Expression and characterization of human CB1 cannabinoid receptor in methylotrophic yeast Pichia pastoris

For the purpose of purification and structural characterization, the CB1 cannabinoid receptors are expressed in methylotrophic yeast Pichia pastoris. The expression plasmid was constructed in which the CB1 gene is under the control of the highly inducible promoter of P. pastoris alcohol oxidase I gene. To facilitate easy detection and purification, a FLAG tag was introduced at the N-terminal, a c-myc epitope and a hexahistidine tag were introduced at the C-terminal of the CB1. In membrane preparations of CB1 gene transformed yeast cells, Western blot analysis detected the expression of CB1 proteins. Radioligand binding assays demonstrated that the tagged CB1 receptors expressed in P. pastoris have a pharmacological profile similar to that of the untagged CB1 receptors expressed in mammalian systems. Furthermore, the tagged CB1 receptors were purified by anti-FLAG M2 affinity chromatography and the identity of the purified CB1 receptor proteins was confirmed by Western blot analysis. MALDI/TOF mass spectrometry analysis of the peptides extracted from tryptic digestions of purified CB1 preparations detected 17 peptide fragments derived from the CB1, thus further confirming the identity of the purified receptor. In conclusion, these data demonstrated for the first time that epitope tagged, functional CB1 cannabinoid receptors can be expressed in P. pastoris for purification and mass spectrometry characterization.     

Expression of CB2 cannabinoid receptor in Pichia pastoris

To facilitate purification and structural characterization, the CB2 cannabinoid receptor is expressed in methylotrophic yeast Pichia pastoris. The expression plasmids were constructed in which the CB2 gene is under the control of the highly inducible promoter of P. pastoris alcohol oxidase 1 gene. A c-myc epitope and a hexahistidine tag were introduced at the C-terminal of the CB2 to permit easy detection and purification. In membrane preparations of CB2 gene transformed yeast cells, Western blot analysis detected the expression of CB2 proteins. Radioligand binding assays demonstrated that the CB2 receptors expressed in P. pastoris have a pharmacological profile similar to that of the receptors expressed in mammalian systems. Furthermore, the epitope-tagged receptor was purified by metal chelating chromatography and the purified CB2 preparations were subjected to digestion by trypsin. MALDI/TOF mass spectrometry analysis of the peptides extracted from tryptic digestions detected 14 peptide fragments derived from the CB2 receptor. ESI mass spectrometry was used to sequence one of these peptide fragments, thus, further confirming the identity of the purified receptor. In conclusion, these data demonstrated for the first time that epitope-tagged, functional CB2 cannabinoid receptor can be expressed in P. pastoris for purification.     

Purification and characterization of the recombinant human prostaglandin H synthase-2 expressed in Pichia pastoris

Prostaglandin H synthase-1 and -2 (PGHS-1 and PGHS-2, EC 1.14.99.1) are membrane associated glycoproteins that catalyze the first two steps in prostaglandin synthesis. As the enzymes play an important regulatory role in several physiological and pathophysiological processes, recombinant PGHS isoforms are widely used in biomedical research. In the present study, we expressed human PGHS-2 (hPGHS-2) with and without a six histidine sequence tag (His(6) tag) near the amino- or carboxy-terminus of the protein in the Pichia pastoris (P. pastoris) expression system using native or yeast signal sequences. The recombinant His(6) tagged hPGHS-2 was purified using Ni-affinity and anion exchange chromatography, whereas the purification of the C-terminally His(6) tagged hPGHS-2 was more efficient. K(m), k(cat) and IC(50) values were determined to characterize the protein. The data obtained indicate that both the N- and C-terminally His(6) tagged hPGHS-2 are functional and the catalytic properties of the recombinant protein and the enzyme produced in other expression systems are comparable. As the yeast culture is easy to handle, the P. pastoris system could serve as an alternative to the most commonly used baculovirus-insect cell expression system for the production of the recombinant PGHS-2.     

