Expression of a Chlamydia anticarbohydrate single-chain antibody as a maltose binding fusion protein.

A single-chain antibody fragment has been constructed for an antibody that binds to the Chlamydia specific carbohydrate structure of the lipopolysaccharide. Single-chain protein was expressed and secreted into the periplasmic space of E. coli as a fusion protein with the maltose binding protein. The fusion protein was purified in one step by virtue of its ability to bind to maltose. In a sandwich ELISA, the eluted protein bound Chlamydia lipopolysaccharide, which demonstrates that the single-chain protein domain will function as part of a fusion protein. The expression of maltose binding fusion proteins into the periplasmic space could be used for production of other single-chain antibodies or protein fragments requiring appropriate folding and disulfide bond formation.     

Thermodynamics of maltose binding protein unfolding.

The maltose binding protein (MBP or MalE) of Escherichia coli is the periplasmic component of the transport system for malto-oligosaccharides. It is used widely as a carrier protein for the production of recombinant fusion proteins. The melting of recombinant MBP was studied by differential scanning and titration calorimetry and fluorescence spectroscopy under different solvent conditions. MBP exhibits a single peak of heat absorption with a delta(Hcal)/delta(HvH) ratio in the range of 1.3-1.5, suggesting that the protein comprises two strongly interacting thermodynamic domains. Binding of maltose resulted in elevation of the Tm by 8-15 degrees C, depending of pH. The presence of ligand at neutral pH, in addition to shifting the melting process to higher temperature, caused it to become more cooperative. The delta(Hcal)/delta(HvH) ratio decreased to unity, indicating that the two domains melt together in a single two-state transition. This ligand-induced merging of the two domains appears to occur only at neutral pH, because at low pH maltose simply stabilized MBP and did not cause a decrease of the delta(Hcal)/delta(HvH) ratio. Binding of maltose to MBP is characterized by very low enthalpy changes, approximately -1 kcal/mol. The melting of MBP is accompanied by an exceptionally large change in heat capacity. 0.16 cal/K-g, which is consistent with the high amount of nonpolar surface--0.72 A2/g--that becomes accessible to solvent in the unfolded state. The high value of delta Cp determines a very steep delta G versus T profile for this protein and predicts that cold denaturation should occur above freezing temperatures. Evidence for this was provided by changes in fluorescence intensity upon cooling the protein. A sigmoidal cooperative transition with a midpoint near 5 degrees C was observed when MBP was cooled at low pH. Analysis of the melting of several fusion proteins containing MBP illustrated the feasibility of assessing the folding integrity of recombinant products prior to separating them from the MBP carrier protein.     

The soluble expression of the human renin binding protein using fusion partners: A comparison of ubiquitin,thioredoxin, maltose binding protein and NusA

human renin binding protein (hRnBp), showingN-acetylglucosamine-2-epimerase activity, was over-expressed inE. coli, but was mainly present as an inclusion body. To improve its solubility and activity, ubiquitin (Ub), thioredoxin (Trx), maltose binding protein (MBP) and NusA, were used as fusion partners. The comparative solubilities of the fusion proteins were, from most to least soluble: NusA, MBP, Trx, Ub. Only the MBP fusion did not significantly reduce the activity of hRnBp, but enhanced the stability. The Origami (DE3), permitting a more oxidative environment for the cytoplasm inE. coli, helped to increase its functional activity.     

Preparation of recombinant RNase single-chain antibody fusion proteins

This article describes the construction, expression, and purification of RNase single-chain antibody fusion proteins. To construct a fusion protein, the gene for each moiety, the RNase and the binding ligand, is modified separately to contain complementary DNA encoding a 13 amino acid spacer that separates the RNase from the binding moiety. Appropriate restriction enzyme sites for cloning into the vector are also added. The modified DNA is combined and fused using the PCR technique of splicing by overlap extension (1). The resulting DNA construct is expressed in inclusion bodies in BL21(DE3) bacteria that are specifically engineered for the expression of toxic proteins (2). After isolation and purification of the inclusion bodies, the fusion protein is solubilized, denatured, and renatured. The renatured RNase fusion protein mixture is purified to homogeneity by two chromatography steps. The first column, a CM-Sephadex C-50 or a heparin Sepharose column, eliminates the majority of contaminating proteins while the second column, an affinity column (Ni²⁺-NTA agarose), results in the final purification of the RNase fusion protein.     

