Expression and characterization of antimicrobial peptide CecropinAD in the methylotrophic yeast Pichia pastoris

Hybrid antibacterial peptide CecropinAD (CAD) is a linear cationic peptide that has potent antimicrobial properties without hemolytic activity. To explore a new approach to express the hybrid peptide CAD in the methylotrophic yeast Pichia pastoris, the cDNA sequence encoding CAD was obtained by recursive PCR (rPCR) and cloned into the vector pPICZα-A. The Sac I-linearized recombinant plasmid pPICZα-CAD was transformed into P. pastoris GS115 by electroporation. Expression of recombinant CAD was induced for 96 h with 1.0% methanol at 28 °C, pH 5.0. The recombinant CAD was purified by two steps of reversed-phase HPLC and 1.8 mg pure active CAD was obtained from 100 ml culture. Tricine-SDS-PAGE and mass spectrometry analyses demonstrated that the molecular weight of the purified CAD was 3.8 kDa. Analysis of circular dichroism (CD) revealed that CAD mainly has α-helixes in the presence of 10 mM phosphate buffer (pH 7.2), 50% TFE/water solution (pH 2.0), or 30 mM SDS (pH 10.8). FACScan analysis showed that the antibacterial mechanism of CAD is to act on the cell membrane to disrupt bacterial cell structure. Antimicrobial assays demonstrated that recombinant CAD has a broad spectrum of anti-microbial property against fungi, as well as Gram-positive and Gram-negative bacteria, but does not have hemolytic activity against human erythrocytes. Our results suggest that recombinant antimicrobial peptide CAD may serve as an attractive candidate for the development of therapeutic antimicrobial drugs.     

Expression in and purification of Hepatitis B surface antigen (S-protein) from methylotrophic yeast Pichia pastoris

The study describes expression and purification of recombinant hepatitis B small surface antigen (rHBsAg hereafter) in methylotrophic yeast Pichia pastoris strain GS115. For expression of the rHBsAg, a single copy of 678 bp cDNA was inserted at the unique EcoRI site downstream of the alcohol oxidase (AOX 1) promoter of the 8.2 kb pHIL-D2 vector. The cDNA-pHIL-D2 construct was used to transform the strain GS115, resulting in a Mut(S) (Methanol Utilizing Slow) phenotype in which the 226 amino acids containing active and full-length rHBsAg protein could be expressed intra-cellularly during slow growth and induction with methanol. The recombinant protein from the Mut(S) expressor was harvested by cell disruption, and purified first by adsorption-desorption on aerosil followed by two-step chromatographic separation i.e. anion exchange on DEAE resin followed by gel permeation on Superdex 75. Reversed passive hem-agglutination assay (RPHA) was used to test the antigenicity while SDS-PAGE was performed to check the purity of the 27 kDa rHBsAg and its aggregates. The results showed that disruption at 12 Kpsi (three cycles), or 30 Kpsi (1 cycle), desorption with 10mM carbonate buffer (pH 9-10), and storage at 4 degrees C without detergent did not adversely affect the antigenicity of the rHbsAg. However, the presence of detergents such as TritonX100 and deoxycholate in the disruption and desorption buffers, respectively resulted in reduced antigenicity during storage both at 4 and -20 degrees C in spite of higher initial yields.     

Expression of Apostichopus japonicus lysozyme in the methylotrophic yeast Pichia pastoris

Apostichopus japonicus (sea cucumber) is one of the economically important farmed echinoderm species in Northern China. As a crucial enzyme in innate immunity, lysozyme plays a key role in the overall defense against pathogens in A. japonicus. In the present study, a lysozyme gene from A. japonicus was cloned by PCR and expressed in Pichia pastoris using the expression vector pPIC9K. The expressed lysozyme had a molecular mass of ～14 kD, as shown by SDS-PAGE and Western-blotting. The expression condition was optimized, and the highest expression level was achieved by induction with 1% methanol at pH 5.0 for 120 h. The recombinant lysozyme was purified by affinity chromatography using a Ni-NTA column. The specific activity of the purified lysozyme was 34,000 U/mg using Micrococcus lysodeikticus as substrates. It exhibited antimicrobial activity toward M.lysodeikticus, as detected by growth inhibition on agar plate and turbidity assay, suggesting a potential application of A. japonicus lysozyme as an antimicrobial agent in A. japonicus aquaculture.     

