides were tested in vivo for their effect on experimental pulmonary metastasis by B16-F10 cells. Four peptides, A-13, -51, -64, and -119, significantly enhanced metastasis, with A-13 showing the strongest dramatic enhancement. The four metastasis-promoting peptides also stimulated migration of B16-F10 cells in the Boyden chamber assay in vitro with A-13 being the most potent stimulator. In addition, the 4 peptides inhibited laminin-induced cell attachment and migration, which indicates that these four sequences are possible functional B16-F10 cell binding sites in laminin-1. All the four sequences are located on the globular domains of the short arm. Other peptides, including strong adhesion-active peptides, A-24, -99, -112, and a scrambled A-13 peptide, did not stimulate either migration or metastasis. Thus, laminin-1 has multiple active sites in the globular domains of the short arm which promote migration and metastasis of B16-F10 cells.