Pichia pastoris酵母中表达人源中和性抗甲型肝炎病毒scFv-Fc融合抗体的研究

为了探讨人源抗甲型肝炎（甲肝）病毒scFv—Fc融合抗体在酵母中的表达特性,将获得的人源抗甲肝病毒中和性单链可变区抗体（scFv抗体）基因克隆入含信号肽及人IgG1Fc抗体基因的酵母细胞表达载体中,获得了一株中和性人源抗甲肝病毒pPiscFv—FcHA16融合抗体的分泌表达,并对表达产物进行了纯化。同时对表达产物的生物学特性进行了一系列鉴定。表达的pPiscFv—FcHA16融合抗体为具有不同糖基化形式的同源二聚体,与相应的CHO细胞表达的IgG抗体相比,pPiscFv—FcHA16融合抗体仍保持很好的抗原结合活性,以及与中和性鼠抗甲肝病毒单克隆抗体的竞争抑制能力。同时也保持了对甲肝病毒的体外中和活性。这些结果表明,在酵母中表达的单链可变区（scFv）与IgG1Fc区的融合抗体具有很好的生物学活性,有希望用做体外诊断,用纯化相应的抗原,或者可能用于体内预防与治疗。     

Purification and characterization of the recombinant human dopamine D2S receptor from Pichia pastoris

The human dopamine D2S receptor was expressed in the methylotrophic yeast Pichia pastoris, where the receptor with a molecular mass of approximately 40kDa exhibited specific and saturable binding properties. The dopamine antagonist [3H]spiperone showed an average dissociation constant K(d) of 0.6+/-0.17 nM for the dopamine D2S receptor. The receptor was solubilized using the non-ionic detergent dodecylmaltoside and purified by affinity chromatography using a Ni(2+) chelate (His-Trap) column or by batch extraction with an anti-FLAG M1 affinity resin. The receptor maintained its biological activity after solubilization and purification from the membrane protein fraction. A 244- or 185-fold enrichment, as judged by an increase in specific binding, was obtained after adsorption to the His-Trap or anti-FLAG materials, respectively.     

Functional expression and characterisation of a gut facilitative glucose transporter, NlHT1, from the phloem-feeding insect Nilaparvata lugens (rice brown planthopper)

Phloem-sap feeding Hemipteran insects have access to a sucrose-rich diet but are dependent on sucrose hydrolysis and hexose transport for carbon nutrition. A cDNA library from Nilaparvata lugens (rice brown planthopper) was screened for clones encoding potential transmembrane transporters. A selected cDNA, NlHT1, encodes a 53kDa polypeptide with sequence similarity to facilitative hexose transporters of eukaryotes and prokaryotes, including GLUT1, the human erythrocyte hexose transporter. NlHT1 was expressed as a recombinant protein in the methylotropic yeast Pichia pastoris, and was identified in a membrane fraction isolated from transformed yeast cells. Transport experiments using membrane vesicles containing NlHT1 showed that the protein is a saturable, sodium independent transporter, with a relatively low affinity for glucose (K(m) 3.0mM), which can be inhibited by cytochalasin B. Competition experiments with fructose demonstrate NlHT1 is glucose specific. In situ localisation studies revealed that NlHT1 mRNA is expressed in N. lugens gut tissue, mainly in midgut regions, and that expression is absent in hindgut and Malpighian tubules. NlHT1 is therefore likely to play an important role in glucose transport from the gut, and in carbon nutrition in vivo. This is the first report of a facilitative glucose transporter from a phloem-feeding insect pest.     

Expression and transport characterisation of the wheat low-affinity cation transporter (LCT1) in the methylotrophic yeast Pichia pastoris

The low-affinity cation transporter (LCT1) from wheat (Triticum aestivum) was expressed in the methylotrophic yeast Pichia pastoris and its transport characteristics studied employing Ca(45) and Cd(109). A clone (LCT1#3) with the highest uptake of 14pmol of Ca/10(6)cells/10min when exposed to 100microM Ca(45) was chosen for further Ca(45) and Cd(109) transport characteristics. We report for the first time a K(m) for Ca by LCT1 of 0.43+/-0.15mM Ca activity which confirms LCT1 to be a low affinity transporter. Interestingly, the expression of LCT1 in Pichia resulted in reduced Cd(109) uptake compared to wild type cells, when cells were exposed to >or=60microM Cd. This is the first report of the ability of a heterologously expressed transporter to reduce the activity of endogenous transporter proteins to transport Cd. To our knowledge, this is the first demonstration of functional expression of a plant ion transporter using P. pastoris.     

