Genetic immunization for the recovery and purification of recombinant proteins

A system that uses genetic immunization for recombinant protein recovery and purification is described. The genetic sequence encoding a target protein is subcloned into both a eukaryotic and a prokaryotic vector. With the eukaryotic construct, a rabbit is genetically immunized and specific polyclonal antibodies to the encoded protein raised. The prokaryotic construct is used for bacterial transformation and expression of recombinant protein. Recovery and purification of target recombinant protein are obtained by passing the lysate of expressing bacteria through an immunoaffinity column prepared with the polyclonal antibodies raised in the genetically immunized animal. This method allows purification of recombinant protein without fusion tails and can be applied to purify any protein whose encoding genetic sequence is known.     

重组葡激酶工程菌的构建方法

目的：利用N端缺失10个氨基酸的葡激酶（recombinant staphylokinase,rSaK）重组质粒,构建了表达可溶性rSaK126蛋白的工程菌,并研究不同条件下工程菌诱导表达目的蛋白含量的差异及纯化途径。 方法：采用细菌活化和培养方法诱导目的蛋白,并用SDS-PAGE测其含量,应用层析技术纯化蛋白。 结果：成功构建表达重组葡激酶的工程菌,表达的重组葡激酶蛋白约占菌体总蛋白的50％,经纯化后回收率为60%,纯度达99%以上。结论：成功构建高效表达重组葡激酶的工程菌,并获得了高含量、高纯度的目的蛋白。     

Extracellular recombinant protein production from an Escherichia coli lpp deletion mutant

E. coli is one of the most commonly used host strains for recombinant protein production. However, recombinant proteins are usually found intracellularly, in either cytoplasm or periplasmic space. Inadequate secretion to the extracellular environment is one of its limitations. This study addresses the outer membrane barrier for the translocation of recombinant protein directed to the periplasmic space. Specifically, using recombinant maltose binding protein (MalE), xylanase, and cellulase as model proteins, we investigated whether the lpp deletion could render the outer membrane permeable enough to allow extracellular protein production. In each case, significantly higher excretion of recombinant protein was observed with the lpp deletion mutant. Up to 90% of the recombinant xylanase activity and 70% of recombinant cellulase activity were found in the culture medium with the deletion mutant, whereas only 40-50% of the xylanase and cellulase activities were extracellular for the control strain. Despite the weakened outer membrane in the mutant strain, cell lysis did not occur, and increased excretion of periplasmic protein was not due to cell lysis. The lpp deletion is a simple method to generate an E. coli strain to effect significant extracellular protein production. The phenotype of extracellular protein production without cell lysis is useful in many biotechnological applications, such as bioremediation and plant biomass conversion.     

结核分枝杆菌Rv3369基因的表达和纯化

在大肠杆菌中高效表达结核分枝杆菌Rv3369蛋白,获得纯化的重组蛋白rRv3369。通过聚合酶链反应(Polymerase chain reaction,PCR)扩增Rv3369基因;以质粒pET28a为表达载体,构建重组质粒,转化大肠杆菌BL21(DE3);以异丙基硫代半乳糖苷(IPTG)诱导表达目的蛋白,通过SDS-PAGE鉴定rRv3369在大肠杆菌中的表达,确定rRv3369在大肠杆菌中的表达形式;采用Ni-NTA His.Bind Resin来纯化重组蛋白。重组质粒pET28a-Rv3369中目的基因测序结果与报道序列相同。分子量约19.5kDa,表达量约占菌体总蛋白的18%,纯化后的重组蛋白样品经SDS-PAGE和激光密度扫描分析表明其纯度为90%以上,每100mL培养菌可获得1.56mg左右的重组蛋白。用亲和层析法纯化的重组蛋白纯度较好。     

Activated protein C up-regulates IL-10 and inhibits tissue factor in blood monocytes

