Efficient secretion of human parathyroid hormone by Saccharomyces cerevisiae

A cDNA encoding mature human parathyroid hormone (hPTH) was expressed in Saccharomyces cerevisiae, after fusion to the prepro region of yeast mating factor alpha (MF alpha). Radioimmunoassay showed high levels of hPTH immunoreactive material in the growth medium (up to 10 micrograms/ml). More than 95% of the immunoreactive material was found extracellularly as multiple forms of hormone peptides. Three internal cleavage sites were identified in the hPTH molecule. The major cleavage site, after a pair of basic amino acids (aa) (Arg25Lys26 decreases Lys27), resembles that recognized by the KEX2 gene product on which the MF alpha expression-secretion system depends. The use of a protease-deficient yeast strain and the addition of high concentrations of aa to the growth medium, however, not only changed the peptide pattern, but also resulted in a significant increase in the yield of intact hPTH (1-84) (more than 20% of the total amount of immunoreactive material). The secreted hPTH (1-84) migrates like a hPTH standard in two different gel-electrophoretic systems, co-elutes with standard hPTH on reverse-phase high-performance liquid chromatography, reacts with two hPTH antibodies raised against different parts of the peptide, has a correct N-terminal aa sequence, and has full biological activity in a hormone-sensitive osteoblast adenylate cyclase assay.     

Use of high culture pH for the decreased proteolysis of human parathyroid hormone secreted by Saccharomyces cerevisiae

Human parathyroid hormone (hPTH) was expressed and secreted in Saccharomyces cerevisiae. In batch fermentations performed at pH = 5.6, 6.5, 7.2 and 7.5, optimal production of hPTH (12.1 mg/l) was obtained at pH 7.2 after 24 h of culture. At pH 5.6, most of secreted hPTH was degraded. Proteolysis of hPTH was significantly decreased by increasing the culture pH.     

Isolation and characterization of two biologically active O-glycosylated forms of human parathyroid hormone produced in Saccharomyces cerevisiae. Identification of a new motif for O-glycosylation.

Expression and secretion of human parathyroid hormone in Saccharomyces cerevisiae were achieved by fusing a cDNA encoding the mature human parathyroid hormone (hPTH) to the preproregion of the yeast mating factor alpha. Purified hPTH from yeast-culture medium was found to contain, in addition to the native unglycosylated form, two mannosylated variants with different molecular masses. The three hPTH forms were processed identically, resulting in the same 84 amino acid polypeptides with amino acid sequences identical to the native hormone. In both the O-glycosylated forms that were separated by isocratic reverse-phase HPLC, two mannose-linked residues were localized to Thr79. In addition, the most glycosylated form showed a heterogeneous modification of three, four or five mannosyl residues linked at Ser66. Lysine is N-terminally located to Ser66 and probably stimulates this glycosylation, which introduces a possible new motif for O-glycosylation in yeast. The two glycosylated forms of hPTH had similar biological activity which was identical to the native form of hPTH in a hormone-sensitive adenylate cyclase assay in bone sarcoma cells. Thus, a C-terminal O-glycosylation of hPTH with up to seven mannosyl residues/molecule did not affect the biological activity of the hormone, making possible production of hPTH with potential different pharmacokinetic properties.     

Characterization of a K26Q site-directed mutant of human parathyroid hormone expressed in yeast

Human parathyroid hormone (hPTH) is susceptible to proteolytical cleavage both in humans and when expressed as a secretory product in Escherichia coli (H?gseth, A., Blingsmo, O. R., Saether, O., Gautvik, V. T., Holmgren, E., Hartmanis, M., Josephson, S., Gabrielsen, O. S., Gordeladze, J. O., Alestr?m, P., and Gautvik, K. M. (1990) J. Biol. Chem. 265, 7338-7344) and Saccharomyces cerevisiae (Gabrielsen, O. S., Reppe, S., Saether, O., Blingsmo, O. R., Sletten, K., Gordeladze, J. O., H?gset, A., Gautvik, V. T., Alestr?m, P., Oyen, T. B., and Gautvik, K. M. (1990) Gene (Amst.) 90, 255-262). In the latter system, one major site of cleavage was identified (Arg25-Lys26 decreased Lys27). To produce hPTH resistant to this proteolytic processing, a point mutation changing Lys26 to Gln was introduced, and the modified gene expressed in S. cerevisiae as a fusion protein with the alpha-factor leader sequence. The resulting major form of hPTH secreted to the growth medium was of full length showing that the mutation had eliminated internal processing. Consequently, the yield of the mutant hormone was significantly higher than obtained with the natural peptide. Using improved purification procedures, a significantly higher purity was also obtained. The secreted mutant hPTH-(1-84,Q26) had the correct size, full immunological reactivity with two different hPTH antisera, correct amino acid composition and N-terminal sequence, and correct mass as determined by mass spectrometry. Furthermore, the introduced mutation did not reduce the biological activity of the hormone as judged from its action in three biological assay systems: 1) a hormone-sensitive osteoblast adenylate cyclase assay; 2) an in vivo calcium mobilizing assay in rats; and 3) an in vitro bone resorption assay.     

