Expression of hepatitis B surface antigen in the methylotrophic yeast Pichia pastoris using the GAP promoter

High-level expression and efficient assembly of Hepatitis B surface Antigen (HBsAg) particles have been reported in Pichia pastoris by integrating a single copy of the HBsAg gene under the control of the alcohol oxidase (AOX1) promoter. However, the time taken to reach peak product concentration is usually very long ( approximately 240 h). In this paper, we describe the expression of HBsAg in P. pastoris using the recently described glyceraldehyde-3-phosphate dehydrogenase (GAP) promoter. Unlike the previously described AOX1 promoter based system (in which biomass is generated first followed by methanol-induced antigen production), biomass generation and antigen production occur simultaneously in medium containing glycerol or glucose. Maximal levels of HBsAg expression in case of the single copy AOX1 integrant (attained after 6 days of induction) exceeded the levels of antigen produced by the single copy GAP integrant. However, this was offset by continuous antigen production by the GAP clone. In an attempt to further enhance antigen production levels of the GAP clones, we isolated multicopy Pichia integrants containing up to four copies of the GAP promoter-driven constitutive expression cassette using the Zeocin screening procedure. The data demonstrated a direct correlation between the gene dosage and the levels of HBsAg expressed by the GAP clones. The effect of copy number was additive and the four copy clone resulted in about four-fold higher yield of HBsAg. The majority of HBsAg produced in the constitutive expression system was found to be of particulate form, based on sedimentation behaviour and particle-specific ELISA, suggesting that it has the potential to serve as an effective immunogen. These particles were sensitive to thiol reagents. We also explored the possibility of secreting the GAP expressed HBsAg in P. pastoris. In-frame fusion of the Saccharomyces cerevisiae alpha-factor secretion signal under the constitutive GAP promoter resulted in secretion of approximately 20 nm HBsAg particles as evidenced by electron microscopy. However, the levels of secreted HBsAg particles were very low, presumably due to the inherent hydrophobicity of the HBsAg molecule and the consequent propensity for membrane association. Our studies show that secretion is not a good strategy for expression of HBsAg in P. pastoris. The data also suggests that intracellular production of HBsAg under the GAP promoter using multicopy expression cassettes can indeed serve as an effective alternative to the AOX1 promoter. Further, the GAP promoter based system obviates the need to use and extensively monitor methanol during recombinant antigen production. Finally, this constitutive system has the potential for continuous culture wherein several batches of recombinant protein-containing biomass can be harvested from a single initial fermentation.     

用GAP启动子在毕节酵母中组成型表达人血管抑制素

为探索用GAP启动子(PGAP)取代AOX1启动子(PAOX1),在毕节酵母(P．pastortis)中组成型表达外源蛋白的可能性,应用PCR方法从P．pastoris染色体中扩增了GAP启动子,以其取代诱导型表达载体pPIC9K上的PAOX1,构建了组成型表达载体pGAP9K。将人血管抑制素(AS)基因重组于pGAP9K的多克隆位点,获得含As基因的重组质粒pGAP9K-AS。转化P．pastorisGSll5,对获得的高拷贝转化子P．pastorisGSll5(pGAP9K-AS)进行组成型表达,同时以诱导型转化子P．pastoris GSll5(pPIC9K-AS)作为对照。SDS-PAGE结果显示：组成型转化子于培养4d后AS的表达水平已达到高峰,分泌量为58mg／L;而诱导型转化子诱导4d后表达的AS仅是组成型表达的70％,诱导6d后达到高峰,表达量也只是组成型表达系统表达高峰时(4d)的86％。CAM分析和抗癌实验结果显示：P．pastortis GS115(pGA．P9K-S)和P．pastoris GS115(pPIC9K-AS)表达的AS均具有抑制血管生成和C57BL／6J实验小鼠的B16黑色素瘤的生长,其平均瘤重抑制率分别达到90．61％和90．54％。以上结果表明,以GAP启动子构建的组成型表达系统具有发酵时间较短、表达水平较高、不用甲醇诱导、操作系统比较简单等优点,PGAP可以取代PAOX1在P．pastoris中表达AS及其他外源蛋白。     