The protective effect of recombinant activated protein C therapy in patients with severe sepsis likely reflects the ability of recombinant activated protein C to modulate multiple pathways implicated in sepsis pathophysiology. In this study, we examined the effects of recombinant activated protein C on the anti-inflammatory cytokine IL-10 and on the procoagulant molecule tissue factor (TF) in LPS-challenged blood monocytes. Treatment of LPS-stimulated monocytes with recombinant activated protein C resulted in an up-regulation of IL-10 protein production and mRNA synthesis. The up-regulation of IL-10 required the serine protease activity of recombinant activated protein C and was dependent on protease-activated receptor-1, but was independent of the endothelial protein C receptor. At the intracellular level, p38 MAPK activation was required for recombinant activated protein C-mediated up-regulation of IL-10. We further observed that incubation of LPS-stimulated monocytes with recombinant activated protein C down-regulated TF Ag and activity levels. This anticoagulant effect of recombinant activated protein C was dependent on IL-10 since neutralization of endogenously produced IL-10 abrogated the effect. In patients with severe sepsis, plasma IL-10 levels were markedly higher in those treated with recombinant activated protein C than in those who did not receive recombinant activated protein C. This study reveals novel regulatory functions of recombinant activated protein C, specifically the up-regulation of IL-10 and the inhibition of TF activity in monocytes. Our data further suggest that these activities of recombinant activated protein C are directly linked: the recombinant activated protein C-mediated up-regulation of IL-10 reduces TF in circulating monocytes.     

Large-scale production,purification, and characterisation of recombinant Phaseolus vulgaris phytohemagglutinin E-form expressed in the methylotrophic yeast Pichia pastoris

The kidney bean lectin Phaseolus vulgaris phytohemagglutinin E-form (PHA-E) was expressed and secreted by the methylotrophic yeast Pichia pastoris. To optimise yields of PHA-E, transformants of P. pastoris were selected for high-level production of the recombinant protein. A scaleable process for the production and purification of gram quantities of recombinant PHA-E is reported. PHA-E was secreted at approximately 100 mg/L at the 2- and 200-L scale and was purified to 95% homogeneity in a single step using cation-exchange chromatography. The purified recombinant PHA-E consists of four forms with molecular masses between 28.5 and 31.5 kDa, as assessed by MALDI-TOF, whereas its native counterpart has a molecular mass of approximately 30.5 kDa. Endoglycosidase treatment revealed that the range in size of the recombinant protein was attributed to differences in the nature of the N-linked oligosaccharides bound to the protein. The primary amino acid sequence of the recombinant PHA-E was found to be identical to the native protein and to have an agglutination activity similar to that of native PHA-E. The data presented here suggest that, using P. pastoris, gram quantities of a recombinant phytohemagglutinin E-form can be produced and that the recombinant protein is similar to the protein synthesised in plants with respect to structure and biological activity.     

SARS-CoV核衣壳蛋白的表达与免疫研究

依据GenBank中SARS基因组序列,采用人工合成的方法合成编码SARS病毒N蛋白的全基因(1296bp)序 列,再与设计的CTL特异性表位基因(195bp)重组后,克隆到pET-28a( )质粒中,重组质粒转化到大肠杆菌BL21 (DE3)中诱导表达。利用SARS患者恢复期阳性血清,鉴定表达蛋白。进一步纯化后免疫马,并用ELISA方法检 测血清抗体效价。结果显示SDS-PAGE表明所表达的蛋白相对分子质量约为55000 Da,与预计大小相符;Western blot显示表达的蛋白具有良好的抗原性和特异性。对表达蛋白形成的包涵体进行洗涤,得到的蛋白纯度可达到 70．1％。切胶纯化免疫马后,获得的抗SARS抗体滴度达1:2560。为亚单位疫苗研制和精制抗SARS抗体免疫制 剂提供基础。     

兔多杀性巴氏杆菌C51-3株黏附蛋白的表达、纯化及其抗原性检测

应用PCR从兔多杀性巴氏杆菌C51-3株基因组DNA中扩增出编码36 kD黏附蛋白的cp36基因, 将其克隆到pMD18-T载体并对插入片段进行测序。以重组质粒pMD18-cp36为模板, 用PCR扩增得到编码信号肽除外的成熟黏附蛋白基因cpm36, 并克隆到原核表达质粒pQE30中, 得到重组质粒pQE30-cpm36, 转化大肠杆菌M15, 在IPTG诱导下表达融合蛋白CPM36, 经Ni2+-NTA亲和层析纯化。DNA测序结果表明cp36基因片段大小为1032 bp, 与已报道的16个血清型多杀性巴氏杆菌cp36基因的核苷酸序列比较, 同源性在76.9%~100%之间。SDS-PAGE结果显示, 表达分子量约为37 kD的带有6×His标签的CPM36蛋白, 与预期分子量相符。Western blotting结果表明, 抗重组蛋白抗体分别能与CPM36蛋白和多杀性巴氏杆菌36 kD蛋白发生特异性反应, 证明原核表达蛋白具有抗原性, 为进一步开展多杀性巴氏杆菌免疫保护性抗原的研究奠定了基础。     

