产肠毒素大肠杆菌的热敏肠毒素B亚基(LT-B)和耐热肠毒素(ST)基因融合及其表达

采用基因重组技术构建了表达产肠毒素大肠杆菌(ETEC)的耐热肠毒素(ST)基因和热敏肠毒素B亚基(LT-B)基因融合抗原的疫苗候选株。将ST基因的5’端与LT-B基因的3’端连接,并置于同一阅读框。编码ST的基因是通过PCR从pSLM004质粒中扩增得到的,含有ST的pro序列(其编码ST前体的pro区域),并应用寡核苷酸定点突变技术将编码ST的第14位氨基酸残基发生突变,使ST的第14位氨基酸残基Ala突变为Leu。在所构建的结构中,于LT-B和proST之间分别插入了不同长度的氨基酸Linkers。表达的融合多肽同时具有ST和LT-B的抗原性,并保留结合GM-1神经节苷脂的能力,且无LT和ST的生物毒性。表达的融合蛋白免疫动物,能诱导产生相应的特异性抗体。     

A new general method for the biosynthesis of stable isotope-enriched peptides using a decahistidine-tagged ubiquitin fusion system: An application to the production of mastoparan-X uniformly enriched with 15N and 15N/13C

A new strategy is described for the production of peptides enriched with stable isotopes. Peptides of interest are expressed in Escherichia coli (E. coli) cells as recombinant fusion proteins with Saccharomyces cerevisiae ubiquitin. This method yields as much as 30–100 mg/l of isotope-enriched fusion proteins in minimal media. A decahistidine tag attached to the N-terminus of ubiquitin enables a one-step purification of the fusion protein via Ni²⁺-chelating affinity chromatography. The ubiquitin moiety is then easily and specifically cleaved off by a protease, yeast ubiquitin hydrolase. Since this enzyme is also expressed at a high level in E. coli cells and can be purified in one step, the presented strategy has an advantage in view of costs over others that use commercially available proteases. In addition, since ubiquitin fusion proteins easily refold, the fusion protein can be expressed either in a soluble form or as inclusion bodies. This flexibility enables us to prepare peptides that are unstable in a soluble state in E. coli cells. As an example, the expression and the uniform stable isotope enrichment with ¹⁵N and/or¹³ C are described for mastoparan-X, a tetradecapeptide known to activate GTP-binding regulatory proteins. An amide group at the C-terminus of this peptide can also be formed by our method. The presented system is considered powerful for the stable isotope enrichment of short peptides with proton resonances that are too severely overlapped to be analyzed solely by proton NMR.     

Production of authentic SARS-CoV M(pro) with enhanced activity: application as a novel tag-cleavage endopeptidase for protein overproduction

The viral proteases have proven to be the most selective and useful for removing the fusion tags in fusion protein expression systems. As a key enzyme in the viral life-cycle, the main protease (M(pro)) is most attractive for drug design targeting the SARS coronavirus (SARS-CoV), the etiological agent responsible for the outbreak of severe acute respiratory syndrome (SARS) in 2003. In this study, SARS-CoV M(pro) was used to specifically remove the GST tag in a new fusion protein expression system. We report a new method to produce wild-type (WT) SARS-CoV M(pro) with authentic N and C termini, and compare the activity of WT protease with those of three different types of SARS-CoV M(pro) with additional residues at the N or C terminus. Our results show that additional residues at the N terminus, but not at the C terminus, of M(pro) are detrimental to enzyme activity. To explain this, the crystal structures of WT SARS-CoV M(pro) and its complex with a Michael acceptor inhibitor were determined to 1.6 Angstroms and 1.95 Angstroms resolution respectively. These crystal structures reveal that the first residue of this protease is important for sustaining the substrate-binding pocket and inhibitor binding. This study suggests that SARS-CoV M(pro) could serve as a new tag-cleavage endopeptidase for protein overproduction, and the WT SARS-CoV M(pro) is more appropriate for mechanistic characterization and inhibitor design.     