Effect of human parathyroid hormone on the cAMP production and the endocrine functions of trophoblast cells from first trimester placenta.

Our previous study on teratocarcinoma cells suggested the role of human parathyroid hormone (hPTH) in early development of the placenta. The purpose of this study was to evaluate the possible role of hPTH on the functions of first trimester trophoblast cells. Adenylate cyclase activity in crude membranes from first trimester human placental villous tissue is stimulated 2-fold by hPTH (1-34) (10(-6) mol.l-1) from 265 +/- 32 to 532 +/- 80 pmol of cAMP/mg protein/15 min. A similar stimulation of adenylate cyclase is observed in human term placental villous tissue but not in 3 different choriocarcinoma cell lines. In order to evaluate the possible role of hPTH on the functions of first trimester human trophoblast cells, these cells were isolated by dispase and cultured (2 x 10(5) cells per plate) in DMEM supplemented with 20% fetal calf serum with or without 100 ng/ml of epidermal growth factor (EGF), for 4 d. On d 2 of culture, hPTH (10(-7) mol.l-1) stimulates cAMP production of these cells from 0.52 +/- 0.2 to 2.58 +/- 0.57 pmol.h-1 per 10(6) cells (mean +/- SEM). As compared to control (30 ng/ml), the output of hCG is increased by 1.5- (NS), 2- (P less than 0.01) and 3- (P less than 0.01) fold by EGF, hPTH, and hPTH added with EGF, respectively. Dibutyryl cAMP (10(-3) mol.l-1) increased hCG secretion by 3-fold (P less than 0.05). EGF and hPTH added separately or together significantly stimulated (P less than 0.01) the secretion of free alpha subunit 2-fold from 35 ng/ml to 70 ng/ml. In contrast, hPTH and EGF added separately did not change the secretion of free beta hCG. However, added together, they significantly increased (P less than 0.01) the secretion of free beta hCG after 48 h of culture, maximal stimulation (2.5 fold) being observed at d 4 of culture. In conclusion, human trophoblast cells are target cells for hPTH. hPTH acts in association with EGF in promoting expression of endocrine activity of these cells, such as hCG secretion. Trophoblast cells provide a model for the study of the cooperative effect between a peptide hormone and a growth factor in the regulation of endocrine function.     

Invertase gene (SUC2) of Saccharomyces cerevisiae as a dominant marker for transformation of Pichia pastoris

A two-step method for the selection of transformants of prototrophic industrial strains of the methylotrophic yeast Pichia pastoris has been developed. This method is based on our observation that P. pastoris cannot use sucrose as the sole carbon source (Suc-) and that introduction of the invertase gene (SUC2) of Saccharomyces cerevisiae renders P. pastoris Suc+. P. pastoris was transformed with a plasmid which contains the SUC2 gene of S. cerevisiae and an autonomously replicating sequence PARS1 from P. pastoris. The transformants were initially allowed to regenerate on medium containing dextrose and the regenerated cells were pooled and plated on sucrose medium to screen for Suc+ transformants. It was shown that the Suc+ transformants of P. pastoris with the autonomously replicating plasmid were highly unstable with respect to the plasmid maintenance, even when grown on sucrose as the sole carbon and energy source. This high instability was attributed to an efficient cross-feeding by Suc- segregants on glucose and fructose generated due to hydrolysis of sucrose by the invertase enzyme secreted by Suc+ cells. Spontaneous integration of the plasmid DNA resulting in a stable Suc+ phenotype was also observed. However, stable Suc+ transformants were obtained more readily by integration of SUC2 into P. pastoris genome following transformation with a linearized plasmid with the ends homologous to P. pastoris HIS4 locus. All such integrants were completely stable for Suc+ phenotype after 20 generations of growth in a nonselective medium.     