化脓性链球菌溶血素O活性结构重组蛋白的制备

生物信息分析化脓性链球菌溶血素O(streptolysin O,Slo)蛋白结构表明,Slo蛋白除含有由461氨基酸残基组成的溶血活性结构域Thiol_cytolysin外,在N端还有一跨膜结构域。利用pET101-GENE蛋白表达系统,成功构建出表达具有Slo活性重组蛋白的重组子,采用镍柱亲和层析分离技术,纯化目的蛋白;纯化蛋白SDS-PAGE检测分析表明,重组蛋白与预测的溶血活性结构域的分子量相一致;溶血实验显示,纯化重组蛋白具有溶血活性。以纯化的重组蛋白为免疫原,对大鼠进行4次免疫,所获得免疫血清经 Elisa检测,抗Slo血清效价达到 1 ∶12 800;Western blot检测猪链球菌、马链球菌和化脓性链球菌中的链球菌溶血素结果显示,抗Slo多克隆抗体仅能与化脓性链球菌溶血素O发生反应,表明研究制备的化脓性链球菌溶血素O活性结构重组蛋白抗原具有较好的特异性,所制备的抗原Slo 可用于进一步开发抗链球菌溶血素O(ASO)试剂盒。     

重组人E1A激活基因阻遏子/myc-His融合糖蛋白的纯化及功能鉴定

目的:纯化重组人E1A激活基因阻遏子(hCREG)糖蛋白,验证重组hCREG糖蛋白具有抑制体外培养的人胸廓内动脉平滑肌细胞(HITASY)增殖的生物学功能。方法:根据6×His亲和层析原理,应用Ni-NTA柱纯化重组hCREG蛋白,纯化后蛋白通过HiTrap脱盐柱脱盐。用流式细胞周期分析研究添加0.5μg/ml、1μg/ml及2μg/ml重组hCREG/myc-His融合糖蛋白对体外培养HITASY细胞增殖的影响。用BrdU掺入方法研究重组蛋白对体外培养HITASY细胞增殖的影响。结果:根据6×His亲和层析原理用Ni-NTA纯化重组hCREG蛋白,浓缩并脱盐后的重组hCREG蛋白浓度为1.6mg/ml,纯度为92%,此蛋白仍保留了糖基化形式。流式细胞仪细胞周期分析结果提示重组hCREG蛋白可抑制体外培养的HITASY细胞增殖,且低浓度组的抑制效应要高于高浓度组。BrdU掺入实验结果提示,添加2μg/ml重组hCREG蛋白组与对照组相比可显著抑制体外培养的HITASY细胞增殖,组间比较有统计学差异(P0.05)。结论:具有生物学功能的重组hCREG/myc-His糖蛋白的成功纯化,为hCREG蛋白的功能研究及生物工程制备提供了实验平台。     

Expression, secretion, and glycosylation of the 45- and 47-kDa glycoprotein of Mycobacterium tuberculosis in Streptomyces lividans

The gene encoding the 45/47 kDa glycoprotein (Rv1860) of Mycobacterium tuberculosis was expressed in Streptomyces lividans under its own promoter and under the thiostrepton-inducible Streptomyces promoter PtipA. The recombinant protein was released into the culture medium and, like the native protein, migrated as a double band at 45 and 47 kDa in sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis (PAGE) gels. However, in contrast to the native protein, only the 47-kDa recombinant protein could be labeled with concanavalin A (ConA). Carbohydrate digestion with jack bean alpha-D-mannosidase resulted in a reduction in the molecular mass of the recombinant protein upper band and completely eliminated ConA binding. Two-dimensional gel electrophoresis revealed only one isoelectric point for the recombinant protein. Comparative fingerprinting analysis of the individually purified upper and lower recombinant protein bands, treated under the same conditions with specific proteases, resulted in similar peptide patterns, and the peptides had the same N-terminal sequence, suggesting that migration of the recombinant protein as two bands in SDS-PAGE gels could be due to differences in glycosylation. Mass spectrometry analysis of the recombinant protein indicated that as in native protein, both the N-terminal and C-terminal domains of the recombinant protein are glycosylated. Furthermore, it was determined that antibodies of human tuberculosis patients reacted mainly against the carbohydrate residues of the glycoprotein. Altogether, these observations show that expression of genes for mycobacterial antigens in S. lividans is very useful for elucidation of the functional role and molecular mechanisms of glycosylation in bacteria.     