N端融合不同长度转位肽的重组粒酶B抑制细胞生长作用的比较

采用重组PCR法将粒酶B基因的N端信号肽和酸性二肽编码序列去除,与两种不同长度的绿脓杆菌外毒素（PE）转位肽序列分别连接,将它们插入pIND诱导表达载体,通过脂质体法与pVgRXR辅助质粒共转染HeLa细胞,建立了重组PE II-GrBa基因的诱导表达细胞系。松甾酮A诱导后Western印迹检测到目的基因的表达,间接免疫荧光观察到表达细胞出现多核巨细胞的异常形态。两种表达的PE II-GrBa融合蛋白均能够切割粒酶B的细胞内源性和外源性底物,并且使细胞生长速度减慢。其中,PE II-(aa 280358)-GrBa的底物切割能力和生长抑制作用较强。流式细胞仪分析这种抑制作用可能与细胞周期的G2期受到阻遏有关。上述结果证实了PE II-GrBa融合蛋白仍然具有抑制细胞生长的作用,并且较短的转位肽对GrBa活性的影响较小,有助于进一步优化转位肽/细胞毒性效应蛋白重组分子的结构用于肿瘤细胞杀伤。     

Efficient expression of isotopically labeled peptides for high resolution NMR studies: application to the Cdc42/Rac binding domains of virulent kinases in Candida albicans

The production of bioactive peptides and small protein fragments is commonly achieved via solid-phase chemical synthesis. However, such techniques become unviable and prohibitively expensive when the peptides are large (e.g., >30 amino acids) or when isotope labeling is required for NMR studies. Expression and purification of large quantities of unfolded peptides in E. coli have also proved to be difficult even when the desired peptides are carried by fusion proteins such as GST. We have developed a peptide expression system that utilizes a novel fusion protein (SFC120) which is highly expressed and directs the peptides to inclusion bodies, thereby minimizing in-cell proteolysis whilst maintaining high yields of peptide expression. The expressed peptides can be liberated from the carrier protein by CNBr cleavage at engineered methionine sites or through proteolysis by specific proteases for peptides containing methionine residues. In the present systems, we use CNBr, due to the absence of methionine residues in the target peptides, although other cleavage sites can be easily inserted. We report the production of six unfolded protein fragments of different composition and lengths (19 to 48 residues) derived from the virulent effector kinases, Cla4 and Ste20 of Candida albicans. All six peptides were produced with high yields of purified material (30–40 mg/l in LB, 15–20 mg/l in M9 medium), pointing to the general applicability of this expression system for peptide production. The enrichment of these peptides with ¹⁵N, ¹⁵N/¹³C and even ¹⁵N/¹³C/²H isotopes is presented allowing speedy assignment of poorly-resolved resonances of flexible peptides.     

Expression of proteins using the third domain of the Escherichia coli periplasmic-protein TolA as a fusion partner

The third domain of the periplasmic protein TolA from Escherichia coli (TolAIII) was used as a fusion partner in the expression of various proteins from bacteria and eukaryotes. TolAIII is small domain, expressed in high yields as a soluble protein in the cytoplasm of E. coli. Proteins were linked to the C-terminus of TolAIII by a short flexible linker containing sites for endopeptidases. Three different vectors were prepared, containing sites for enterokinase, thrombin or factor Xa. Fusion proteins also contain a His(6)-Ser(2) tag at their N-terminus for easier purification. Up to 90 mg fusion protein per liter bacterial culture was obtained using these vectors. Colicin N R-domain was expressed with this system as a fusion and processed further for functional studies. The yield of final pure R-domain was doubled as compared to the direct expression. The system may prove to be useful in the preparation of other peptides and proteins.     

