靶向基质金属蛋白酶14类血红素结构域特异活性位点的确定及反义肽虚拟筛选

目的:确定基质金属蛋白酶14(MMP-14)类血红素结构域(HPX14)特异活性位点,虚拟筛选获得能与HPX14特异结合的短肽。方法:用metaPocket预测HPX14的活性口袋,多序列比对分析活性口袋的氨基酸残基特异性;基于M-I和R-B理论设计以特异活性位点为正义肽的反义肽库,并进行虚拟筛研究及结合特异性确定。结果:生物信息学分析确定了KGRGLTD为HPX14的特异活性位点,并构建了其1036条反义肽;通过2轮虚拟筛选,获得10条得分居前的与HPX14结合较好的反义肽,它们与HPX14具有较高的亲和力,并可能影响MMP-14同源二聚体的形成和MMP-14活性的抑制;VSETAPF、IGEPPPF是对接打分最好的2条短肽,与HPX14的结合具有特异性。结论:KGRGLTD是HPX14的特异活性位点,虚拟筛选得到的VSETAPF、IGEPPPF等反义肽与HPX14具有较高的亲和力,这为基于MMP-14的HPX结构域的靶向小分子多肽先导药物的发现提供了重要的前期工作基础与新思路。     

靶向膜型1基质金属蛋白酶反义肽的虚拟筛选与分子模拟

膜型1基质金属蛋白酶(Membrane type-1 matrix metalloproteinase,MT1-MMP,MMP14)在肿瘤的发生发展及转移中起着重要作用,是肿瘤潜在理想的药物靶标。为了获得MT1-MMP结合肽,我们首先采用生物信息学方法分析MMPs序列,获得MT1-MMP差异大且特异的序列。以此为正义肽靶标,设计反义肽库,然后通过分子对接、分子动力学模拟以及体外细胞实验等多种方法,进行靶向MT1-MMP反义肽的筛选与活性研究。多序列比对确定了位于MT1-MMP环区的特异序列AYIREGHE(简称MT1-loop),并构建1 536条反义肽。经两轮虚拟筛选,选取打分位于前五的反义肽用于后续研究。该五条反义肽与MT1-MMP存在较强的相互作用且能很好地对接于正义肽区域。进一步分析其与MMPs其他家族成员(MMP1-3,MMP7-13,MMP14HPX,MMP16)的亲和力,发现反义肽FVTFPYIR对MT1-MMP具有更强的特异性。分子动力学模拟表明,反义肽FVTFPYIR可能是通过影响受体MT1-MMP的构象稳定性,进而影响其功能活性。体外细胞实验初步确定反义肽FVTFPYIR可选择性地抑制表达MT1-MMP的人成骨肉瘤细胞MG63和乳腺癌MDA-MB-231细胞的增殖。本研究为抗肿瘤反义肽先导药物的研发提供了一种新的思路与途径。     

Ni2+高效结合肽的筛选与作用研究

利用噬菌体随机十二肽库和金属亲和层析对重金属Ni2 进行结合肽筛选。经4轮生物淘洗、噬菌体扩增和DNA测序,获得一组多肽序列。GenBank Blast分析未发现同源序列,Clustal W多重序列比对也未找到Ni2 金属结合肽结合基序,但可能含有多聚组氨酸(His)2-5。噬菌体单克隆金属离子螯合树脂的亲和力测定和反筛、抑菌解毒试验表明:展示有金属结合肽的噬菌体不仅对Ni2 具有高亲和力,而且对其它金属离子也有作用,Cu2 、Ni2 、Co2 、Zn2 等金属离子对金属结合肽的亲和力显著高于Cd2 和Cr2 ,展示金属结合肽的噬菌体对重金属Ni2 具有一定的耐受和解毒作用。显微形态学观察也显示金属结合肽与金属螯合树脂的作用。对于了解重金属与多肽的相互作用机理以及环境重金属修复等均具有重要意义和价值。     