GST-Ccd1融合蛋白的表达、纯化及多克隆抗体制备

目的：利用大肠杆菌DH5α表达GST—Ccd1融合蛋白,并用亲和层析分离纯化,进行动物免疫制备多克隆抗体。方法：利用本室构建好的pGEX-5X-1-Ccd1-N原核表达重组质粒,转化大肠杆菌DH5α,经IPTG诱导表达,在大肠杆菌表达系统中获得可溶性表达。经谷胱甘肽Sepharose 4B介质填充的层析柱分离纯化蛋白,制备抗原免疫动物,得到Ccd1的兔源多克隆抗体。结果：ELISA结果显示血清抗体效价可以达到1∶40 000。免疫组化分析表明自制的抗体能特异性与Ccd1蛋白相互作用,可以用于实验分析。结论：制备了效价高特异性良好的抗Ccd1多克隆抗体,经实验验证获得的抗体能够满足针对Ccd1的免疫印迹和免疫组化检测的实验要求,为今后深入研究Ccd1表达的组织分布、细胞内定位及其生物学功能提供了有用的实验工具。     

A useful epitope tag derived from maltose binding protein

Maltose binding protein (MBP) is used in recombinant protein expression as an affinity and solubility tag. The monoclonal antibody B48 binds MBP tightly and has no cross‐reactivity to other proteins in an Escherichia coli lysate. This high level of specificity suggested that MBP contains an epitope that could prove useful as a purification and visualization tag for proteins expressed in E. coli. To discover the MBP epitope, a co‐crystal structure was determined for MBP bound to its antibody and four amino acids of MBP were identified as critical for the binding interaction. Fusions of various fragments of MBP to the glutathione S‐transferase protein were engineered in order to identify the smallest fragment still recognized by the α‐MBP antibody. Stabilization of the epitope via mutational engineering resulted in a minimized 14 amino‐acid tag.     

抗人血管内皮生长因子单链抗体基因的构建、表达及活性鉴定

鼠单克隆抗体E11能与人血管内皮生长因子(VEGF)特异结合,已用于临床检测恶性肿瘤细胞VEGF的表达,并初步证明其体内抑瘤活性。为便于大规模生产,特进行基因工程改造,构建小分子的单链抗体(scFv)。首先通过逆转录及多聚酶链式反应(PCR),分离并克隆E11的可变区基因。经测序表明,E11轻链可变区(VL)基因全长333bp,编码111个氨基酸,归属小鼠轻链可变区基因第Ⅲ亚组。重链可变区VH基因全长369bp,编码123个氨基酸,归属小鼠重链可变区基因Ⅱ(A)亚组。然后用一编码亲水性多肽接头的DNA片断将E11单抗轻、重链可变区基因连接,构建表达质粒pET-15YV,在大肠杆菌BL21(DE3)中进行表达。表达产物(包含体)经变性及复性后,用免疫组化法检测该单链抗体结合抗原(颊癌)能力。对颊癌组织检测的结果表明,基因工程抗体scFv与亲代抗体一样,具有较高的组织特异性。本研究获得的抗人VEGF单链抗体具有潜在的临床价值,为肿瘤放射免疫显像及以血管为靶标的抗血管生成治疗奠定了基础。     

鼠源抗HFRSV衣壳蛋白McAbF3株单链抗体基因克隆构建及表达

为了获得原抗ＨＦＲＳＶ衣壳蛋白ＭｃＡｂＦ３＾１株轻链可变区基因,由连接肽体外连接获得单链抗体基因,在大肠杆菌中表达,从鼠源抗ＨＦＲＳＶ衣壳蛋白ＭｃＡｂＦ３株细胞中分离总ＲＮＡ,以ｏｌｉｇｏ（ｄＴ）１８为引物逆转录成ｃＤＮＡ,通过ＰＣＲ扩增出抗体的轻链（ＶＬ）和重链可变区（Ｖ１１）基因,由连接本外连接获得单链抗体（ＳｅＦｖ）基因。将此单链抗体（ＳｅＦｖ）基因插入原核表达载体ＰＥＴ２８ａ,经大肠杆菌（     

Rapid Purification of a New Humanized Single-chain Fv Antibody／Human Interleukin-2 Fusion Protein Reactive against HER2 Receptor