Conditional expression of a truncated fragment of nonmuscle myosin II-A alters cell shape but not cytokinesis in HeLa cells

A truncated fragment of the nonmuscle myosin II-A heavy chain (NMHC II-A) lacking amino acids 1-591, delta N592, was used to examine the cellular functions of this protein. Green fluorescent protein (GFP) was fused to the amino terminus of full-length human NMHC II-A, NMHC II-B, and delta N592 and the fusion proteins were stably expressed in HeLa cells by using a conditional expression system requiring absence of doxycycline. The HeLa cell line studied normally expressed only NMHC II-A and not NMHC II-B protein. Confocal microscopy indicated that the GFP fusion proteins of full-length NMHC II-A, II-B, and delta N592 were localized to stress fibers. However, in vitro assays showed that baculovirus-expressed delta N592 did not bind to actin, suggesting that delta N592 was localized to actin stress fibers through incorporation into endogenous myosin filaments. There was no evidence for the formation of heterodimers between the full-length endogenous nonmuscle myosin and truncated nonmuscle MHCs. Expression of delta N592, but not full-length NMHC II-A or NMHC II-B, induced cell rounding with rearrangement of actin filaments and disappearance of focal adhesions. These cells returned to their normal morphology when expression of delta N592 was repressed by addition of doxycycline. We also show that GFP-tagged full-length NMHC II-A or II-B, but not delta N592, were localized to the cytokinetic ring during mitosis, indicating that, in vertebrates, the amino-terminus part of mammalian nonmuscle myosin II may be necessary for localization to the cytokinetic ring.     

Design and characterization of viral polypeptide inhibitors targeting Newcastle disease virus fusion

Paramyxovirus infections can be detected worldwide with some emerging zoonotic viruses and currently there are no specific therapeutic treatments or vaccines available for many of these diseases. Recent studies have demonstrated that peptides derived from the two heptad repeat regions (HR1 and HR2) of paramyxovirus fusion proteins could be used as inhibitors of virus fusion. The mechanism underlying this activity is in accordance with that of class I virus fusion proteins, of which human immunodeficiency virus (HIV) and influenza virus fusion proteins are members. For class I virus fusion proteins, the HR1 fragment binds to HR2 to form a six-helix bundle with three HR1 fragments forming the central coiled bundle surrounded by three coiled HR2 fragments in the post fusion conformational state (fusion core). It is hypothesized that the introduced exogenous HR1 or HR2 can compete against their endogenous counterparts, which results in fusion inhibition. Using Newcastle disease virus (NDV) as a model, we designed several protein inhibitors, denoted HR212 as well asHR121 and 5-Helix, which could bind the HR1 or HR2 region of fusion protein, respectively. All the proteins were expressed and purified using a GST-fusion expression system in Escherichia coli. The HR212 or GST-HR212 protein, which binds the HR1 peptide in vitro, displayed inhibitory activity against NDV-mediated cell fusion, while the HR121 and 5-Helix proteins, which bind the HR2 peptide in vitro, inhibited virus fusion from the avirulent NDV strain when added before the cleavage of the fusion protein. These results showed that the designed HR212, HR121 or 5-Helix protein could serve as specific antiviral agents. These data provide additional insight into the difference between the virulent and avirulent strains of NDV.     

Expression of a cytotoxic cationic antibacterial peptide in Escherichia coli using two fusion partners

It has been reported that it is difficult to express cationic antibacterial peptides in engineered bacteria because such peptides are highly toxic to the host bacteria cells and sensitive to intracellular proteases. Antibacterial peptide CM4 (ABP-CM4) is a small cationic peptide with broad-spectrum activities against bacteria, fungi and tumor cells, which may possibly be used as an antimicrobial agent. Here we tried to express ABP-CM4 in Escherichia coli cells using either the GST fusion system or the intein-mediated fusion expression system. In order to investigate the possible use of these two fusion partners in cationic small peptide expression and purification, a mutant ABP-CMt, which is a highly positively charged peptide with +9 charges at neutral pH, was designed. In the present study, we have shown that both ABP-CM4 and ABP-CMt peptides can be expressed and purified by the intein-mediated expression system but not by the GST fusion expression system. Thus the intein-mediated peptide expression and purification system potentially could be employed for the production of recombinant protease-sensitive and cytotoxic peptides.     

