Production of native recombinant human midkine in the yeast,Pichia pastoris

Recombinant human midkine (rh-midkine) was efficiently produced in Pichia pastoris using the pre-pro secretion signal of yeast alpha-mating factor under the control of the AOX1 promoter. The pep4 host SMD1168 was used. The expression was induced at pH 3 and 20 degrees C in high cell-density fermentation and approximately 360 mg rh-midkine was secreted into 1L of medium. The authentic midkine could be obtained after one-step purification. Mass spectrometry of purified rh-midkine demonstrated a single large signal for the molecular ion [M + H](+) at 13241.2 m/z. This mass is identical to the authentic, unmodified human midkine. The precursor of rh-midkine was correctly processed in P. pastoris cells, yielding mature rh-midkine. Mass spectrometry detected no yeast-specific O-mannosylations in the purified midkine preparations. The circular dichroic spectrum indicated only a negative Cotton effect at 215 nm. Only beta-structures were indicated for the rh-midkine molecule in solution. Purified rh-midkine was active in a cell-proliferation assay.     

An approach to the removal of yeast specific O-linked oligo-mannoses from human midkine expressed in Pichia pastoris using site-specific mutagenesis

Human midkine is expressed and secreted in the medium under the control of an AOX1 gene promoter in Pichia pastoris using its own secretion signal. The midkine precursor is properly processed to yield the correct amino-terminus of mature midkine. However, more than half of the product receives yeast specific mannosylations. The sites for the mannosylations were determined to be the three threonine residues in the carboxy-terminal region of human midkine. In order to obtain non-mannosylated midkine, alanine residues were substituted for the three threonine residues by site specific mutagenesis. HPLC and mass spectrometry confirmed that the mutant midkine contained almost no mannose residues. Despite the amino acid substitutions in the carboxy-terminal region, mutant human midkine, promoted CHO cell proliferation as well as normal midkine.     

人胰岛素样生长因子Ⅱ在甲醇营养型酵母P.pastoris中的表达、分泌和性质研究

为获得ＩＧＦ－Ⅱ的高效表达,构建了其多拷贝、分泌型表达载体：含有５个串联的ＩＧＦ－Ⅱ表达单元;由受甲醇诱导的醇氧化酶启动子控制表达;利用啤酒酵母α因子的前导肽引导分泌．线形化表达载体转化Ｐ．ｐａｓｔｏｒｉｓ蛋白酶缺陷型菌株后,筛选到有ＩＧＦ－Ⅱ表达和分泌的阳性转化子;进一步优化表达、培养条件后,ＩＧＦ－Ⅱ在高密度发酵上清中的产量可达６０ ｍ ｇ／Ｌ．对Ｐ．ｐａｓｔｏｒｉｓ产生的ｒｈＩＧＦ－Ⅱ的性质分析表明,其具有正确的分子量,Ｎ 端和较好的生物活性．     

Heterologous expression of an engineered truncated form of human Lewis fucosyltransferase (Fuc-TIII) by the methylotrophic yeast Pichia pastoris

A stable GS115 Pichia pastoris recombinant strain was constructed to secrete a truncated form of the human alpha(1,3/4) fucosyltransferase (amino acids 45-361). Enzyme production resulted from a secretory pathway based on the pre-pro- alpha mating factor signal sequence of the yeast Saccharomyces cerevisiae . Following its transit through the Golgi apparatus, the enzyme accumulated in the periplasmic space before its release in the culture broth (about 30 mg/l). Cell-enclosed enzyme ( approximately 0.16%) proved to be fairly stable for many freezing and thawing cycles and could be used several times as an immobilized catalyst. Soluble enzyme (>99.8%) representing the main protein of the culture broth (10%) has been characterized by Western-blotting, substrate specificities and kinetic parameters. The two forms (cell- enclosed and soluble) of recombinant enzyme may be used for in vitro synthesis of Lewisadeterminants.      