Determination of and corrections to sequences of turkey and chicken troponins-C. Effects of Thr-130 to Ile mutation on Ca2+ affinity

Reported differences in the primary structures of chicken muscle troponin C (Wilkinson, J.M. (1976) FEBS Lett. 70, 254-256) and recombinant protein deduced from a chick muscle cDNA (Reinach, F.C. and Karlsson, R. (1988) J. Biol. Chem. 263, 2371-2376) have been reinvestigated. The complete amino acid sequence of turkey muscle troponin C has also been elucidated. Residue 100, originally reported as Asp in the chicken muscle protein, is shown to be Asn in all three structures. The three amino acid sequences are identical except as follows: 1) the blocked NH2-terminal Ala at residue 1 of the chicken protein is replaced by nonblocked Met-Ala in the recombinant protein and by nonblocked Pro in turkey troponin-C; 2) residue 130 is Thr in both avian muscle proteins but Ile in the recombinant protein; 3) Asp-133 in the chicken muscle and recombinant troponins-C is replaced by Glu in the turkey protein; 4) residue 99, originally identified as Glu in the x-ray structure of the turkey protein, is shown to be Ala in all three proteins. Calcium titration of the metal-induced conformational transition of the protein as monitored by far UV CD measurements indicated a significant decrease in Ca2+ affinity of the high-affinity sites in the case of the recombinant protein as compared with the chicken muscle protein. Both pairs of sites showed high cooperativity. That this decreased Ca2+ affinity could be attributed to different amino acid residues at position 130 and not to the differences at the NH2 termini was confirmed by site-specific mutation of Ile-130 to Thr in the recombinant protein. The mutated recombinant protein now titrated identically to the chicken muscle protein. Thr-130, whereas over 21 A from the metal of sites III and IV, is involved in a hydrogen bonding network with structured water and the NH2-terminal region of helix G.     

破骨细胞形成抑制因子TNFR结构区在大肠杆菌中表达、抗体制备及活性测定

破骨细胞形成抑制因子(OPG)对骨的重建与再吸收有重要调节作用,其TNFR结构区行使抑制破骨细胞形成与活性的功能。通过PCR将该区基因片段克隆出来,插入表达载体PET-28a质粒多克隆位点,重组质粒转入大肠杆菌BL21中进行表达,表达产物以包涵体形式存在,包涵体经变性复性后,亲合层析获得重组蛋白。纯化的产物作为抗原免疫兔,得到较高特异性的兔源多克隆抗体。利用小鼠降血钙实验检测变性复性后产物的活性,结果表明该重组蛋白有一定的生物活性。     

饲喂重组鸡白细胞介素18蛋白增加肉仔鸡体重的初步研究

经口服途径给肉仔鸡饲喂重组鸡白细胞介素 1 8(ChIL -1 8)蛋白,观察其在正常饲养条件下和人工感染鸡传染性支气管炎病毒 (IBV)时对肉仔鸡的影响。将 84只肉仔鸡随机分为 2组:正常称重组和IBV接种组。 2组肉仔鸡再随机各分为 3个亚组,分别每隔 5d各口服 1次PBS、细菌蛋白和重组ChIL -1 8蛋白。正常称重组每亚组 8只,每次口服前称重。IBV接种试验组每亚组 2 0只,在 30日龄时滴鼻接种IBVM41株并每隔 5d称重 1次。各亚组试验鸡分别在正压隔离器中饲养。结果表明,饲喂重组ChIL- 1 8蛋白的试验亚组肉仔鸡体重总增重量明显高于饲喂PBS和细菌蛋白的对照亚组;IBV接种试验组肉仔鸡在人工感染IBVM41株后,饲喂重组ChIL 1 8亚组的发病率和死亡率明显低于饲喂PBS和细菌蛋白亚组,而且后 2个亚组肉仔鸡临床症状也较饲喂重组ChIL- 1 8试验亚组明显。结果初步显示,饲喂重组ChIL -1 8融合蛋白能够增加肉仔鸡体重并可增强肉仔鸡对IBV感染的抵抗能力。     