The paramyxovirus fusion protein forms an extremely stable core trimer: structural parallels to influenza virus haemagglutinin and HIV-1 gp41.

The paramyxovirus fusion (F) protein mediates membrane fusion. The biologically active F protein consists of a membrane distal subunit F2 and a membrane anchored subunit F1. A highly stable structure has been identified comprised of peptides derived from the simian virus 5 (SV5) F1 heptad repeat A, which abuts the hydrophobic fusion peptide (peptide N-1), and the SV5 F1 heptad repeat B, located 270 residues downstream and adjacent to the transmembrane domain (peptides C-1 and C-2). In isolation, peptide N-1 is 47% alpha-helical and peptide C-1 and C-2 are unfolded. When mixed together, peptides N1 + C1 form a thermostable (Tm > 90 degrees C), 82% alpha-helical, discrete trimer of heterodimers (mass 31,300 M(r)) that is resistant to denaturation by 2% SDS at 40 degrees C. The authors suggest that this alpha-helical trimeric complex represents the core most stable form of the F protein that is either fusion competent or forms after fusion has occurred. Peptide C-1 is a potent inhibitor of both the lipid mixing and aqueous content mixing fusion activity of the SV5 F protein. In contrast, peptide N-1 inhibits cytoplasmic content mixing but not lipid mixing, leading to a stable hemifusion state. Thus, these peptides define functionally different steps in the fusion process. The parallels among both the fusion processes and the protein structures of paramyxovirus F proteins, HIV gp41 and influenza virus haemagglutinin are discussed, as the analogies are indicative of a conserved paradigm for fusion promotion among fusion proteins from widely disparate viruses.     

Stimulation of cellular signaling and G protein subunit dissociation by G protein betagamma subunit-binding peptides

We previously developed peptides that bind to G protein betagamma subunits and selectively block interactions between betagamma subunits and a subset of effectors in vitro (Scott, J. K., Huang, S. F., Gangadhar, B. P., Samoriski, G. M., Clapp, P., Gross, R. A., Taussig, R., and Smrcka, A. V. (2001) EMBO J. 20, 767-776). Here, we created cell-permeating versions of some of these peptides by N-terminal modification with either myristate or the cell permeation sequence from human immunodeficiency virus TAT protein. The myristoylated betagamma-binding peptide (mSIRK) applied to primary rat arterial smooth muscle cells caused rapid activation of extracellular signal-regulated kinase 1/2 in the absence of an agonist. This activation did not occur if the peptide lacked a myristate at the N terminus, if the peptide had a single point mutation to eliminate betagamma subunit binding, or if the cells stably expressed the C terminus of betaARK1. A human immunodeficiency virus TAT-modified peptide (TAT-SIRK) and a myristoylated version of a second peptide (mSCAR) that binds to the same site on betagamma subunits as mSIRK, also caused extracellular signal-regulated kinase activation. mSIRK also stimulated Jun N-terminal kinase phosphorylation, p38 mitogen-activated protein kinase phosphorylation, and phospholipase C activity and caused Ca2+ release from internal stores. When tested with purified G protein subunits in vitro, SIRK promoted alpha subunit dissociation from betagamma subunits without stimulating nucleotide exchange. These data suggest a novel mechanism by which selective betagamma-binding peptides can release G protein betagamma subunits from heterotrimers to stimulate G protein pathways in cells.     