Simultaneous expression of an arylacetonitrilase from Pseudomonas fluorescens and a (S)-oxynitrilase from Manihot esculenta in Pichia pastoris for the synthesis of (S)-mandelic acid

The arylacetonitrilase of Pseudomonas fluorescens EBC191 catalyzes the conversion of (S)-mandelonitrile to (S)-mandelic acid and (S)-mandeloamide. This biotransformation is optimally performed under acidic pH values because (S)-mandelonitrile rapidly decomposes under neutral conditions. Therefore, the gene encoding the arylacetonitrilase of P. fluorescens EBC191 was integrated and expressed under the control of the AOX1 promoter in the methylotrophic yeast Pichia pastoris which was supposed to act as an acidotolerant expression system. These recombinant strains hydrolyzed (R,S)-mandelonitrile at pH values >or=3 to mandelic acid and mandeloamide and were more acidotolerant than previously constructed Escherichia coli whole cell catalysts synthesizing the same nitrilase activity. Subsequently, recombinant P. pastoris strains were constructed which simultaneously expressed the (S)-oxynitrilase of Manihot esculenta and the arylacetonitrilase of P. fluorescens EBC191 each under the control of individual AOX1 promoters in order to obtain a whole cell catalyst for the synthesis of (S)-mandelic acid from benzaldehyde and cyanide. Resting cells of the recombinant strains converted under acidic conditions benzaldehyde and cyanide initially to mandelonitrile which was immediately converted to mandelic acid and mandeloamide. The chiral analysis of the products formed revealed a high enantiomeric excess for the (S)-enantiomers.     

Characterization of Trichoderma reesei cellobiohydrolase Cel7A secreted from Pichia pastoris using two different promoters

Heterologous expression of T. reesei cellobiohydrolase Cel7A in a methylotrophic yeast Pichia pastoris was tested both under the P. pastoris alcohol oxidase (AOX1) promoter and the glyceraldehyde-3-phosphate dehydrogenase (GAP) promoter in a fermentor. Production of Cel7A with the AOX1 promoter gave a better yield, although part of the enzyme expressed was apparently not correctly folded. Cel7A expressed in P. pastoris is overglycosylated at its N-glycosylation sites as compared to the native T. reesei protein, but less extensive than Cel7A expressed in Saccharomyces cerevisiae. The k(cat) and K(m) values for the purified protein on soluble substrates are similar to the values found for the native Trichoderma Cel7A, whereas the degradation rate on crystalline substrate (BMCC) is somewhat reduced. The measured pH optimum also closely resembles that of purified T. reesei Cel7A. Furthermore, the hyperglycosylation does not affect the thermostability of the enzyme monitored with tryptophane fluorescence and activity measurements. On the other hand, CD measurements indicate that the formation of disulfide bridges is an important step in the correct folding of Cel7A and might explain the difficulties encountered in heterologous expression of T. reesei Cel7A. The constitutive GAP promoter expression system of P. pastoris is nevertheless well suited for activity screening of cellulase activities in microtiter plates. With this type of screening method a faster selection of site-directed and random mutants with, for instance, an altered optimum pH is possible, in contrast to the homologous T. reesei expression system.     