具有GCSF活性的噬菌体展示肽

从NFS 6 0细胞中克隆了小鼠粒细胞集落刺激因子 (granulocytecolony stimulatingfactor,G CSF)受体的细胞因子受体同源区 (cytokinereceptorhomologous ,CRH)结构域 ,采用GST融合表达策略 ,实现了CRH结构域的表达 .以纯化的GST CRH融合蛋白为靶 ,从噬菌体随机环七肽库中筛选CRH结构域的结合肽 ,找到两组具有核心序列的噬菌体展示肽 .其中C2和C13噬菌体展示肽能刺激NFS 6 0细胞增殖 ,说明C2和C13噬菌体展示肽具有G CSF活性     

Ni2+高效结合肽的筛选与作用研究

利用噬菌体随机十二肽库和金属亲和层析对重金属Ni2+进行结合肽筛选。经4轮生物淘洗、噬菌体扩增和DNA测序,获得一组多肽序列。GenBank Blast分析未发现同源序列,Clustal W多重序列比对也未找到Ni2+金属结合肽结合基序,但可能含有多聚组氨酸（His）2－5。噬菌体单克隆金属离子螯合树脂的亲和力测定和反筛、抑菌解毒试验表明:展示有金属结合肽的噬菌体不仅对Ni2+具有高亲和力,而且对其它金属离子也有作用,Cu2+、Ni2+、Co2+、Zn2+等金属离子对金属结合肽的亲和力显著高于Cd2＋和Cr2＋,展示金属结合肽的噬菌体对重金属Ni2+具有一定的耐受和解毒作用。显微形态学观察也显示金属结合肽与金属螯合树脂的作用。对于了解重金属与多肽的相互作用机理以及环境重金属修复等均具有重要意义和价值。     

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.     

抗人白细胞介素15中和抗体识别抗原表位的噬菌体肽库筛选与鉴定

目的:用噬菌体呈现随机七肽库筛选能与抗人白细胞介素15(h IL-15)中和抗体特异性结合的模拟抗原表位肽,并初步鉴定其免疫原性。方法:以抗h IL-15中和抗体为靶分子,用生物淘洗法从噬菌体呈现线性七肽库中筛选与之结合的噬菌体克隆,用噬菌体ELISA和竞争抑制ELISA鉴定阳性噬菌体克隆;化学合成筛选得到的多肽,并与匙孔血蓝蛋白(KLH)偶联免疫BALB/c小鼠,检测其免疫原性。结果:经过3轮体外筛选后随机挑取50个阳性噬菌体克隆,ELISA检测结果显示其中15个克隆与抗h IL-15抗体有较强的结合能力,DNA测序结果得到的结构相似群为MTPFWQK、MSPFNQK、MIPYWQK和MIPFHQK;竞争性ELISA结果显示4个序列均能与IL-15竞争性地结合抗IL-15单抗;小鼠免疫实验结果显示4组多肽均能诱导IL-15特异性免疫反应。结论:筛选得到能与抗h IL-15中和抗体特异性结合,且具有免疫原性的模拟抗原7肽序列,为进一步开发h IL-15相关的多肽疫苗提供了依据。     

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 .     

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 .     

利用金属离子(Fe3+)配体层析亲和筛选蛋白激酶识别的底物序列

将cAMP依赖的蛋白激酶(cAPK)识别的特征底物序列与噬菌体外膜蛋白g3p融合,展示于线状噬菌体fd的表面,构建了cAPK底物(PKS)噬菌体.噬菌体体外磷酸化标记结果表明,PKS噬菌体上分子量约为60ku的蛋白可被明显磷酸化标记,与PKS-g3p融合蛋白的分子量一致.利用金属离子(Fe³⁺)配体树脂亲和筛选经cAPK磷酸化标记的Phage display随机15肽库,4轮筛选后挑取单克隆进行DNA序列测定,确定展示于噬菌体表面的多肽序列.结果表明,在所挑选的14个克隆中有5个克隆具有典型的cAPK磷酸化序列特征(R)RXS/T.对这些噬菌体的体外磷酸化标记实验结果显示,其中有(R)RXS/T序列特征的噬菌体可在分子量约60ku处被特征性磷酸化标记,与PKS噬菌体的磷酸化标记特征一致;其他有一些不具备(R)RXS/T序列特征的噬菌体也可被特征性磷酸化.     