重组蛋白在中国仓鼠卵巢细胞中高效表达的影响因素

高效表达重组蛋白 ,对于生物制药意义重大。大多数药用蛋白是糖蛋白 ,中国仓鼠卵巢细胞 (Chinesehamsterovarycell,CHO)是目前重组糖基蛋白生产的首选体系。影响外源蛋白在CHO细胞中表达的因素很多 ,从CHO细胞表达体系、表达载体系统、外源基因、表达细胞株的加压扩增与筛选、细胞大规模培养等方面对CHO高效表达加以阐述 ,同时提出存在的问题和未来的发展方向。     

提高大肠杆菌分泌表达重组蛋白的研究进展

大肠杆菌是表达重组蛋白的常见宿主之一。重组蛋白分泌到周质空间或胞外培养基中较之在胞内以包含体形式表达有许多优势。主要讨论大肠杆菌Ⅰ、Ⅱ型分泌机制,并总结近年来在提高重组蛋白分泌表达的策略方面取得的进展。     

禽多杀性巴氏杆菌P1059成熟黏附蛋白的原核表达、纯化和抗原性检测

目的：建立rCPM36在大肠杆菌中的表达体系,纯化表达产物并检测其抗原性。方法：运用PCR方法从禽多杀性巴氏杆菌国际标准株P1059基因组中扩增出编码36kDa成熟黏附蛋白的cpm36基因,构建原核表达载体pQE30-cpm36,转化到大肠杆菌M15中并诱导表达目的蛋白,用镍离子螯合层析柱纯化目的蛋白及制备其抗体,Western印迹分析其抗原性。结果：SDS-PAGE结果显示目标蛋白以可溶性形式表达在大肠杆菌M15细胞质中,其相对分子质量为37kDa,Western印迹结果表明表达蛋白具有良好的抗原性。结论：成功构建出原核表达载体并实现了目的蛋白表达,用镍离子螯合层析柱纯化得到具有抗原性的蛋白,为进一步开展禽多杀性巴氏杆菌黏附因子和保护性抗原的研究奠定基础。     

Catalase effect on cell death for the improvement of recombinant protein production in baculovirus-insect cell system

Baculovirus expression vector system (BEVS) in host insect cells is a powerful technology to produce recombinant proteins, as well as virus-like particles (VLP). However, BEVS is based on baculovirus infection, which limits the recombinant protein production by inducing insect cell death. Herein a new strategy to enhance cell life span and to increase recombinant protein production was developed. As baculovirus infection induces cellular oxidative stress, the ability of several antioxidants to inhibit cell death was tested during infection. The production of rotavirus structural proteins was used as model to analyse this new strategy. We found that only catalase is able to partially prevent cell death triggered by baculovirus infection and to inhibit lipid peroxidation. An increase in recombinant protein production was coupled with the partial cell death inhibition. In summary, the addition of catalase is a promising strategy to improve recombinant protein production in BEVS, by delaying insect cell death.     

提高大肠杆菌可溶性重组蛋白表达产率的研究进展

大肠杆菌表达重组蛋白相比真核细胞具有成本低廉、大规模发酵容易、条件易于自动化控制等优点,通过大肠杆菌表达重组蛋白是一种高效、经济的途径,重组蛋白表达量可达到大肠杆菌总蛋白质量的50%。具有正常生化活性的重组蛋白通常为可溶性形式,因而对于以得到活性产物(如抗体、酶等)为目的的研究,通常采用可溶性表达途径。目前已有多种以可溶性重组蛋白为活性物质的治疗性药物经批准上市,但并非所有外源基因均能实现可溶性高表达,因此重组蛋白的可溶性高表达具有重要研究价值。在总结近年提高经大肠杆菌可溶性表达重组蛋白产率研究的基础上,从启动子的选择、SD序列的引入、信号肽的优化、宿主细胞的选择、共表达其他蛋白质,高密度发酵等方面阐释在大肠杆菌中提高可溶性重组蛋白表达产率的方法。