Overexpression of the proto-oncogene c-erbB-2, neuor HER2 has been shown in many human tumor cells,especially in breast cancer cells [1–5], which is thought tobe important in human carcinogenesis. c-erbB-2 geneencodes a 185 kD transmembrane glycoprotein …     

Biosynthetic antibody binding sites: Development of a single-chain Fv model based on antidinitrophenol IgA myeloma MOPC 315

The functional antigen binding region of antidinitrophenol mouse IgA myeloma MOPC 315 has been produced as a single-chain Fv (sFv) protein inE. coli. Recombinant 315 proteins included sFv alone, a bifunctional fusion protein with amino-terminal fragment B (FB) of staphylococcal protein A, and a two-chain 315 Fv fragment. Successful refolding of the 315 sFv required formation of disulfide bonds while the polypeptide was in a denatured state, as previously observed for the parent Fv fragment. Affinity-purified recombinant 315 proteins showed full recovery of specific activity, with values forK _a,app of 1.5 to 2.2×10⁶ M^–1, equivalent to the parent 315 Fv fragment. As observed for natural 315 Fv, the sFv region of active FB-sFv³¹⁵ fusion protein was resistant to pepsin treatment, whereas inactive protein was readily degraded. These experiments will allow the application of protein engineering to the 315 single-chain Fv; such studies can advance structure-function studies of antibody combining sites and lead to an improved understanding of single-chain Fv proteins.     

NaCl stress inhibits maltose fermentation by Saccharomyces cerevisiae

While fermentation of 20 g glucose l^–1 by Saccharomyces cerevisiae was not impaired by high NaCl concentrations, fermentation of 20 g maltose l^–1 was significantly decreased by 0.7 M NaCl, and completely inhibited with 1.4 M NaCl. No glycerol was produced in response to the salt stress when yeast cells were fermenting maltose. Active maltose transport, and not intracellular hydrolysis, was the metabolic step severely impaired by the NaCl stress.     

Optimal conditions for the expression of a single-chain antibody (scFv) gene in Pichia pastoris

A Pichia pastoris system was used to express a single-chain antibody (scFv) targeted against Mamestra configurata (bertha armyworm) serpins. To improve scFv production we examined parameters such as proteinase activity, temperature, cell density, osmotic stress, medium composition, pH, and reiterative induction. P. pastoris was found to express several proteases; however, adjustment of medium pH to limit their activity did not correlate with increased scFv recovery. Induction medium pH values of 6.5-8.0 were most conducive to scFv production, despite significant differences in cell growth rates. Increasing inoculum density limited growth potential but gave rise to higher levels of scFv production. Three factors, medium composition, pre-induction osmotic stress, and temperature, had the greatest effects on protein production. Supplementation of the induction medium with arganine, casamino acids, or EDTA increased scFv production several fold, as did cultivation under osmotic stress conditions during pre-induction biomass accumulation. Incubation at 15 versus 30 degrees C extended the period whereby cells were capable of producing scFv from 1 to 7 days. Under optimal conditions, yeast cultures yielded 25 mg/L of functional scFv and could be subject to five reiterative inductions.     

Fusion with maltose-binding protein (MBP) affects neither RNA N-glycosidase activity nor immunogenicity of karasurin-A, a ribosome-inactivating protein from Trichosanthes kirilowii var. japonica

A genomic clone encoding mature karasurin-A (KRNA), a ribosome-inactivating protein from Trichosanthes kirilowii var. japonica, was efficiently expressed in E. coli using an expression cassette vector pMAL-c2. The resultant recombinant KRNA fused with maltose-binding protein (MBP) was recovered from the soluble fraction of the bacterial cells and purified to near homogeneity after one round of the affinity chromatography. Neither the karasurin precursor retaining both N- and C-terminal peptides, nor the protein with the N-terminal peptide was successufully produced even as a MBP-fusion. The protein with its C-terminal peptide was over-produced but was recovered in an insoluble fraction. Both the recombinant MBP-KRNA fusion protein and recombinant KRNA with MBP removed were as active as the native KRNA from root tubers. The immunogenicity of the recombinant KRNA was also unaffected by fusion with MBP.     