Simple approach to reducing proteolysis during secretory production of human parathyroid hormone in Saccharomyces cerevisiae

A gene coding for human parathyroid hormone (hPTH) was synthesized and cloned into a yeast expression and secretion vector containing the mating factor alpha pre-pro leader sequence and the galactose-inducible promoter, GAL10. The intact hPTH(1-84) was found to be secreted into the culture medium. As observed in the previous reports on the secretory production of hPTH in yeast, however, the proteolytic cleavage occurred as the culture proceeded, resulting in a significant loss of the intact hPTH. Attempts were therefore made to reduce the extent of proteolysis by simply controlling the culture conditions. The proteolytic cleavage was significantly reduced by the addition of an excess amount of l-arginine (>/=0.2M) to the culture medium, which resulted in a marked improvement in the yield of intact hPTH. To examine whether l-arginine affects the activities of intracellular proteases such as KEX2 endoproteinase or extracellular proteases, the proteolysis experiments were performed by incubating the commercial intact hPTH in a yeast host culture supernatant. The results demonstrated that l-arginine at high concentrations reduced the rate of hPTH proteolysis by inhibiting extracellular proteases.     

Expression,purification, and characterization of recombinant human neurturin secreted from the yeast Pichia pastoris

Neurturin (NTN), a potent neurotrophic factor acting specifically on dopaminergic neurons, is comprised of 102 amino acids as a mature protein. We artificially synthesized a gene for mature human NTN (hNTN) using codons preferred by the yeast Pichia pastoris. This synthesized gene, fused in frame with sequences encoding the alpha-factor signal peptide gene from Saccharomyces cerevisiae was cloned into P. pastoris expression vector pPIC9K. The recombinant plasmid pPIC9K-alpha-hNTN was then transformed into the yeast and stable multicopy recombinant P. pastoris strains were selected by G418 resistance. SDS-PAGE and Western blot assays of culture broth from a methanol-induced expression strain demonstrated that recombinant hNTN, a 16kDa glycosylated protein, was secreted into the culture medium. The recombinant protein was purified to greater than 95% using CM-Sepharose ion exchange and Superdex 75 size-exclusion chromatography steps. Bioactivity of the recombinant hNTN was confirmed by the ability of the protein to stimulate growth of nerve fibers from the dorsal root ganglia of chick embryos in vitro.     

Recombinant shrimp (Litopenaeus vannamei) trypsinogen production in Pichia pastoris

Shrimp (Litopenaeus vannamei) trypsinogen has never been isolated from its natural source. To assess the production of L. vannamei trypsinogen, we engineered Pichia pastoris strains and evaluated two culture approaches with three induction culture media, to produce recombinant shrimp trypsinogen for the first time. The trypsinogen II cDNA was fused to the signal sequence of the Saccharomyces cerevisiae alpha mating factor, placed under the control of the P. pastoris AOX1 promoter, and integrated into the genome of P. pastoris host strain GS115. Using standard culture conditions for heterologous gene induction of a GS115 strain in shake flasks, recombinant shrimp trypsinogen was not detected by SDS‐PAGE and Western blot analysis. Growth kinetics revealed a toxicity of recombinant shrimp trypsinogen or its activated form over the cell host. Thus, a different culture approach was tested for the induction step, involving the use of high cell density cultures, a higher frequency of methanol feeding (every 12 h), and a buffered minimal methanol medium supplemented with sorbitol or alanine; alanine supplemented medium was found to be more efficient. After 96 h of induction with alanine supplemented medium, a 29‐kDa band from the cell‐free culture medium was clearly observed by SDS‐PAGE, and confirmed by Western blot to be shrimp trypsinogen, at a concentration of 14 μg/mL. Our results demonstrate that high density cell cultures with alanine in the induction medium allow the production of recombinant shrimp trypsinogen using the P. pastoris expression system, because of improved cell viability and greater stability of the recombinant trypsinogen. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

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．     

Expression and purification of dalcochinase, a beta-glucosidase from Dalbergia cochinchinensis Pierre, in yeast and bacterial hosts

The coding sequence of the mature dalcochinase, a beta-glucosidase from Dalbergia cochinchinensis Pierre, was cloned and expressed in various systems. Expression in Escherichia coli resulted in an insoluble protein, which could be made soluble by co-expression with bacterial chaperonin GroESL. However, the enzyme had no activity. Recombinant expression in Pichia pastoris and Saccharomyces cerevisiae yielded an active enzyme. Dalcochinase was expressed under methanol induction in P. pastoris, since this was much more efficient than constitutive expression in P. pastoris or in S. cerevisiae. Addition of 0.5% casamino acids to the culture medium stabilized the pH of the culture and increased the protein yield by 3- to 5-folds. Insertion of a polyhistidine-tag either after the N-terminal alpha factor signal sequence or at the C-terminus failed to assist in purification by immobilized metal-ion affinity chromatography (IMAC) due to post-translational processing at both termini. A new construct of dalcochinase with an N-terminal truncation following the propeptide and eight histidine residues enabled its purification by IMAC, following hydrophobic interaction chromatography. The purified recombinant dalcochinase was apparently composed of differently post-translationally modified forms, but had kinetic properties and pH and temperature optima comparable to natural dalcochinase. The procedures reported here overcome the limitation in enzyme supply from natural sources, and allow further studies on structure-function relationships in this enzyme.     