Cloning, expression, isotope labeling, and purification of human antimicrobial peptide LL-37 in Escherichia coli for NMR studies

Antimicrobial peptide LL-37 plays an important role in human body's first line of defense against infection. To better understand the mechanism of action, it is critical to elucidate the three-dimensional structure of LL-37 in complex with bacterial membranes. We present a bacterial expression system that allows the incorporation of (15)N and other isotopes into the polypeptide for nuclear magnetic resonance (NMR) analysis. The DNA sequence encoding full-length LL-37 was chemically synthesized and cloned into the pET-32a(+) vector for protein expression in Escherichia coli strain BL21(DE3). The peptide was expressed directly as a His-tagged fusion protein without the inclusion of its precursor sequence. LL-37 was released from the fusion by formic acid cleavage at the AspPro dipeptide bond and separated from the carrier thioredoxin by affinity chromatography and reverse-phase HPLC. The peptide was identified by polyacrylamide gel electrophoresis and further confirmed by mass spectrometry and NMR spectroscopy. Antibacterial activity assays showed that the recombinant LL-37 purified from the bacterial source is as active as that from chemical synthesis. According to the antimicrobial peptide database (), 111 peptides contain a Met residue, but only 5 contain the AspPro pair, indicating a broader application of formic acid than cyanogen bromide in cleaving fusion proteins. The successful application to the expression of the 66-residue cytoplasmic tail of human MUC1 indicates that the system can be applied to other peptides as well.     

Design of an expression system for detecting folded protein domains and mapping macromolecular interactions by NMR.

Two protein expression vectors have been designed for the preparation of NMR samples. The vectors encode the immunoglobulin-binding domain of streptococcal protein G (GB1 domain) linked to the N-terminus of the desired proteins. This fusion strategy takes advantage of the small size, stable fold, and high bacterial expression capability of the GB1 domain to allow direct NMR spectroscopic analysis of the fusion protein by 1H-15N correlation spectroscopy. Using this system accelerates the initial assessment of protein NMR projects such that, in a matter of days, the solubility and stability of a protein can be determined. In addition, 15N-labeling of peptides and their testing for DNA binding are facilitated. Several examples are presented that demonstrate the usefulness of this technique for screening protein/DNA complexes, as well as for probing ligand-receptor interactions, using 15N-labeled GB1-peptide fusions and unlabeled target.     

Clioquinol targets zinc to lysosomes in human cancer cells

A panel of 52 murine monoclonal antibodies was found to recognize antigenic determinants that had been conserved among all major genetic subgroups of the H5N1 avian influenza virus prevalent since 1997. We screened a phage display library for peptides recognized by one such antibody (8H5). We analysed the specificity of 8H5 for reactive peptides presented as fusion proteins of HBc (hepatitis B core protein) and HEV (hepatitis E virus) structural protein, p239. This was then related to the specificity of the native HA (haemagglutinin) molecule by virtue of the capacity of fusion proteins to compete for 8H5 binding with different strains of H5N1 virus and the reactivity of antisera generated against fusion proteins to bind native HA molecules, and to inhibit haemagglutination and arrest infection by the virus. Nine reactive peptides of different amino acid sequences were identified, six of which were also reactive with the antibody in association with HBc and four were in association with p239. Binding occurred with the dimeric form of the four p239-fusion proteins and one of the HBc-fusion proteins, but not with the monomeric form. The HBc-fusion proteins blocked 8H5 binding with four strains of H5N1 influenza virus. Mouse antisera generated against fusion proteins bound to HA molecules, but did not inhibit haemagglutination or arrest H5N1 infection. Our findings indicate that 8H5 recognizes discontinuous sites presented by secondary and possibly higher structural orders of the peptides in spatially favourable positions for binding with the antibody, and that the peptides partially mimic the native 8H5 epitopes on the H5N1 virus.     