Selection and Finding of Lead Peptides Dual-targeting MMP14 and Metal Ions by Subtractive Cell Surface Panning and Molecular Docking

Subtractive cell surface panning from phage random peptide library and molecular docking were used to select and find binding peptides dual-targeting MMP14 and metal ions on MG-63 cells. Phages were abundantly enriched and totally 22 different peptide sequences were obtained. We demonstrated that the affinity phage peptides were not only targeted to MMP14 but also had affinities for zinc and nickel ions. Four possible peptide consensus sequences were identified as: AHQ/_SLH/_P, L/_I/_EPLL/_I, T/Q/_DARH/_FQ, MK/_PSR. The representative peptides were found to dock well to MMP14 at the sites around aa. 120–125 which were also the catalytic region of zinc binding sites on MMP14 by MVD molecular docking. The selected monoclonal phages could efficiently bind to the MMP14 expressed MG-63 cells and this again confirmed the targeting binding of the peptides to MMP14. In vitro study revealed that the selected monoclonal phages could greatly inhibit the viability of MG-63 cells. Also, the four synthetic representative consensus peptides inhibited the viability of MG-63 and HepG2 cells at μg levels. The consensus sequences identified in our study were newly reported and relatively specific to MMP14 and this may be further used for MMP14 based peptide drug development and/or diagnostic analyses.     

Selective targeting of a laccase from Stachybotrys chartarum covalently linked to a carotenoid-binding peptide.

Atwo-step targeting strategy was used to identify improved laccases for bleaching carotenoid-containing stains on fabric. We first applied a modified phage display technique to identify peptide sequences capable of binding specifically to carotenoid stains and not to fabric. Prior deselection on the support on which the carotenoid was localized, increased stringency during the biopanning target selection process, and analysis of the phage peptides' binding to the target after acid elution and polymerase chain reaction (PCR) postacid elution, were used to isolate phage peptide libraries with increased binding selectivity and affinity. Peptide sequences were selected based on identified consensus motifs. We verified the enhanced carotenoid-binding properties of the peptide YGYLPSR and subsequently cloned and expressed C-terminal variants of laccase from Stachybotrys chartarum containing carotenoid-binding peptides YGYLPSR, IERSAPATAPPP, KASAPAL, CKASAPALC, and SLLNATK. These targeted peptide-laccase fusions demonstrate enhanced catalytic properties on stained fabrics.     

Characterization of the mechanisms by which gelatinase A, neutrophil collagenase, and membrane-type metalloproteinase MMP-14 recognize collagen I and enzymatically process the two alpha-chains

The turnover of native collagen has been ascribed to different members of the matrix metalloproteinase (MMP) family. Here, the mechanisms by which neutrophil collagenase (MMP-8), gelatinase A (MMP-2), and the ectodomain of MT1-MMP (ectMMP-14) degrade fibrillar collagen were examined. In particular, the hydrolysis of type I collagen at 37 degrees C was investigated to identify functional differences in the processing of the two alpha-chain types of fibrillar collagen. Thermodynamic and kinetic parameters were used for a quantitative comparison of the binding, unwinding, and hydrolysis of triple helical collagen. We demonstrate that the MMP family has developed at least two distinct mechanisms for collagen unwinding and cleavage. MMP-8 and ectMMP-14 display a similar mechanism (although with different catalytic parameters), which is characterized by binding (likely through the hemopexin-like domain) and cleavage of alpha-1 and/or alpha-2 chains without distinguishing between them and keeping the gross conformation of the triple helix (at least during the first cleavage step). On the other hand, MMP-2 binds preferentially the alpha-1 chains (likely through the fibronectin-like domain, which is not present in MMP-8 and ectMMP-14), grossly altering the whole triple helical arrangement of the collagen molecule and cleaving preferentially the alpha-2 chain. These distinctive mechanisms underly a drastically different mode of interaction with triple helical fibrillar collagen I, according to which the MMP domain is involved in binding. These findings can be related to the different role exerted by these MMPs on collagen homeostasis in the extracellular matrix.     