乳酸菌素Gassericin T基因的人工合成及其组成型表达载体的构建

目的:为了研究乳酸菌素Gassericin T的作用机制及应用价值,人工合成Gassericin T基因并构建能高效表达外源蛋白的毕赤酵母组成型表达载体。方法:应用PCR方法从毕赤酵母染色体中扩增GAP启动子,经测序正确后与已线性化的不含pAOX1启动子的毕赤酵母诱导型表达载体pPIC9K连接,转化大肠杆菌DH5α。根据Gassericin T的基因序列,把Gassericin T的结构基因gatA的密码子转换成毕赤酵母偏爱的形式,设计了6条59nt的寡聚核苷酸引物,通过3次连续PCR反应,人工合成gatA片段(简称gat基因),经测序正确后插入pGAP9K质粒的多克隆位点。结果:用GAP启动子(pGAP)取代了pPIC9K上的pAOX1,构建了毕赤酵母组成型表达载体pGAP9K;PCR拼接获得250bp的目的基因序列,将目的基因克隆于pGAP9K,获得组成型表达载体pGAP9K-gat。结论:为下一步在毕赤酵母中组成型表达外源蛋白,研究其作用机理和遗传机制奠定了基础。     

Production and purification of recombinant human granulocyte–macrophage colony stimulating factor (GM-CSF) from high cell density cultures of <Emphasis Type="Italic">Pichia pastoris</Emphasis>

Granulocyte–macrophage colony stimulating factor (GM-CSF) is a hematopoietic growth factor, which has been used as a therapeutic agent in clinical cases like neutropenia. In this study, we report the production of recombinant human GM-CSF in the methylotrophic yeast Pichia pastoris through secretory expression using the inducible AOX1 promoter. Recombinant P. pastoris GS115 cells were grown in fed batch cultures to obtain a biomass density of 55.6 gDCW L⁻¹ and a high volumetric activity of 131 mg L⁻¹ of GM-CSF. The protein migrated as a diffuse band on SDS-PAGE at the range of 28–35 kDa indicating differential glycosylation. The secreted protein was purified to 95% in two steps using cation exchange and size exclusion chromatography.     

mazF as a counter-selectable marker for unmarked genetic modification of Pichia pastoris

In this study, we demonstrate a novel method for unmarked genetic modification of the methylotrophic yeast Pichia pastoris , in which the Escherichia coli toxin gene mazF was used as a counter-selectable marker. mazF was placed under the tightly controlled AOX1 promoter, and the induced expression of MazF in P. pastoris halted cell growth. A modular plasmid was constructed in which mazF and a Zeocin resistance gene acted as counter-selectable and active-selectable markers, respectively, and the MazF-ZeoR cassette was flanked by two direct repeats for marker recycling. Linearized delivery vectors constructed from the modular plasmid were integrated into the P. pastoris genome via homologous recombination, introducing genetic modifications. Upon counter-selection with methanol medium, which induces the AOX1 promoter, the markers were recycled efficiently via homologous recombination between the direct repeats. We used this method successfully to knock-out the ARG1 and MET2 genes, knock-in a green fluorescent protein expression cassette, and perform site-directed mutagenesis on the ARG1 gene, all without introducing unwanted selection markers. The novel method allows repeated use of the selectable marker gene for multiple modifications and will be a useful tool for P. pastoris studies.     

Molecular gene cloning and overexpression of the phytase from Debaryomyces castellii CBS 2923

The ORF encoding the Debaryomyces castellii CBS 2923 phytase was isolated. The deduced 461-amino-acid sequence corresponded to a 51.2 kDa protein and contained the consensus motif (RHGXRXP) which is conserved among phytases. No signal sequence cleavage site was detected. Nine potential N-glycosylation sites have been predicted. The protein shared 21–69% sequence identities with various phytases of yeast or fungal origin. Heterologous expression of the D. castellii CBS 2923 phytase in the methylotrophic yeast Pichia pastoris was tested under both the P. pastoris inducible alcohol oxidase (AOX1) promoter and the constitutive glyceraldehyde-3-phosphate dehydrogenase (GAP) promoter. Maximum production levels obtained were 476 U ml⁻¹, with the AOX1 expression system and 16.5 U ml⁻¹ with the GAP one. These productions corresponded to a 320-fold and a 10-fold overexpression of the protein, respectively as compared to the homologous production. The biochemical characteristics of the recombinant phytase were identical to those of the native enzyme.     