Expression and characterization of a recombinant human parathyroid hormone secreted by Escherichia coli employing the staphylococcal protein A promoter and signal sequence

Human parathyroid hormone (hPTH) is a peptide hormone consisting of 84 amino acids (hPTH(1-84)). Employing the promoter and signal sequence of Staphylococcus aureus-protein A we have expressed hPTH in Escherichia coli. The expressed proteins are excreted to the growth medium, allowing for rapid and easy purification of the desired products. By amino acid sequence analysis and mass spectrometry, we have shown that the major excreted product is correctly processed human identical hPTH(1-84). The purified recombinant hPTH(1-84) stimulates adenylate cyclase activity in rat osteosarcoma cell membranes to exactly the same extent as synthetic parathyroid hormone standards, indicating that the recombinant product has full biological activity.     

Production of glycosylated thermostable Providencia rettgeri penicillin G amidase in Pichia pastoris

Penicillin G amidase from Providencia rettgeri is a heterodimer of 92 kDa. We have previously expressed the Pr. rettgeri pac gene coding for this enzyme in Saccharomyces cerevisiae, and now we report the expression and characterization in the methylotrophic yeast Pichia pastoris. The recombinant catalytically active enzyme (rPAC(Pr)) was secreted from shake flask-grown P. pastoris cells into the medium at a level of approximately 0.18 U ml(-1). This yield of rPAC(Pr) was higher, by two orders of magnitude, than that obtained using a single-copy expression plasmid in S. cerevisiae. In addition, the secreted recombinant enzyme was entirely N-glycosylated. The recombinant PAC(Pr) was further characterized in terms of specific activity, kinetic parameters and thermostability. Except the significantly higher thermostability of the glycosylated rPAC(Pr) produced in P. pastoris, the other parameters were very similar to those of the corresponding non-glycosylated enzymes produced in bacteria or in S. cerevisiae. The higher thermostability of this recombinant enzyme has a clear industrial advantage.     

猪干扰素-γ基因在毕赤酵母中的分泌表达

将去除信号肽的猪干扰素-γ（PoIFN-γ）基因置于酿酒酵母α因子分泌信号的DNA序列后, 构建成pPIC9K-α-PoIFN-γ分泌型重组表达载体, 电转化导入毕赤酵母GS115中,经G418筛选后获得2株多拷贝插入的重组子。SDS-PAGE和Western blot分析结果表明,所获得的重组子能够分泌表达出17kD和23kD左右的PoIFN-γ特异蛋白,其表达量为108mg/L,占培养液总蛋白的60%。实验首次在毕赤酵母表达系统中实现了PoIFN-γ基因的分泌表达。     

Optimization of chemically defined medium for recombinant Pichia pastoris for biomass production

A chemically defined medium was optimized for the maximum biomass production of recombinant Pichia pastoris in the fermentor cultures using glycerol as the sole carbon source. Optimization was done using the statistical methods for getting the optimal level of salts, trace metals and vitamins for the growth of recombinant P. pastoris. The response surface methodology was effective in optimizing nutritional requirements using the limited number of experiments. The optimum medium composition was found to be 20 g/L glycerol, 7.5 g/L (NH4)2SO4, 1 g/L MgSO4.7H2O, 8.5 g/L KH2PO4, 1.5 mL/L vitamin solution and 20 mL/L trace metal solution. Using the optimized medium 11.25 g DCW/L biomass was produced giving a yield coefficient of 0.55 g biomass/g of glycerol in a batch culture. Chemostat cultivation of recombinant P. pastoris was done in the optimized medium at different dilution rates to determine the kinetic parameters for growth on glycerol. Maximum specific growth rate of 0.23 h(-1) and Monod saturation constant of 0.178 g/L were determined by applying Monod model on the steady state data. Products of fermentation pathway, ethanol and acetate, were not detected by HPLC even at higher dilution rates. This supports the notion that P. pastoris cells grow on glycerol by a respiratory route and are therefore an efficient biomass and protein producers.     