Overexpression of a small medicinal peptide from ginseng in the yeast Pichia pastoris

A medicinal peptide, Gsp, which was initially extracted from the traditional medicinal herb ginseng, has potential use as a drug against diabetes. Gsp is a low molecular weight protein that we have secreted in a recombinant form from the yeast Pichia pastoris. A DNA fragment encoding four copies of the Gsp protein each separated by a basic amino acid was synthesized and inserted into the P. pastoris expression vector plasmid pPIC9. After electroporation of the resulting vector, pPIC9-Gsp, into the yeast, transformants were selected. Recombinant pre-Gsp secreted from P. pastoris had a molecular weight of 5.9 kDa and mature recombinant Gsp had a primary structure indistinguishable from native Gsp. After optimization of the culturing process, the yield of pre-Gsp reached 800 mg/L in the clarified broth. A continuous batch fermentation process was developed that allowed the same population of cells to be reutilized five times without loss of expression level. This continuous culturing process resulted in a substantial saving of both time and cost in pharmaceutical production and should be applicable to the production of other recombinant proteins in P. pastoris.     

Expression of recombinant actin 5C from Drosophila in the methylotrophic yeast Pichia pastoris

A system for actin expression in cells of yeast Pichia pastoris was constructed. Drosophila actin 5C, by 90% homologous to beta-actin of higher eukaryotes, was used as a target protein. To improve the procedures of target protein biosynthesis in yeast cells and of extraction and purification of recombinant actin the fusion protein GFP-actin 5C, having fluorescence protein GFP as a reporter part, was expressed and purified. The dimensions and resistance of yeast cells producing recombinant actin were characterized. It was shown that the size and form of cells depended on the accumulation of recombinant protein. The purified fusion protein was used for obtaining polyclonal antibody for testing recombinant actin.     

Expression of recombinant GFP-actin fusion protein in the methylotrophic yeast Pichia pastoris

The integrative vector pPIC3 for the yeast Pichia pastoris and a cDNA fragment encoding a fusion protein consisting of green fluorescent protein (GFP) and actin 5C of the fruit fly Drosophila melanogaster were used to construct a pPIC3-GFP-actin 5C expression plasmid. The P. pastoris host strain GS115 was transformed with the pPIC3-GFP-actin 5C carrying HIS4 as a selective marker. The transformants were selected on a histidine-deficient medium, and were shown to contain the gene of GFP-actin 5C fusion protein. Expression was induced by cultivation of the transformant cells in a methanol-containing medium. Production of the fusion protein in the yeast was detected by the bright green fluorescence of the GFP tag. The pattern of yeast cytoskeleton labeling by the fusion indicated proper folding and functioning of GFP-actin 5C in a heterologous system in vivo. After cell destruction, purification of GFP-actin 5C was performed by DNase I-Sepharose. Efficient binding of the chimera to the DNase I indicated nativity of the actin 5C fusion in vitro. SDS electrophoresis and further Western blot confirmed the purified protein to exhibit the expected molecular mass of about 70 kDa. The recombinant GFP-actin 5C was used to produce polyclonal antibodies, which had not been reported so far but are extremely needed for immuno-labeling and isolation of wild-type and mutant forms of actin 5C.     

Optimization of human serum albumin production in methylotrophic yeast Pichia pastoris by repeated fed-batch fermentation

An optimization method for repeated fed-batch fermentation was established with the aim of improving the recombinant human serum albumin (rHSA) production in Pichia pastoris. A simulation model for fed-batch fermentation was formulated and the optimal methanol-feeding policy calculated by dynamic programming method using five different methanol-feeding periods. The necessary state variables were collected from the calculated results and used for further optimization of repeated fed-batch fermentation. The optimal operation policy was investigated using the pre-collected state variables by estimating the overall profit per total methanol-feeding time. The calculated results indicated that the initial cell mass from the 2nd fed-batch fermentation on should be set at 35 or 40 g and methanol-feeding time at 264 h. In repeated fed-batch fermentation using the optimal operation policy, actual culture volume was in good agreement with the values simulated by model equations, but some discrepancy was observed in rHSA production. Minimum experiments were therefore carried out to re-evaluate rHSA production levels, which were then applied in re-calculations to determine the optimal operation policy. The optimal policy for repeated fed-batch fermentation established in the present study (i.e., 4-times-repeated fed-batch fermentation) achieved a 47% increase in annual rHSA production. Optimization of the culture period also brought about a 28% increase in annual rHSA production even in simple (not repeated) fed-batch fermentation.     