Vectors for expression of proteins with single or combinatorial fluorescent protein and tandem affinity purification tags in Dictyostelium

The human tumour suppressor P53 is a key protein involved in tumour suppression. P53 acts as a "guardian of genome" by regulating many target genes involved in cell cycle regulation, DNA repair and apoptosis. We report the P53 expression by the methylotrophic yeast Pichia pastoris using the methanol inducible AOX1 promoter. We have produced the rP53 in intracellular form as well as secreted using the Saccharomyces cerevisiae alpha-mating factor prepro-leader sequence in two genetic contexts of Pichia, Mut(s) and Mut(+). The intracellular P53 was successfully produced by Mut(s) (KM71) as well as Mut(+) (X33) strains, however, the secreted form was mainly observed in the Mut(s) strain, despite a higher number of p53 copies integrated in the Mut(+) strain. Interestingly, in Mut(s) phenotype, the medium pH influences markedly the rP53 production since it was higher at pH 7 than 6.     

Heterologous expression in Pichia pastoris and single-step purification of a cysteine proteinase from northern shrimp

A distinct cysteine proteinase (NsCys) of northern shrimp Pandalus borealis belonging to cathepsin L subgroup of the papain superfamily has been overexpressed as a precursor form (proNsCys) in Pichia pastoris. We adopted a simple and quick procedure to generate an expression cassette by constructing a donor vector harboring proNsCys followed by recombination with an acceptor vector in a way so that the proNsCys gene was placed downstream of the methanol-inducible AOX1 promoter and alpha-mating factor signal sequence gene. In addition, we used glycerol complex medium that supported high growth of yeast before induction while induction was carried out in minimal methanol medium thereby facilitating the secreted protein to be purified with a single size-exclusion chromatography. The recombinant enzyme was purified in two enzymatically active fractions: both corresponding to mature NsCys with, however, the major one comprising two molecular species of NsCys which had their severed prodomain non-covalently attached. The overall yield was about 100 mg of crude or 60 mg of purified recombinant enzyme comprising both mature and prodomain-attached forms of NsCys per liter of yeast culture. The recombinant NsCys was biologically active as observed by gelatin zymography and its ability to cleave Z-Phe-Arg-MCA, a synthetic substrate for cathepsin L. The development of the system reported here provides a cost-effective and easy to manipulate expression system to obtain large quantities of fully functional shrimp enzyme that will enable the functional characterization of this unique enzyme for both research and industrial purposes.     

Heterologous protein expression in Pichia thermomethanolica BCC16875, a thermotolerant methylotrophic yeast and characterization of N-linked glycosylation in secreted protein

This study describes Pichia thermomethanolica BCC16875, a new methylotrophic yeast host for heterologous expression. Both methanol-inducible alcohol oxidase (AOX1) and constitutive glyceraldehyde-3-phosphate dehydrogenase (GAP) promoters from Pichia pastoris were shown to drive efficient gene expression in this host. Recombinant phytase and xylanase were expressed from both promoters as secreted proteins, with the former showing different patterns of N-glycosylation dependent on the promoter used and culture medium. In addition, growth temperature also had an effect on N-glycan modification of cell wall mannoproteins. The major glycoprotein oligosaccharide species produced from P.?thermomethanolica BCC16875 is Man(8-12) GlcNAc(2) , which is similar to that from other methylotrophs. Moreover, mannosylphosphate and α-1,6- and α-1,2-linked mannose modifications of heterologous secreted protein were also detected. The attainably high level of protein production in complement to distinctive thermotolerance rarely found in other industrial yeasts makes this microorganism an attractive host for large-scale fermentation.     