Analysis of epitope structure of PSP94 (prostate secretory protein of 94 amino acids): (I) immuno-dominant and immuno-recessive area

PSP94 is a potential biomarker for evaluating patients with prostate carcinoma. We have systematically studied the epitope structure of PSP94 by using a polyclonal antibody against human PSP94. Results of peptide mapping and ELISA tests of dose response to rabbit antiserum against human PSP94 protein showed that only the N-terminal peptides (N30 and M23) are immunoreactive while all the synthetic peptides (C28, C10) located closer to the C-terminus are completely devoid of antigenic activity with the polyclonal antibody. These results were confirmed by analysis of reciprocal competitive binding of PSP94 polyclonal antibody by the N-terminal peptides (N30 and M23) v. either recombinant GST-PSP94 fusion protein, purified recombinant PSP94, or natural PSP94 protein. To further delineate the antigenic activity of the N- and C-termini, we have also expressed N- and C-terminal half of the whole PSP94 (each 47 peptides) using the E. coli GST expression system. The recombinant N47/C47 peptides were released by thrombin cleavage from the GST fusion protein and characterized by Western blotting experiments. Dose response of the recombinant GST-PSP-N47 and -C47 peptides to PSP94 polyclonal antibody showed differential binding activities. Competitive binding of these recombinant N47/C47 proteins against the GST-PSP94 protein demonstrates that the polyclonal antibody has a higher affinity for the N47 peptide than the C47 peptide. Based on the immunological studies of both synthetic peptides and recombinant PSP94- N/C terminal proteins, we propose an epitope structure of human PSP94 with an immno-dominant N-terminus and an immuno-recessive C-terminus. J. Cell. Biochem. 65:172–185. © 1997 Wiley-Liss, Inc.     

A general strategy for polymerization, assembly and expression of epitope-carrying peptides applied to the Plasmodium falciparum antigen Pf155/RESA.

Polymerization of DNA fragments in a head-to-tail arrangement provides a convenient way to obtain multimeric expression of a specific gene product, e.g., epitope-carrying peptides for immunological studies. A novel technique for the polymerization and assembly of peptides has been developed, involving the use of the class-IIS restriction enzyme BspMI which enables unidirectional insertion of the DNA fragments to be polymerized [Kim and Szybalski, Gene 71 (1988) 1-8]. One or several DNA fragments are polymerized in subsequent steps, using in vitro DNA polymerization, and the obtained gene constructs containing several repeats are screened and sequenced using polymerase chain reaction techniques. Using a two-step polymerization strategy a peptide, comprising two repetitive sequences from the Plasmodium falciparum malaria blood-stage antigen Pf155/RESA, was assembled and subsequently synthesized in Escherichia coli. Two different fusion proteins suitable for affinity purification were produced using a dual affinity system. Rabbits were immunized with one of the fusion proteins and the antibody response was analyzed by the enzyme-linked immunosorbent assay and immunofluorescence using the second fusion protein.     

禽流感病毒H7N2血凝素HA1基因在大肠杆菌中的表达

目的　表达H7N2亚型禽流感病毒 (AIV)HA1基因 ,用于感染H7亚型禽流感病毒抗体的检测和HA1蛋白功能研究。方法　采用RT PCR方法对H7N2亚型AIVHA1基因进行扩增 ,将PCR产物克隆于pGEM T Easy载体 ,将该基因插入pGEX 4T 2中构建HA1基因原核表达载体 ,转化BL2 1大肠杆菌后 ,在IPTG诱导下表达HA1蛋白 ,Westernblot鉴定表达HA1蛋白。电洗脱方法纯化表达HA1蛋白 ,建立间接ELISA方法 ,对感染AIVH7、H9、H5亚型AIV阳性血清进行检测。结果　成功克隆H7N2亚型AIV的HA1基因 ,其核苷酸序列长度 96 6bp ,编码 32 2个氨基酸残基。构建HA1基因原核表达载体在大肠杆菌内表达出约 6 1× 10 3的HA1融合蛋白。Westernblot和ELISA方法鉴定表明 :表达HA1蛋白与感染H7亚型AIV鸡血清有反应 ,与H5、H9亚型AIV阳性血清没有反应。结论　本研究在大肠杆菌中成功表达了H7N2亚型AIVHA1基因蛋白 ,具有与感染H7亚型AIV阳性血清反应原性 ,不与H5和H9亚型AIV感染阳性血清发生反应。