C-terminal recognition by 14-3-3 proteins for surface expression of membrane receptors

Diverse functions of 14-3-3 proteins are directly coupled to their ability to interact with targeted peptide substrates. RSX(pS/pT)XP and RXPhiX(pS/pT)XP are two canonical consensus binding motifs for 14-3-3 proteins representing the two common binding modes, modes I and II, between 14-3-3 and internal peptides. Using a genetic selection, we have screened a random peptide library and identified a group of C-terminal motifs, termed SWTY, capable of overriding an endoplasmic reticulum localization signal and redirecting membrane proteins to cell surface. Here we report that the C-terminal SWTY motif, although different from mode I and II consensus, binds tightly to 14-3-3 proteins with a dissociation constant (K(D)) of 0.17 microM, comparable with that of internal canonical binding peptides. We show that all residues but proline in -SWTX-COOH are compatible for the interaction and surface expression. Because SWTY-like sequences have been found in native proteins, these results support a broad significance of 14-3-3 interaction with protein C termini. The C-terminal binding consensus, mode III, represents an expansion of the repertoire of 14-3-3-targeted sequences.     

Virtual screening identification and chemical optimization of substituted 2-arylbenzimidazoles as new non-zinc-binding MMP-2 inhibitors

Matrix metalloproteinases (MMPs) are a large family of zinc-dependent endoproteases known to exert multiple regulatory roles in tumor progression and invasiveness. This encouraged over the years the approach of MMP, and particularly MMP-2, targeting for anticancer treatment. Early generations of MMP inhibitors, based on aspecific zinc binding groups (ZBGs) assembled on (pseudo)peptide scaffolds, have been discontinued due to the clinical emergence of toxicity and further drawbacks, giving the way to inhibitors with alternative zinc-chelator moieties or not binding the catalytic zinc ion.In the present paper, we continue the search for new non-zinc binding MMP-2 inhibitors: exploiting previously identified compounds, a virtual screening (VS) campaign was carried out and led to the identification of a new class of ligands. The structure-activity relationship (SAR) of the benzimidazole scaffold was explored by synthesis of several analogues whose inhibition activity was tested with enzyme inhibition assays. By performing the molecular simplification approach, we disclosed different sets of single-digit micromolar inhibitors of MMP-2, with up to a ten-fold increase in inhibitory activity and ameliorated selectivity towards off-target MMP-8, compared to selected lead compound. Molecular dynamics calculations conducted on complexes of MMP-2 with docked privileged structures confirmed that analyzed inhibitors avoid targeting the zinc ion and dip inside the S1′ pocket. Present results provide a further enrichment of our insights for the design of novel MMP-2 selective inhibitors.     