High-level expression of recombinant phospholipase C from Bacillus cereus in Pichia pastoris and its characterization

The phospholipase c (plc) gene from Bacillus cereus was cloned into the pPICZC vector and integrated into the genome of Pichia pastoris. The phospholipase C (PLC) when expressed in P. pastoris was fused to the alpha-factor secretion signal peptide of Saccharomyces cerevisiae and secreted into a culture medium. Recombinant P. pastoris X-33 had a clear PLC band at 28.5 kDa and produced an extracellular PLC with an activity of 678 U mg(-1) protein which was more than a recombinant P. pastoris GS115 (552 U mg(-1) protein) or KM71H (539 U mg(-1) protein). The PLCs were purified using a HiTrap affinity column with a specific activity of 1335 U mg(-1) protein by P. pastoris GS115, 1176 U mg(-1) protein by P. pastoris KM71H and 1522 U mg(-1) protein by P. pastoris X-33. The three recombinant PLCs had high PLC activity in the low pH range of 4-5 and higher thermal stability (e.g. stable at 75 degrees C) than the wild-type PLC from B. cereus . Some organic solvents, surfactants and metal ions, e.g. methanol, acetone, Co(2+) and Mn(2+) etc., also influenced the activity of the recombinant PLCs.     

Expression of human parathyroid hormone-(1-84) in Escherichia coli as a factor X-cleavable fusion protein

Recombinant human parathyroid hormone (hPTH)-(1-84) was obtained from Escherichia coli using a cleavable fusion protein strategy. The fusion protein contains residues 1-138 of human growth hormone as the amino-terminal region and residues 1-84 of hPTH as the carboxyl-terminal region. A 7-residue linker containing the recognition/cleavage sequence of the site-specific blood coagulation protease activated factor X (factor Xa) joins the two regions. Intact hPTH-(1-84) is released from this fusion protein by cleavage in vitro with factor Xa. The fusion protein was produced at a high level and formed inclusion bodies which allowed it to be easily purified by low speed centrifugation, with a yield of approximately 50 mg/liter of culture. After factor Xa cleavage and high performance liquid chromatography purification, highly purified hPTH was obtained, with a final yield of 1.5-3 mg/liter. Physical and biological characterization of the purified hormone demonstrated that it was intact and active hPTH-(1-84).     

Production, characterization and crystallization of the Plasmodium falciparum aquaporin

The causative agent of malaria, Plasmodium falciparum posses a single aquaglyceroporin (PfAQP) which represents a potential drug target for treatment of the disease. PfAQP is localized to the parasite membrane to transport water, glycerol, ammonia and possibly glycolytic intermediates. In order to enable design of inhibitors we set out to determine the 3D structure of PfAQP, where the first bottleneck to overcome is achieving high enough yield of recombinant protein. The wild type PfAQP gene was expressed to low or undetectable levels in the expression hosts, Escherichia coli and Pichia pastoris, which was assumed to be due to different genomic A+T content and different codon usage. Thus, two codon-optimized PfAQP genes were generated. The Opt-PfAQP for E. coli still did not result in high production yields, possibly due to folding problems. However, PfAQP optimized for P. pastoris was successfully expressed in P. pastoris for production and in Saccharomyces cerevisiae for functional studies. In S. cerevisiae, PfAQP mediated glycerol transport but unexpectedly water transport could not be confirmed. Following high-level membrane-localized expression in P. pastoris (estimated to 64mg PfAQP per liter cell culture) PfAQP was purified to homogeneity (18mg/L) and initial attempts at crystallization of the protein yielded several different forms.     

Mutagenesis of key amino acids alters activity of a Saccharomyces cerevisiae endo-polygalacturonase expressed in Pichia pastoris

A polygalacturonase (PG)-encoding gene from Saccharomyces cerevisiae (PGU1) was successfully expressed in the methylotrophic yeast Pichia pastoris. PG secretion was efficiently directed by the S. cerevisiae alpha-factor signal sequence, while the native (PGU1) leader peptide was unable to direct protein export in P. pastoris. The level of PGU1 activity achieved in P. pastoris was significantly enhanced when compared to activity using the same gene in S. cerevisiae. Expression of PG proteins, engineered by site-directed mutagenesis, in P. pastoris showed that aspartic acid residues at positions 179, 200, and 201, and histidine 222 were essential for enzyme activity. Mutation of the two potential glycosylation sites in PGU1 showed that the two residues individually (N318D, N330D) did not affect secreted enzyme activity, but the double mutant caused a 50% reduction in enzyme activity when compared to the wild-type PGU1 transformant.