Production of humanized Fab fragment against human high affinity IgE receptor in Pichia pastoris

Binding of allergen-IgE complexes to the high affinity IgE receptor (Fc epsilonRI) on mast cells and basophils leads to the release of various mediaters such as histamine. Fab fragments prepared by the papain digestion of humanized antibody against human Fc epsilonRI inhibited the release of histamine from human basophils. Here we established an expression system to directly produce Fab fragments of the humanized anti-human Fc epsilonRI antibody in methylotropic yeast, P. pastoris. Fab fragments were efficiently secreted into the medium at a concentration of 10-40 mg/L using a signal sequence from the P. pastoris phosphatase gene. They were consisted of disulfide-linked light and heavy chains correctly starting from the first amino acid residues by proper cleavage of the signal peptides. The obtained Fab fragments inhibited the binding between IgE and Fc epsilonRI as efficiently as the counterpart prepared by papain digestion of the whole antibody.     

High level expression of a recombinant acid phytase gene in Pichia pastoris

AIMS: To achieve high phytase yield with improved enzymatic activity in Pichia pastoris. METHODS AND RESULTS: The 1347-bp phytase gene of Aspergillus niger SK-57 was synthesized using a successive polymerase chain reaction and was altered by deleting intronic sequences, optimizing codon usage and replacing its original signal sequence with a synthetic signal peptide (designated MF4I) that is a codon-modified Saccharomyces cerevisiae mating factor alpha-prepro-leader sequence. The gene constructs containing wild type or modified phytase gene coding sequences under the control of the highly-inducible alcohol oxidase gene promoter with the MF4I- or wild type alpha-signal sequence were used to transform Pichia pastoris. The P. pastoris strain that expressed the modified phytase gene (phyA-sh) with MF4I sequence produced 6.1 g purified phytase per litre of culture fluid, with the phytase activity of 865 U ml(-1). The expressed phytase varied in size (64, 67, 87, 110 and 120 kDa), but could be deglycosylated to produce a homogeneous 64 kDa protein. The recombinant phytase had two pH optima (pH 2.5 and pH 5.5) and an optimum temperature of 60 degrees C. CONCLUSIONS: The P. pastoris strain with the genetically engineered phytase gene produced 6.1 g l(-1) of phytase or 865 U ml(-1) phytase activity, a 14.5-fold increase compared with the P. pastoris strain with the wild type phytase gene. SIGNIFICANCE AND IMPACT OF THE STUDY: The P. pastoris strain expressing the modified phytase gene with the MF4I signal peptide showed great potential as a commercial phytase production system.     

不同分泌信号对豹蛙酶在巴斯德毕赤酵母中分泌效率的影响

目的：研究不同分泌信号对豹蛙酶（ONC）在巴斯德毕赤酵母中分泌效率的影响。方法：根据已知天然ONC的氨基酸序列,结合酵母偏爱密码子,设计并合成了ONC基因序列,通过融合PCR获得了不同分泌信号与ONC的融合基因,将其克隆至表达载体pPIC9k中,然后将线性化的重组表达载体电击转化GS115毕赤酵母感受态细胞,通过SDS-PAGE检测目的蛋白表达量。结果：糖基化ONC表观相对分子质量为（14～16）×103,且其糖基化不均匀,非糖基化蛋白肽链的相对分子质量约为12×103;采用不含EAEA结构的α交配因子作为分泌信号时ONC没有表达,利用含EAEA结构的α交配因子和α交配因子的pre肽作为分泌信号时均能够显著提高其表达量。结论：采用含EAEA结构的α交配因子和α交配因子的pre肽作为分泌信号均能够显著提高ONC在巴斯德毕赤酵母中的表达量。     

Expression,characterization, and purification of recombinant porcine lactoferrin in Pichia pastoris

Recombinant porcine lactoferrin (rPLF) was synthesized in Pichia pastoris using a constitutive promoter from the glyceraldehyde-3-phosphate dehydrogenase gene. Strains expressing rPLF with its own signal sequence or with that from the yeast alpha-mating factor (alpha-MF) were able to produce and secrete rPLF, but levels were consistently higher using alpha-MF constructs. In contrast, P. pastoris strains that expressed rPLF without a signal sequence produced the protein in an insoluble intracellular form. Increasing the initial pH of shake-flask culture medium from 6.0 to 7.0 or adding ferric ions to the medium (to 100 microM) resulted in significant improvements in expression of rPLF from P. pastoris. Expression levels (approximately 12 mg/L) were much higher than those observed from Saccharomyces cerevisiae strains (1-2 mg/L). P. pastoris-secreted rPLF was isolated and purified via a one-step simple procedure using a heparin column. The molecular size (78 kDa), isoelectric point (8.8-9.0), N-terminal amino acid sequence, and iron-binding capability of rPLF were each similar to that of native milk PLF.     