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.     

Expression and characterization of a housefly cecropin gene in the methylotrophic yeast, Pichia pastoris

A 371 bp full-length cDNA (GenBank Accession No. DQ232774) was obtained from housefly Musca domestica by using degenerate primers and subsequent amplification by 5'- and 3'-RACE. The cecropin gene, Mdcec and Mdcec/6His, was cloned into expression pPICZalpha-A vector and was expressed in the methylotrophic yeast, Pichia pastoris. The recombinant Mdcec was purified using cationic exchange chromatography and 1.2mg pure active Mdcec was obtained from 100ml culture broth supernatant. To facilitate purification of Mdcec, the C-terminal 6His-tagged Mdcec was also expressed in P. pastoris. The recombinant Mdcec/6His was purified to homogeneity by a nickel chelating sepharose column and 2.0mg pure active Mdcec/6His was obtained from 100ml culture broth supernatant. Anti-microbial assays demonstrated that Mdcec had broad spectrum of antimicrobial property against fungi, as well as Gram-positive and Gram-negative bacteria. Mdcec/6His showed a similar activity to Mdcec against bacteria, but a slight higher activity against fungi. These results indicate that the 6His-tag can enhance the cationic nature and stability of Mdcec. This is the first report on the heterologous expression of a cecropin and cecropin with a 6His tag in P. pastoris. Our results suggest that the P. pastoris expression system can be used to produce large quantities of fully functional M. domestica cecropin for both research and industrial purpose.     

Insect cytokine growth-blocking peptide may regulate density-dependent phase trait of cuticular melanization in the larval armyworm,Mythimna separata

Growth-blocking peptide (GBP) is a 25 amino acid insect cytokine found in lepidopteran insects that has diverse biological activities such as larval growth regulation, paralysis induction, cell proliferation and stimulation of immune cells. Density-dependent phase polyphenism is a phenomenon of phenotypic plasticity in which the expression of a variety of traits can be affected by local population density. In the present study, the armyworm Mythimna separata larvae with four rearing densities (1 larva/vial, 2 larvae/vial, 4 larvae/vial and 6 larvae/vial) were tested for cuticular melanization and body weight throughout the third-fifth instar, and the functional role of GBP in regulating the changes was investigated. The results indicated that when reared at high densities, the larvae exhibited less body weight and more degree of cuticular melanization than larvae reared at low densities. The gene expression of GBP in armyworm larvae showed an initial rise and then decline trend with increased rearing densities in the third to fifth instar. Compared with control, more degree of cuticular melanization was observed in GBP-injected larvae (500 ng/larva in volume 50 μL) than that in Ringer’s solution-injected counterparts. Furthermore, the gene expression level of dopa decarboxylase and prophenoloxidase increased significantly in GBP-injected fifth instar larvae from 6 h to 12 h after injection, suggesting the role of GBP in modulating density-dependent phase trait of armyworm cuticular melanization.     

基于密码子优化的蛋白酶K在毕赤酵母中的表达及分离纯化

【目的】提高蛋白酶K在毕赤酵母中的表达产量,建立分离纯化方法。【方法】首先对蛋白酶K密码子进行优化,将其导入毕赤酵母GS115中实现分泌表达。然后对甲醇浓度、发酵温度和p H等表达条件进行优化,再对硫酸铵沉淀、亲和层析等纯化工艺进行比对分析。【结果】蛋白酶K密码子优化后实现了在毕赤酵母中的高效表达。在甲醇量0.75%、温度25°C和p H 7.0条件下进行发酵罐培养,蛋白酶K表达量达到2.2 g/L。采用Ni-NTA亲和柱对发酵液进行纯化可以得到较好的纯化效果。【结论】密码子优化后的蛋白酶K在毕赤酵母中高效表达并可以利用Ni-NTA亲和柱进行有效分离纯化。     

Biosynthesis and purification of human beta2-adrenergic receptor expressed in methylotrophic yeast Pichia pastoris

Human beta2-adrenergic receptor is one of the most studied G-protein-coupled receptors. It plays a key role in autonomic nervous system and is a drug target in cardiovascular and pulmonary diseases. Despite the fact that its crystal structure was revealed, a physiological role and molecular mechanisms of its action remain largely unknown. We designed the construct pVR2ADRH, which contained the gene for human beta2-adrenergic receptor with a polyhistidine tag C-terminal extension. The recombinant DNA was used for transformation of the GS115 strain of Pichia pastoris. The heterologous expression level obtained was about 20 mg/l. The receptor was extracted from membrane fraction and was purified by metal-affinity and ion-exchange chromatography. The active receptors were isolated by alprenolol-sepharose CL-4B. The resulting level of purified human beta2-adrenergic receptor was approximately 1 mg per liter of culture. The homogeneity of the protein sample was confirmed by a dynamical light scattering analysis of the receptor's micellar solution.     