Selection of allosteric beta-lactamase mutants featuring an activity regulation by transition metal ions

Libraries of phage-displayed beta-lactamase mutants in which up to three loops have been engineered by genetic introduction of random peptide sequences or by randomization of the wild-type sequence have been submitted to selection protocols designed to find mutants in which binding of transition metal ions to the engineered secondary binding site leads to significant effects on the enzymatic activity. A double-selection protocol was applied: The phage-displayed libraries were first selected for transition metal ions affinity by panning on IMAC support, then a second selection step was applied to isolate mutants that have retained significant catalytic activity. The analysis of the kinetic properties of mutants in the presence of nickel, copper, or zinc ions allowed isolation of a few mutants whose activity was either enhanced or inhibited by factors up to three and >10, respectively, in a metal-specific manner. A remarkable mutant exhibiting differential allosteric regulation depending on the metal was found. Its activity was activated by nickel ion binding, inhibited by cupric ion binding, and nearly unaffected by zinc ions. These observations point to an interesting potential for up- or down-regulation of activity within a monomeric enzyme by binding to an "allosteric site" relatively remote from the active site.     

基于JAK2/STAT3信号通路探讨白藜芦醇对骨肉瘤MG-63细胞凋亡及迁移的影响

摘要 目的：研究白藜芦醇(RES)通过蛋白酪氨酸激酶2/信号转导子与激活子3（JAK2/STAT3）信号通路对人骨肉瘤体外细胞株MG-63细胞凋亡、侵袭和迁移的影响。方法：体外培养MG-63细胞,以不同浓度的RES作用于MG-63细胞。Annexin V-FITC/PI双染流式细胞术检测不同时间和不同浓度的RES对MG-63细胞凋亡的影响。划痕实验和Transwell实验检测不同时间和不同浓度的RES对MG-63细胞侵袭和迁移能力的影响。免疫印迹实验检测不同时间和不同浓度的RES对MG-63细胞磷酸化蛋白酪氨酸激酶2（p-JAK2）、磷酸化信号转导子与激活子3（p-STAT3）、凋亡相关蛋白B淋巴细胞瘤-2（Bcl-2）、Bcl-2家族促凋亡蛋白（Bax）及基质金属蛋白酶（MMP）-2、MMP-9表达的影响。结果：RES浓度越高,时间越久,MG-63细胞凋亡率越高（P<0.05）。RES浓度越高,MG-63细胞迁移和侵袭能力越弱(P<0.05)。RES处理MG-63细胞后其p-JAK2、p-STAT3、Bcl-2以及MMP-2、MMP-9的表达明显降低,而Bax蛋白表达明显升高,且p-JAK2、p-STAT3、Bax、Bcl-2以及MMP-2、MMP-9的表达水平变化具有RES浓度依赖性（P<0.05）。结论：RES可能通过调控JAK2/STAT3信号通路促使人骨肉瘤MG-63细胞凋亡,并抑制MG-63细胞侵袭和迁移。     

Inhibition of matrix metalloproteinase 14 (MMP-14)-mediated cancer cell migration

Matrix metalloproteinases (MMPs) have been shown to be key players in both extracellular matrix remodeling and cell migration during cancer metastasis. MMP-14, a membrane-anchored MMP, in particular, is closely associated with these processes. The hemopexin (PEX) domain of MMP-14 has been proposed as the modulating region involved in the molecular cross-talk that initiates cell migration through homodimerization of MMP-14 as well as heterodimerization with the cell surface adhesion molecule CD44. In this study, minimal regions required for function within the PEX domain were investigated through a series of substitution mutations. Blades I and IV were found to be involved in cell migration. We found that blade IV is necessary for MMP-14 homodimerization and that blade I is required for CD44 MMP-14 heterodimerization. Cross-talk between MMP-14 and CD44 results in phosphorylation of EGF receptor and downstream activation of the MAPK and PI3K signaling pathways involved in cell migration. Based on these mutagenesis analyses, peptides mimicking the essential outermost strand motifs within the PEX domain of MMP-14 were designed. These synthetic peptides inhibit MMP-14-enhanced cell migration in a dose-dependent manner but have no effect on the function of other MMPs. Furthermore, these peptides interfere with cancer metastasis without affecting primary tumor growth. Thus, targeting the MMP-14 hemopexin domain represents a novel approach to inhibit MMP-14-mediated cancer dissemination.