Expression, purification, and characterization of secreted recombinant human insulin-like growth factor-binding protein-6 in methylotrophic yeast Pichia pastoris

The mitogenic and metabolic activities of insulin-like growth factors (IGF) are modulated by a family of six high-affinity IGF-binding proteins (IGFBPs). This study describes the secretion and purification of the recombinant human IGFBP-6 expressed in methylotrophic yeast Pichia pastoris. In this research, a multicopy expression plasmid pA-O815/3xIGFBP-6 containing 3 copies of human IGFBP-6 expression cassette was constructed and transformed into P. pastoris GS115. The encoding sequence of alpha-factor leading peptide fused in-frame at the 5' end of human IGFBP-6 open reading frame and led expressed IGFBP-6 into the secretory pathway. After transformed cells were induced with methanol, medium supernatant was analyzed by SDS-PAGE and Western blotting. The two major protein bands of approximately 30 and approximately 18kDa were detected. The protein of approximately 30kDa was confirmed to be the glycosylated recombinant human IGFBP-6 (rhIGFBP-6), which was partially proteolyzed by protease Kex2 to produce a approximately 18kDa fragment. Approximately 95% homogeneity of the soluble form of 30kDa rhIGFBP-6 were achieved by two-step purification procedure using ion-exchange chromatography and then hydrophobic-interaction chromatography. The rhIGFBP-6 could be distributed to all of the cell body when cultured MDA-MB-231 cell with rhIGFBP-6 and the activities of rhIGFBP-6 were assayed by [(3)H]thymidine incorporation, which revealed that rhIGFBP-6 inhibited IGF-II-stimulated cell proliferation. Our results demonstrated that functional rhIGFBP-6 can be produced in sufficient quantities by using P. pastoris for further structural and functional studies.     

Cloning and expressing a recombinant human tissue inhibitor of metalloproteinase-2 (TIMP-2) in methylotrophic yeast Pichia pastoris and its characterizations

To obtain human tissue inhibitor of metalloproteinase-2 (TIMP-2)cDNA and the secretory expression of TIMP-2 gene in Pichia pastoris,we designed and synthesized a 618 base pairs artificial gene coding for the TIMP-2 with a computer-aided design method using a standard chemical synthesis technique,which was composed of frequently used codons in the highly expressed Pichia pastoris genes.Then the synthetic gene encoding TIMP-2 was checked by means of dideoxynucleotide sequencing.The verified gene of TIMP-2 was cloned to the Escherichia coli-yeast shuttle vector of pPIC9 to construct a recombinant plasmid pPIC9-T2.The plasmid was transformed into GS115 cells of the methylotrophic yeast,Pichia pastoris by electroporation,and we got the expression cell through phenotype selection and induction with methanol.Separation,purification,and bioactivity analysis of the expressed products were performed.     

人精氨酸酶在毕赤酵母的高效表达、纯化和活性研究

目的：人精氨酸酶（Arginase, Arg）的基因arg在毕赤酵母高效分泌表达,建立相应纯化工艺路线,研究重组人精氨酸酶的活性。方法：将人精氨酸酶基因arg按正确的阅读框架插入到毕赤酵母表达载体pPIC9α信号肽基因后,构建得到重组毕赤酵母表达质粒。转化毕赤酵母GS115筛选高表达菌株。结果：成功构建了酵母表达载体pPIC-Arg,转化毕赤酵母GS115后筛选到分泌表达目的蛋白Arg的菌株,目标蛋白可以分泌到培养基中。经过膜过滤和凝胶过滤层析对培养基上清进行纯化,即可获得纯度达到95%的活性产物。活性测定表明,纯化的Arg比活性为310 IU/mg。结论：成功构建了Arg的毕赤酵母高效表达菌种,建立了目标物质的分离纯化工艺。     

Expression and localization of recombinant human EDG-1 receptors in Pichia pastoris

The receptor for human endothelial differentiation gene-1 protein (EDG-1) was C-terminally tagged with green fluorescent protein and expressed in the methylotrophic yeast, Pichia pastoris. EDG-1 expression was driven by the highly inducible alcohol oxidase 1 promoter. Expression of EDG-1 recombinant protein was detected by Western blot analysis and confocal microscopy. The recombinant EDG-1 receptor protein was located in the plasma membrane. Radioligand binding assays demonstrated that the␣EDG-1 receptors expressed in Pichia pastoris␣have specific and saturation binding of ³²P-labeled sphingosine 1-phosphate.     