Functional expression in Pichia pastoris of human and rat intrinsic factor

Intrinsic factor (IF) has been expressed previously in Baculovirus with a yield (0.1-1 mg/l) that was inadequate for structural and metabolic studies. IF cDNAs were cloned into the shuttle vector pPIC9 of P. pastoris, and the proteins were induced and purified by cobalamin (Cbl) affinity chromatography. Expression of recombinant proteins revealed a major band of 49 kDa for both human and rat IF. Expression of human IF was achieved at 1040 mg/l, but of rat IF at only 1-2 mg/l. Reaction of human IF with a photo-activatable derivative of Cbl was demonstrated by Western blotting, and detection of IF fragments by anti-Cbl monoclonal antibody and by amino-terminal sequencing revealed at least three regions (residues 129-151, 234-254, and +294) linked to Cbl. Both recombinant human and rat [125I]IF-Cbl bound to rat and guinea pig brush border membranes with similar affinity, but the binding capacity of human IF for the rat receptor was only 10% compared with rat IF. All six amino acids within the previously identified N-terminal binding region of human IF were mutated to be identical to rat IF, but the resulting chimeric IF still bound poorly to rat membranes. Mutations of residues 26/27 (Glu26 to Asp and Asn27 to Gln) and 32/34 (Ser32 to Thr and Tyr34 to Arg) showed changes in both Ka and Vmax, with great effects on Vmax. In conclusion, P. pastoris is an expression system that produces functional human IF at a higher yield than in the baculovirus system. Cbl binding was directly demonstrated at multiple sites along the linear sequence of human IF. The receptor binding function of the amino terminal sequence 25 62 has been confirmed, but it is insufficient to reproduce all the features of IF-Cbl binding.     

High-level expression of nonglycosylated human pancreatic lipase-related protein 2 in Pichia pastoris

The human pancreatic lipase-related protein 2 (HPLRP2) was produced in the methylotrophic yeast Pichia pastoris. The HPLRP2 cDNA corresponding to the protein coding sequence including the native signal sequence, was cloned into the pPIC9K vector and integrated into the genome of P. pastoris. P. pastoris transformants secreting high-level rHPLRP2 were obtained and the expression level into the liquid culture medium reached about 40mg/L after 4 days of culture. rHPLRP2 was purified by a single anion-exchange step after an overnight dialysis. N-terminal sequence analysis showed that the purified rHPLRP2 mature protein possessed a correct N-terminal amino acid sequence indicating that its signal peptide was properly processed. Mass spectrometry analysis showed that the recombinant HPLRP2 molecular weight was 52,532Da which was 2451Da greater than the mass calculated from the sequence of the protein (50,081Da) and 1536Da greater than the mass of the native human protein (50,996Da). In vitro deglycosylation experiments by peptide:N-glycosidase F (PNGase F) indicated that rHPLRP2 secreted from P. pastoris was N-glycosylated. Specific conditions were setup in order to obtain a recombinant protein free of glycan chain. We observed that blocking glycosylation in vivo by addition of tunicamycin in the culture medium during the production resulted in a correct processing of the rHPLRP2 mature protein. The lipase activity of glycosylated or nonglycosylated rHPLRP2, which was about 800U/mg on tributyrin, was inhibited by the presence of bile salts and not restored by adding colipase. In conclusion, the experimental procedure which we have developed will allow us to get a high-level production in P. pastoris of glycosylated and nonglycosylated rHPLRP2, suitable for subsequent biophysical and structural studies.     