Expression, purification and characterization of an analgesic peptide from Buthus martensii Karsch in Pichia pastoris

BmK AngM1 is an analgesic peptide from the venom of Buthus martensii Karsch (BmK). The synthetic gene encoding BmK AngM1 was optimized on the basis of its cDNA sequence and the codon usage preference of Pichia pastoris. The codon-optimized gene was cloned into pPIC9K and then transformed into P. pastoris. SDS-PAGE and Western blot analysis showed that the recombinant BmK AngM1 (rBmK AngM1) was expressed by the addition of methanol to the medium, and its maximum production reached above 500 mg/l. The purified rBmK AngM1 could be obtained efficiently by Nickel affinity chromatography. Analgesic bioassay, by the mouse-twisting model, showed that rBmK AngM1 had evident analgesic effect with an ED₅₀ of 0.5 mg/kg.     

Expression and localization of recombinant human B2 receptors in the methylotrophic yeast Pichia pastoris

The human bradykinin B₂ receptor (B₂R) fused with green fluorescent protein (GFP) at the C-terminal has been expressed in the methylotrophic yeast Pichia pastoris. In the expression vector, B₂R gene was driven under the highly inducible promoter of alcohol oxidase 1 gene of P. pastoris. By fluorescence activated cell sorting (FACS) analysis and Western blot analysis, it was proved that B₂R recombinant receptor proteins were expressed at a high level in the yeast. Furthermore, the transformants of P. pastoris were monitored with confocal microscopy, a strong green fluorescence was checked out. The recombinant B₂R receptor proteins were mainly located on the plasma membrane proved by immunofluorescence microscopy. The text was submitted by the authors in English.     

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 and localization of recombinant human B2 receptors in the methylotrophic yeast Pichia pastoris

The human bradykinin B2 receptor (B2R) fused with green fluorescent protein (GFP) at the C-terminal has been expressed in the methylotrophic yeast of Pichia pastoris. In the expression vector, B2R gene was drove under the highly inducible promoter of alcohol oxidase 1 gene of P. pastoris. By fluorescence activated cell sorting (FACS) analysis and western blot analysis, it was proved that B2R recombinant receptor proteins were expressed at high level in the yeast. Further more, the transformants of P. pastoris were monitored with confocal microscopy, a strong green fluorescence was checked out. The recombinant B2R receptor proteins were mainly located on the plasma membrane proved by immunofluorescence microscopy.     

Expression of secreted His-tagged S-adenosylmethionine synthetase in the methylotrophic yeast Pichia pastoris and its characterization, one-step purification, and immobilization

S-Adenosylmethionine synthetase (SAM synthetase) catalyzes the synthesis of S-adenosylmethionine (SAM), which plays an important role in cellular functions such as methylation, sulfuration, and polyamine synthesis. To develop a simple and effective way to enzymatically synthesize and produce SAM, a soluble form of SAM synthetase encoded by SAM2 from Saccharomyces cerevisiae was successfully produced at high level ( approximately 200 mg/L) by the recombinant methylotrophic yeast Pichia pastoris. The secreted His6-tagged SAM synthetase was purified in a single chromatography step with a yield of approximately 82% for the total activity. The specific activity of the purified synthetase was 23.84 U/mg. The recombinant SAM synthetase could be a kind of allosteric enzyme with negative regulation. The enzyme functioned optimally at a temperature of 35 degrees C and pH 8.5. The stability of the recombinant synthetase and the effectiveness of different factors in preventing the enzyme from inactivation were also studied. Additional experiments were performed in which the recombinant SAM synthetase was purified and immobilized in one step using immobilized metal-chelate affinity chromatography. The immobilized synthetase was found to be 40.4% of the free enzyme activity in catalyzing the synthesis of SAM from dl-Met and ATP.