Constitutive expression of human angiostatin in <Emphasis Type="Italic">Pichia pastoris</Emphasis> by high-density cell culture

A high-density cell culture method to produce human angiostatin has been successfully established by constitutive expression of the protein in Pichia pastoris. The fermentation was carried out in a 20 l bioreactor with a 10 l working volume, using a high-density cell culture method by continuously feeding with 50% glycerol−0.8% PTM4 to the growing culture for 60 h at 30°C. Dissolved oxygen level was maintained at 25–30% and pH was controlled at 5 by the addition of 7 M NH₄OH. Angiostatin was constitutively expressed during the fermentation by linking its expression to the P. pastoris constitutive GAP promoter (pGAP). But after 36 h of fermentation, the peak biomass growth was 305 as measured by absorption of 600 nm, while the peak angiostatin expression was 176 mg/l. Similar to the product expressed from inducible system [24], angiostatin produced from constitutive system also inhibited the angiogenesis on the CAM and suppressed the growth of B16 melanoma in C57BL/6J mouse. The above results suggest that GAP promoter is more efficient than AOX1 promoter for the expression of angiostatin in P. pastoris by shake flask culture or high-density cell fermentation and is likely to be an alternative to AOX1 promoter in large-scale expression of angiostatin and other heterologous proteins. Supported by the Natural Science Foundation of China (39670013) and “225” Science and Technology Program of Guangzhou Municipal Government of China (99-Z-004-001).     

Gassericin T基因的合成及其组成型表达载体的构建

目的:构建Gassericin T基因毕赤酵母(Pichia pastoris)组成型表达载体。方法:根据乳酸菌素Gassericin T的基因序列,把Gassericin T的结构基因gatA编码的氨基酸的密码子转换成P.pastoris偏爱的形式,设计了6条59nt的寡聚核苷酸引物,通过3次连续PCR反应,获得了250bp左右的gat A片段(简称gat基因)。应用PCR方法从P.pastoris染色体中扩增了GAP启动子,大小为500bp左右,以其取代诱导型表达载体pPIC9K上的pAOX1,构建了组成型表达载体pGAP9K。将合成的gat基因克隆到pGAP9K质粒的多克隆位点中。结果:获得的gat及gap基因与预期结果一致,序列无碱基突变,构建的表达载体pGAP9K-gat经PCR、酶切鉴定完全正确。结论:成功构建了Gassericin T基因P.pastoris组成型表达载体,为下一步高效表达Gassericin T蛋白,进一步研究其作用机理及应用价值打下基础。     

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.     

Cloning and expression of a Melanocarpus albomyces steryl esterase gene in Pichia pastoris and Trichoderma reesei

The ste1 gene encoding a steryl esterase was isolated from the thermophilic fungus Melanocarpus albomyces. The gene has one intron, and it encodes a protein consisting of 576 amino acids. The deduced amino acid sequence of the steryl esterase was shown to be related to lipases and other esterases such as carboxylesterases. Formation of mature protein requires post-translational removal of a putative 18-amino-acid signal sequence and a 13-residue propeptide at the N-terminus. The intronless version of the Melanocarpus albomyces ste1 gene was expressed in Pichia pastoris under the inducible AOX1 promoter. The production level was low, and a large proportion of the total activity yield was found to be present intracellularly. However, the fact that steryl esterase activity was produced by P. pastoris cells carrying the expression cassette confirmed that the correct gene had been cloned. The ste1 gene was subsequently expressed in T. reesei under the inducible cbh1 promoter, and a clearly higher production level was obtained. About 60% of the total activity was bound to the fungal mycelium or to solid components of the culture medium, or existed as aggregates. Triton X-100 was successfully used to recover this activity. The heterologous production system in T. reesei provides a means of producing M. albomyces steryl esterase STE1 reliably in large scale for future studies.     

Yeast cytochrome c is a sequence-specific DNA-binding protein

A protein binding to the alcohol oxidase 2 upstream activation sequence (AOX2UAS) of the methylotropic yeast, Pichia pastoris, has been purified and identified as cytochrome c (cyt c). Cyt c purified from P. pastoris or Saccharomyces cerevisiae binds to AOX2UAS. Specific point mutations in AOX2UAS abolish cyt c binding. We conclude that yeast cyt c is a sequence-specific DNA-binding protein and may have a regulatory role in the nucleus.