Expression of xyloglucan endotransglycosylases of Gerbera hybrida and Betula pendula in Pichia pastoris

The plant enzyme xyloglucan endotransglycosylase (XET; EC 2.4.1.207, xyloglucan:xyloglucosyl transferase) participates in selective modification of plant cell walls during cell growth. XETs are potential catalysts in various applications. Here, sequences encoding two XETs from Gerbera hybrida and Betula pendula are reported. The encoded proteins, which are 51% identical at the amino acid level, were expressed in the yeast Pichia pastoris in secreted form with the aid of mating factor alpha signal sequence. XET production in shake flask cultivations was better at 22 degrees C than at 30 degrees C. Both the yield of protein of expected molecular mass and the XET activity improved at the lower temperature. Under all cultivation conditions studied, higher amounts of XET from B. pendula (BXET) were expressed than XET from G. hybrida (GXET). Both XET enzymes were produced in 16l fed-batch bioreactor cultures. GXET was produced in methanol-limited fed-batch cultivation in minimal medium, and BXET in temperature-limited fed-batch (TLFB) in minimal or complex medium. Production was highest in TLFB in complex medium. BXET was purified from the culture filtrate and characterized. Based on the specific activity of the purified protein, 60-70 mg l(-1) BXET was produced in the TLFB in complex medium.     

The conformation of mature human alpha-amylase conditions its secretion from yeast

The yeast Saccharomyces cerevisiae expresses the cloned cDNA (Amy) encoding human salivary alpha-amylase (Amy) under control of the yeast PHO5 promoter, and secretes the active enzyme into the culture medium. Two approaches were utilized to define the moiety of Amy, which is required for proper secretion and glycosylation. In one approach, chimeras were constructed with a variety of secretion signal sequences (yeast mating factor precursor sequence, yeast acid phosphatase signal sequence and human gastrin signal sequence) fused to the secretion signal-deleted Amy cDNA. The other approach involved analysis of a set of deletion series and a set of point mutations in the Amy-encoding region. The results showed that heterologous signal sequences were sufficient for proper secretion in yeast, irrespective of the insertion of some extra amino acids. In most cases, enzymes with deletions and Cys-465 substitution were not secreted, even though they had complete secretion signal sequences. Instead, they accumulated in the cell in a glycosylated form. Thus, proper secretion seems to require an appropriate conformation in the polypeptide moiety to be secreted.     

Improved expression of Rhizopus oryzae α-amylase in the methylotrophic yeast Pichia pastoris

In our previous study, the α-amylase from Rhizopus oryzae (RoAmy) was expressed in Escherichia coli and Saccharomyces cerevisiae but the obtained recombinant RoAmy (rRoAmy) yields were too low. The aim of the present research was to obtain high-level expressions of RoAmy in the methylotrophic yeast Pichia pastoris. To this end, we constructed P. pastoris strains with the capability to express recombinant α-amylase under the control of constitutive glyceraldehyde-3-phosphate dehydrogenase (GAP) and methanol-inducible alcohol oxidase 1 promoters. The levels of inducibly expressed rRoAmy were higher than those of constitutively expressed. The maximal inducible rRoAmy expression levels for the Mut(+) strains (41.1mg/l) were approximately eight times higher than those for the Mut(s) strains and 24 times higher than those expressed under the control of the GAP promoter. For both inducible and constitutive expressions, the S. cerevisiae α-prepro sequence and the native signal sequence of RoAmy were used separately to direct the secretion of rRoAmy into the culture medium of P. pastoris. Low levels of intracellular amylase activities that had been detected after shake-flask fermentation indicated that both signal sequences could effectively direct the secretion of rRoAmy under all studied conditions. In addition, the secretion levels of rRoAmy directed with its own signal peptide were 7-10% higher than those directed by the α-prepro sequence.     

Heterologous expression of wild type and deglycosylated human sex steroid-binding protein (SBP or SHBG) in the yeast, Pichia pastoris. Characterization of the recombinant proteins.