Expression of the nucleocytoplasmic tobacco lectin in the yeast Pichia pastoris

The Nicotiana tabacum lectin, also called Nictaba, is a nucleocytoplasmic plant lectin expressed in tobacco leaves after exposure to jasmonates. Purification of the lectin from raw material is a time-consuming process, demanding large amounts of induced plant material. In addition, the lectin yield is low and purified lectin fractions are always contaminated with low molecular weight compounds such as phenols. In a way to improve and facilitate the purification of the tobacco lectin, we cloned the Nictaba gene in a vector optimized for protein expression in the methylotrophic yeast Pichia pastoris. In this report, we present data of the expression profile of recombinant Nictaba in the P. pastoris culture medium and in P. pastoris cells together with the purification strategy using ion exchange chromatography and affinity chromatography on a column with immobilized ovomucoid. Pichia transformants were estimated to express approximately 6mg of recombinant lectin per liter medium after a 72h culture. SDS-PAGE and Western blot analysis revealed that the recombinant lectin expressed in Pichia exists in two molecular forms. Edman degradation and mass spectrometry analysis confirmed the presence of at least two forms of recombinant lectin with molecular weights of 19,060 and 20,100Da, corresponding to lectin polypeptides similar to the fully processed Nictaba which is N-terminally blocked, and Nictaba extended at the N-terminus with the amino acids residues EAEAYVEFT due to incomplete processing of the alpha-factor mating sequence. Further characterisation of the recombinant lectin revealed agglutination and carbohydrate-binding properties similar to the native tobacco lectin.     

人GLP -1- IgG Fc融合蛋白在毕赤酵母中的高效表达

目的:构建GLP-1-IgG Fc融合蛋白分子并在毕赤酵母中实现高效表达.方法:使用蛋白质工程技术改造GLP -1,去除其蛋白酶降解位点,然后利用重叠延伸PCR方法得到改造后的GLP -1与人IgG-Fc片断的嵌合体基因并将其插入pPIC9K载体中.以重组载体转化巴斯德毕赤酵母菌中进行表达.采用SDS-PAGE和Western Blot方法检测重组蛋白的表达.结果:成功的构建了GLP -1-IgG Fc嵌合体基因并使其在重组毕赤酵母中高效分泌表达.在25℃条件下,摇瓶培养添加0.5％甲醇诱导72h后融合蛋白的表达量最大,为5mg/L.SDS-PAGE和Westem-Blot结果表明表达产物为GLP -1-IgG Fc融合蛋白.结论:获得了高效表达GLP -1-IgG Fc融合蛋白的毕赤酵母菌株,为GLP -1-IgG Fc的活性和半衰期测定及下一步的开发奠定了基础,并为在毕赤酵母菌中表达其他Fc融合蛋白和抗体提供了参考.     

人骨保护素在毕赤酵母中的分泌表达及表达产物的生物活性分析(英文)

为了在毕赤酵母表达系统中分泌表达人骨保护素 (osteoprotegerin ,OPG) ,以人骨肉瘤细胞系MG6 3的mRNA为模板 ,采用RT PCR法得到人OPG编码区cDNA ,克隆入毕赤酵母表达载体pPICZ B ,电转化毕赤酵母GS115 (Mut+) ,经 3%甲醇诱导分泌表达人OPG与组氨酸的融合蛋白 .SDS PAGE及Western印迹分析表明 ,有分子量约 6 6kD的目的蛋白表达 .纯化后的表达产物加入体外培养的小鼠骨髓细胞培养基中 ,当浓度为 10 0ng ml时 ,象牙片上骨吸收陷窝的数量及玻片上的TRAP阳性多核细胞的数量均减少 (P <0 0 5 ) .而同时加入人OPG的多克隆抗体后 ,这一抑制作用可被拮抗 ,在浓度为 5 0ng ml时则无此作用 .人OPG蛋白在酵母系统的成功表达 ,为该蛋白的进一步应用研究提供了依据 .     

重组人卵透明带ZP3蛋白在毕赤酵母中的表达

利用P.pastoris表达人卵透明带ZP3蛋白。设计特定引物从全长hZP3 cDNA上扩增含跨膜区序列的人卵透明带ZP3基因片段,并在N末端接上串联组氨酸编码序列的重组基因序列;扩增片段插入表达载体pPIC9K中;线性化后的重组质粒转入P.pastoris中,用高浓度G418筛选高拷贝菌株,然后甲醇诱导目的蛋白表达。用SDS-PAGE和Western blot分析表达产物。结果发现P.pastoris表达的人ZP3蛋白可以分泌到培养液中,并且可溶性好。纯化前后的重组人ZP3蛋白均能与兔抗猪ZP3蛋白抗体发生交叉反应,证实表达的目的蛋白具有反应原性。     

Biochemical and mass spectrometric characterization of the human CB2 cannabinoid receptor expressed in Pichia pastoris--importance of correct processing of the N-terminus