Expression of lipase-solubilized bovine liver microsomal cytochrome b5 in Escherichia coli as a glutathione S-transferase fusion protein (GST-cyt b5)

The gene coding for the lipase-solubilized bovine liver microsomal cytochrome b5 (cyt b5) was expressed in Escherichia coli BL21 cells as a glutathione S-transferase fusion protein (GST-cyt b5) using the constructed expression vector pGEX-cyt b). The GST-cyt b5 fusion protein can be matured in vivo as a holoprotein with heme incorporated into cyt b5 during the fermentation, and the purification procedures were simplified by using a one-step affinity column chromatography with glutathione-agarose gel. The fusion protein was characterized by its spectroscopic and electrochemical properties, the interaction between GST-cyt b5 and cyt c was also investigated. The results show that GST-cyt b5 fusion protein shares similar properties and functions to that of isolated cyt b5. Although cyt b5 and GST were fused together, the two partners have not made significant structural and functional alterations of their counterparts, the protein-protein interactions between them are apparently very weak. To our knowledge, the present study is the first report to express cyt b5 as a GST-cyt b5 fusion protein, which provides a good example for the in vivo maturation of a hemoprotein as a GST fusion protein and sheds new light on the protein-protein interactions within the GST fusion protein.     

原核表达载体pOPE101-8E5的改构及单链抗体的表达鉴定

本研究利用基因重组技术将链亲和素(core-streptavidin)cDNA插入原核表达载体pOPE101-8E5的3′端,并用单链抗体scFv-C4的重链和轻链可变区cDNA取代其scFv-8E5,构建重组表达载体pOPE101-C4::core-streptavidin。将该表达载体转化入在大肠杆菌中进行诱导表达,用聚丙烯酰胺凝胶电泳和免疫印迹法分析表达产物的表达量和产物活性。结果提示我们成功地获得一个分子量约为45kDa的scFv-C4::core-streptavidin的融合蛋白,它可结合KG1a细胞裂解物中分子量约为60kDa、45kDa的蛋白带,且其结合功能可以通过融合蛋白中的链亲和素基因直接测定。     

Generation and antitumor effects of an engineered and energized fusion protein VL-LDP-AE composed of single-domain antibody and lidamycin

Type IV collagenase plays a pivotal role in invasion, metastasis and angiogenesis of tumor. Single domain antibodies are attractive as tumor-targeting vehicle because of their much smaller size com-pared with antibody molecules produced by conventional methods. Lidamycin (LDM) is a potent enediyne-containing antitumor antibiotic. In this study an engineered and energized fusion protein VL-LDP-AE composed of lidamycin and VL domain of mAb 3G11 directed against type IV collagenase was prepared using a novel two-step method. First a VL-LDP fusion protein was constructed by DNA recombination. Secondly VL-LDP-AE was obtained by molecular reconstitution. In MTT assay, VL-LDP-AE showed potent cytotoxicity to HT-1080 cells and KB cells with IC50 values of 8.55×10-12 and 1.70×10-11 mol/L, respectively. VL-LDP-AE showed antiangiogenic activity in chick chrorioallantoic membrane (CAM) assay and tube formation assay. In in vivo experiments, VL-LDP-AE was proved to be more effective than free LDM against the growth of subcutaneously transplanted hepatoma 22 in mice. Drugs were given intravenously on day 3 and 10 after tumor transplantation. Compared in terms of maximal tolerated doses, VL-LDP-AE at 0.25 mg/kg suppressed the tumor growth by 89.5%, LDM at 0.05 mg/kg by 69.9%, and mitomycin at 1 mg/kg by 35%. Having a molecular weight of 25.2 kDa, VL-LDP-AE was much smaller than other reported antibody-based drugs. The results suggested that VL-LDP-AE would be a promising candidate for tumor targeting therapy. And the 2-step approach could serve as a new technology platform for making a series of highly potent engineered antibody-based drugs for a variety of cancers.     

Kinetics and energetics of the translocation of maltose binding protein folding mutants

Protein translocation in Escherichia coli is mediated by the translocase that, in its minimal form, comprises a protein-conducting pore (SecYEG) and a motor protein (SecA). The SecYEG complex forms a narrow channel in the membrane that allows passage of secretory proteins (preproteins) in an unfolded state only. It has been suggested that the SecA requirement for translocation depends on the folding stability of the mature preprotein domain. Here we studied the effects of the signal sequence and SecB on the folding and translocation of folding stabilizing and destabilizing mutants of the mature maltose binding protein (MBP). Although the mutations affect the folding of the precursor form of MBP, these are drastically overruled by the combined unfolding stabilization of the signal sequence and SecB. Consequently, the translocation kinetics, the energetics and the SecA and SecB dependence of the folding mutants are indistinguishable from those of wild-type preMBP. These data indicate that unfolding of the mature domain of preMBP is likely not a rate-determining step in translocation when the protein is targeted to the translocase via SecB.     