Wild type, partially and fully-deglycosylated human sex steroid-binding protein (SBP or SHBG) cDNAs lacking the native cucaryotic signal sequence were cloned into a yeast expression vector containing the Saccharomyces cerevisiae alpha-factor for extracellular secretion. Following transformation into Pichia pastoris, the wild type and all constructed mutants were successfully expressed. The levels were lower for the deglycosylated mutants indicating that oligosaccharide side chains may play a role in SBP secretion. Under fermentation conditions, the wild type protein was expressed at a level of 4 mg/l while the fully-deglycosylated mutant T7A/N351Q/N367Q was expressed at about 1.5 mg/l. The latter was purified from several fermentation runs and was found to be completely deglycosylated, electrophoretically homogeneous and fully active. The aminoterminus was found to have the sequence NH2QSAHDPPAV- indicating that cleavage of the alpha-factor occurred at the A(+7)-Q(+8) peptide bond. The molecular mass of the subunit was determined to be 39,717.8 Da, which is in complete agreement with the amino acid sequence of the T7A/N351Q/N367/Q mutant. The equilibrium constants for the dissociation of 5alpha-dihydrotestosterone and steroid binding specificity were found to be identical to that of the human plasma protein indicating that the missing N-terminal segment NH2-LRPVLPT and the removal of oligosaccharide side chains do not affect the stability and active conformation of the protein. In conclusion, the data presented reveal that the SBP mutant T7A/N351Q/N367/Q is the protein of choice for solving the three-dimensional structure.     

Selective expression of nonsecreted triple-helical and secreted single-chain recombinant collagen fragments in the yeast Pichia pastoris

High-level recombinant expression systems for the production of stable triple-helical human collagens and collagen fragments have been developed in the yeast Pichia pastoris. Collagen fragments are secreted as single-chain polypeptides by the yeast alpha-mating factor pre-pro sequence, but secretion of full-length triple-helical procollagen molecules has not been achieved despite the use of the same secretory signal. We studied here the effects of the secretory signal and the conformation and size of the collagen polypeptide on its secretion in P. pastoris. Unlike the collagen signal sequence, the alpha-mating factor pre-pro sequence led to efficient secretion of single-chain 45 and 9 kDa type I collagen fragments. The efficiency was dependent on the length of the collagen polypeptide, as secretion of single-chain full-length 90 kDa alpha1(I) polypeptides was less efficient than that of the 45 kDa fragment. Furthermore, the conformation of the collagen polypeptides had a marked effect on secretion, as induction of trimerization of the 45 and 9 kDa fragments by either the C propeptide or the small trimerizing domain foldon led to an accumulation of triple-helical molecules inside the cells despite the presence of the alpha-mating factor pre-pro sequence. Our results show that P. pastoris is a suitable host for the development of tailored expression systems aimed at selective production of nonsecreted triple-helical and secreted single-chain collagen fragments of varying lengths for specific purposes.     

人血管抑制素在酿酒酵母中的分泌表达和活性鉴定

将酵母交配因子 (MF)α1信号肽编码序列和人血管抑制素 (hAGN)cDNA融合序列插入穿梭载体pYADE4 ,构建得到分泌型重组表达质粒pYADEMA18.转化酿酒酵母JG110 7后 ,用 2 %乙醇和2 %甘油联合诱导表达 .ELISA分析表明 ,在诱导 14h～ 30h期间 ,hAGN获得了表达并分泌至细胞外 .发酵上清液经 75 %饱和度硫酸铵沉淀、CM 5 2纤维素离子交换层析和Superdex 75凝胶过滤层析纯化 .SDS PAGE分析显示 ,表达产物重组人血管抑制素 (rhAGN)相对分子质量约 5 0kD ,电泳纯度达到 94 %.生物活性分析证明 ,rhAGN在 0 0 1mg L～ 3 0mg L浓度范围内能够抑制人真皮内皮细胞株HDMEC增殖 ,抑制作用随剂量的增加而增强 .     