This study was conducted to optimize the expression of human CB2 cannabinoid receptors in methylotrophic yeast Pichia pastoris (P. pastoris). Two major species of expressed CB2 proteins were seen on Western blot, i.e., a 42 kDa band which matches the calculated molecular weight for tagged CB2, and a 52/55 kDa doublet. Treatment of membranes with N-glycosidase F or inclusion of tunicamycin in the culture medium during induction resulted in the disappearance of the 55 kDa, but not the 52 kDa band, suggesting that the 3 kDa extra in the 55 kDa band is due to N-glycosylation, but the 10 kDa extra in the 52 kDa band is not due to N-glycosylation. Anti-FLAG M1 antibody had a much higher preference for the 42 kDa band over the 52/55 kDa doublet, and a 10 kDa fragment recognized by anti-FLAG M2 antibody was generated by CNBr digestion of the 52/55 doublet. These data strongly support the hypothesis that the 10 kDa increase in molecular weight was due to unprocessed alpha-factor sequence. This conclusion was further validated by finding several peptide sequences for alpha-factor fragments at the N-terminal of the CB2 receptor using pepsin/chymotrypsin digestion and LC/MS/MS approaches. Importantly, unprocessed alpha-factor was found to be associated with poor ligand binding. In addition, controlling the level of CB2 protein expression was found to be critical for minimizing the presence of unprocessed alpha-factor sequence. The information gained from this study should aid the proper expression of not only CB2 receptor but also other members of the GPCR family in P. pastoris.     

A comparative study of the human T-cell leukemia virus type 2 integrase expressed in and purified from Escherichia coli and Pichia pastoris

The human T-cell leukemia virus type-2 (HTLV-2) integrase (IN) catalyzes the insertion of the viral genome into the host chromosome. HTLV-2 IN was expressed as an N-terminal hexa-histidine tagged protein in the methylotrophic yeast Pichia pastoris and as a C-terminal hexa-histidine fusion in Escherichia coli. Maximal IN expression was observed at 48h post-induction for the yeast system and 2h post-induction for E. coli. Effective purification strategies were developed using non-ionic and zwitterionic detergents for initial protein extraction, followed by a one-step nickel-chelating chromatography purification. IN from both sources was routinely greater than 90% pure with yields exceeding 1.5mg of purified IN per liter of culture for P. pastoris. The relative pI was defined for both INs, pH 5.0-5.4, by 2D-gel electrophoresis. Specific activities for IN purified from E. coli and P. pastoris were calculated from in vitro 3(') processing assays and were comparable. In vitro IN assays were also performed to optimize reaction buffer pH and metal concentrations for both 3(') processing and strand transfer assays. Strand transfer was optimal from pH 6.2-6.8, more than 1.5 pH units below the optimal 3(') processing pH of 8.3. IN from both sources showed no enhancement in activity with MnCl(2) concentrations greater than 5mM. The specific activity of P. pastoris purified IN was 0.35 product (pmol)/h/microg IN, and E. coli produced IN was 0.48 product (pmol)/h/microg IN.     

人白细胞介素12基因在巴斯德毕赤酵母细胞中的表达(英文)

人白细胞介素 12 (hIL 12 )是人体内具有多种生物学活性的免疫调节因子 ,由p4 0和p35两个亚基经多对二硫键连接而成 .根据hIL 12的结构特点 ,采用LiCl二次转化将hIL 12的p4 0和p35两亚基基因导入巴斯德毕赤酵母X33细胞中 ,并经同源交换分别插入酵母基因组AOX1区域 ,构建成含hIL 12双亚基基因的酵母工程菌PichiapastorisX33 p4 0 p35 .经 0 .5 %甲醇诱导 ,p4 0和p35两亚基在同一酵母细胞中得到了表达 ,并组装成具有生物学活性的hIL 12p70分子     

A system for dual protein expression in Pichia pastoris and Escherichia coli

We have constructed a novel Pichia pastoris/Escherichia coli dual expression vector for the production of recombinant proteins in both host systems. In this vector, an E. coli T7 promoter region, including the ribosome binding site from the phage T7 major capsid protein for efficient translation is placed downstream from the yeast alcohol oxidase promoter (AOX). For detection and purification of the target protein, the vector contains an amino-terminal oligohistidine domain (His6) followed by the hemaglutinine epitope (HA) adjacent to the cloning sites. A P. pastoris autonomous replicating sequence (PARS) was integrated enabling simple propagation and recovery of plasmids from yeast and bacteria (1). In the present study, the expression of human proteins in P. pastoris and E. coli was compared using this single expression vector. For this purpose we have subcloned a cDNA expression library deriving from human fetal brain (2) into our dual expression T7 vector and investigated 96 randomly picked clones. After sequencing, 29 clones in the correct reading frame have been identified, their plasmids isolated and shuttled from yeast to bacteria. All proteins were expressed soluble in P. pastoris, whereas in E. coli only 31% could be purified under native conditions. Our data indicates that this dual expression vector allows the economic expression and purification of proteins in different hosts without subcloning.