Expression of a bioactive fusion protein of Escherichia coli heat-labile toxin B subunit to a synapsin peptide

The B subunit of Escherichia coli heat-labile toxin (LTB) may function as an efficient carrier molecule for the delivery of genetically coupled antigens across the mucosal barrier. We constructed vectors for the expression of LTB and LTBSC proteins. LTBSC is a fusion protein that comprises the amino acid sequence from the C-domain of rat synapsin fused to the C-terminal end of LTB. Both constructions have a coding sequence for a 6His-tag fused in-frame. LTBSC was expressed in E. coli as inclusion bodies. The inclusion bodies were isolated and purified by Ni²⁺-chelating affinity chromatography under denaturing condition. Purified LTBSC was diluted in several refolding buffers to gain a soluble and biologically active protein. Refolded LTBSC assembled as an active oligomer which binds to the GM1 receptor in an enzyme-linked immunosorbent assay (ELISA). Soluble LTB in the E. coli lysate was also purified by Ni²⁺-chelating affinity chromatography and the assembled pentamer was able to bind with high affinity to GM1 in vitro. LTBSC and LTB were fed to rats and the ability to induce antigen-specific tolerance was tested. LTBSC inhibited the specific delayed-type hypersensitivity (DTH) response and induced decreased antigen-specific in vivo and in vitro cell proliferation more efficiently than LTB. Thus, the novel hybrid molecule LTBSC when orally delivered was able to elicit a systemic immune response. These results suggest that LTBSC could be suitable for exploring further therapeutic treatment of autoimmune inflammatory diseases involving antigens from central nervous system.     

重组rHSA-hFGF21融合蛋白在毕赤酵母中的表达纯化及活性分析北大核心CSCD

人成纤维细胞生长因子21(human fibroblast growth factor 21,hFGF21)已成为改善血糖和脂质代谢的候选药物,但却存在半衰期短和易被体内代谢等缺点,导致靶组织利用率低,限制了其临床应用。本研究通过柔性连接肽(GGGGS)_(3)将hFGF21的N端连接至人血清白蛋白(human serum albumin,HSA)的C端,经过毕赤酵母密码子优化后,将重组基因片段rHSA-hFGF21连入pPIC9k和pPICZαA两种载体,并转化到X33、GS115和SMD1168三种不同酵母菌株中。通过加压筛选得到高表达的X33-pPIC9K-rHSA-hFGF21工程菌株,并优化摇瓶诱导条件如OD值、甲醇浓度和诱导时间进一步提高rHSA-hFGF21的表达效率。培养上清经中空纤维膜切向流技术粗分离、Blue亲和层析和Q离子交换层析纯化获得纯度约98.18%的rHSA-hFGF21蛋白。与hFGF21相比,rHSA-hFGF21具有更好的热稳定性和抗胰蛋白酶降解的能力,其血浆半衰期也延长了约27.6倍;中高浓度条件下rHSA-hFGF21刺激HepG2细胞摄取葡萄糖的能力优于hFGF21;在2型糖尿病动物中rHSA-hFGF21比hFGF21具有更好的长效降糖效果。本研究将为FGF21蛋白的大规模生产奠定基础。     

The marine microalgaChlorella stigmatophora as a potential source of single cell protein: Enhancement of the protein content in response to nutrient enrichment

Summary Mass cultures ofChlorella stigmatophora were carried out in order to obtain maximum protein production and to study the chemical variations in function of the nutrient concentration. Cultures reached maximum cellular densities of 2.2·10⁸ cells/ml, with a growth velocity between 0.49 and 0.55 doublings/day. Carbohydrate content in the stationary phase ranged between 2.23 and 2.74 pg/cell, RNA between 0.78 and 1.36 pg/cell and DNA between 0.013 and 0.016 pg/cell. The maximum value for chlorophylla was 0.13 pg/cell. Maximum protein content was obtained with a nutrient concentration of 16 mM of NaNO₃, giving 4.85 pg/cell and a protein concentration of 0.7 g/l. The protein content can be manipulated by changes in the nutrient concentration, showing differences up to a 9.2-fold increase. This characteristic makesChlorella stigmatophora a suitable source of single cell protein.