Recombinant human serum amyloid P component from Pichia pastoris: production and characterization

Human serum amyloid P component (SAP) was expressed in the methylotrophic yeast Pichia pastoris. SAP cDNA was placed under control of regulatory sequences derived from the alcohol oxidase gene (AOX1), and its protein product was secreted using the Saccharomyces cerevisiae alpha-mating factor signal sequence. Recombinant SAP (r-SAP) was produced in a bioreactor with computer controlled fed-batch mode and purified by use of a C-terminal histidine tag. The yield of purified r-SAP was 3-4mg from 1L supernatant and 5-6mg from 1L cell paste, indicating that the majority of the produced SAP was not secreted. Treatment of the cell paste with EDTA increased the yield further by about 30%. The N-terminal of r-SAP purified from the supernatant showed non-complete cleavage of the alpha-mating factor signal sequence. Purified r-SAP, analyzed under native conditions, was shown to be a decamer, like purified human SAP (h-SAP), with monomers of 27kDa. Each monomer had one N-glycosylation site, positioned at the same site as for h-SAP. r-SAP bound to antibodies produced against h-SAP. Furthermore, r-SAP bound to ds DNA and influenza A virus subunits in a Ca(2+)-dependent manner and inhibited influenza A virus hemagglutination. These results indicate that r-SAP produced in P. pastoris has the same biological activity as purified h-SAP.     

Accumulation of properly folded human type III procollagen molecules in specific intracellular membranous compartments in the yeast Pichia pastoris.

It was recently reported that co-expression of the proalpha1(III) chain of human type III procollagen with the subunits of human prolyl 4-hydroxylase in Pichia pastoris produces fully hydroxylated and properly folded recombinant type III procollagen molecules (Vuorela, A., Myllyharju, J., Nissi, R., Pihlajaniemi, T., Kivirikko, K.I., 1997. Assembly of human prolyl 4-hydroxylase and type III collagen in the yeast Pichia pastoris: formation of a stable enzyme tetramer requires coexpression with collagen and assembly of a stable collagen requires coexpression with prolyl 4-hydroxylase. EMBO J. 16, 6702-6712). These properly folded molecules accumulated inside the yeast cell, however, only approximately 10% were found in the culture medium. We report here that replacement of the authentic signal sequence of the human proalpha1(III) with the Saccharomyces cerevisiae alpha mating factor prepro sequence led only to a minor increase in the amount secreted. Immunoelectron microscopy studies indicated that the procollagen molecules accumulate in specific membranous vesicular compartments that are closely associated with the nuclear membrane. Prolyl 4-hydroxylase, an endoplasmic reticulum (ER) lumenal enzyme, was found to be located in the same compartments. Non-helical proalpha1(III) chains produced by expression without recombinant prolyl 4-hydroxylase likewise accumulated within these compartments. The data indicate that properly folded recombinant procollagen molecules accumulate within the ER and do not proceed further in the secretory pathway. This may be related to the large size of the procollagen molecule.     

Haptotactic migration induced by midkine. Involvement of protein-tyrosine phosphatase zeta. Mitogen-activated protein kinase, and phosphatidylinositol 3-kinase

Midkine, a heparin-binding growth factor, plays a critical role in cell migration causing suppression of neointima formation in midkine-deficient mice. Here we have determined the molecules essential for midkine-induced migration. Midkine induced haptotaxis of osteoblast-like cells, which was abrogated by the soluble form of midkine or pleiotrophin, a midkine-homologous protein. Chondroitin sulfate B, E, chondroitinase ABC, B, and orthovanadate, an inhibitor of protein-tyrosine phosphatase, suppressed the migration. Supporting these data, the cells examined expressed PTPzeta, a receptor-type protein-tyrosine phosphatase that exhibits high affinity to both midkine and pleiotrophin and harbors chondroitin sulfate chains. Furthermore, strong synergism between midkine and platelet-derived growth factor in migration was detected. The use of specific inhibitors demonstrated that mitogen-activated protein (MAP) kinase and protein-tyrosine phosphatase were involved in midkine-induced haptotaxis but not PDGF-induced chemotaxis, whereas phosphatidylinositol 3 (PI3)-kinase and protein kinase C were involved in both functions. Midkine activated both PI3-kinase and MAP kinases, the latter activation was blocked by a PI3-kinase inhibitor. Midkine further recruited PTPzeta and PI3-kinase. These results indicate that PTPzeta and concerted signaling involving PI3-kinase and MAP kinase are required for midkine-induced migration and demonstrate for the first time the synergism between midkine and platelet-derived growth factor in cell migration.