Construction of intein-mediated hGMCSF expression vector and its purification in Pichia pastoris

Heterologous expression of recombinant urate oxidase using the intein-mediated protein purification in Pichia pastoris

The potential of urate oxidase (uricase) for clinical use has been highlighted because of its role in lowering the blood uric acid levels for the treatment of tumor lysis syndrome. In the present study, the codon-optimized synthetic gene of Aspergillus flavus uricase was fused to the Mxe GyrA intein and chitin-binding domain. The construct was inserted into pPICZA and pPICZαA vectors and electroporated into Pichia pastoris GS115 for the cytosolic and secretory expression. Transformants were screened on gradients of Zeocin up to 2000 μg/ml to find multi-copy integrants. For both constructs, colonies with more resistance were screened for the highest uricase producers by enzyme assay. PCR analysis confirmed successful cassettes insertion into the genome and Mut + phenotype. The gene copy index was determined to be two and five for cytosolic and secretory strains, respectively. Productivity of the cytosolic and secretory strains was found to be 0.74 and 0.001 U/ml culture media in order while the cytosolic recombinant enzyme accounted for about 6% of total proteins. One-step purification of the expressed uricase was done with the aid of the chitin affinity column, followed by DTT induction for intein on-column cleavage. The yield of 40.8 mg/L and K m of 0.22 mM was obtained for intracellular expression. It seems that the intracellular production of uricase can indeed serve as an effective alternative to secretory expression. Moreover, this is the first report considering cytosolic production of uricase using the intein-mediated protein purification in the methylotrophic yeast, P. pastoris.

A Novel Methanol-Free Platform for Extracellular Expression of rhGM-CSF in Pichia pastoris

The production of the recombinant proteins under the control of AOX1 promoter is a one of the most common expression systems in the methylotrophic yeast Pichia pastoris which is induced by methanol. The application of this expression platform is restricted by the toxicity and inflammatory nature of methanol, especially in food and pharmaceutical products. Human granulocyte macrophage-colony stimulating factor (hGM-CSF) is an important pharmaceutical protein, playing a crucial role in the proliferation and differentiation of innate immune cells. In this study, a methanol-free expression platform for extracellular expression of hGM-CSF was developed. To attain this goal, a novel constructed expression vector pEP(α)101, carrying the FMD promoter regulating recombinant expression by glycerol derepression was designed. The optimized hGM-CSF gene was subcloned into pEP(α)101 and transformed into P. pastoris. The expression of rhGM-CSF in three different culture media were investigated. Based on the observed heterogeneous glycosylation pattern on SDS-PAGE and western blot, the glycoproteins were deglycosylated to remove carbohydrate units. According to the results, the novel methanol independent P_FMD expression platform would be a suitable candidate for driving heterologous gene expression especially for the production of food-grade and therapeutically important recombinant proteins.

Column-Free Purification Methods for Recombinant Proteins Using Self-Cleaving Aggregating Tags

Conventional column chromatography processes to purify recombinant proteins are associated with high production costs and slow volumetric throughput at both laboratory and large scale. Non-chromatographic purifications based on selective aggregating tags have the potential to reduce costs with acceptable protein yields. A significant drawback, however, is that current proteolytic approaches for post-purification tag removal after are expensive and non-scalable. To address this problem, we have developed two non-chromatographic purification strategies that use either the elastin-like polypeptide (ELP) tag or the β-roll tag (BRT17) in combination with an engineered split intein for tag removal. The use of the split intein eliminates premature cleavage during expression and provides controlled cleavage under mild conditions after purification. These self-cleaving aggregating tags were used to efficiently purify β-lactamase (β-lac), super-folder green fluorescent protein (sfGFP), streptokinase (SK) and maltose binding protein (MBP), resulting in increased yields compared to previous ELP and BRT17-based methods. Observed yields of purified targets for both systems typically ranged from approximately 200 to 300 micrograms per milliliter of cell culture, while overall recoveries ranged from 10 to 85 percent and were highly dependent on the target protein.

Utilizing intein-mediated protein cleaving for purification of uricase, a multimeric enzyme

Uric acid, a side product of nucleotide metabolism, should be cleared from blood stream since its accumulation can cause cardiovascular diseases and gout. Uricase (urate oxidase) converts uric acid to 5-hydroxyisourate, but it is absent in human and other higher apes. Yet, the recombinant form of uricase, Rasburicase, is now commercially available to cure tumor lysis syndrome by lowering serum uric acid level. Developing new methods to efficiently purify pharmaceutical proteins like uricase has attracted researchers' attention. Self-cleaving intein mediated single column purification is one of these novel approaches. Self-cleaving inteins are modified forms of natural inteins that can excise and join only at one junction site. In this study, the synthetic gene of Aspergillus flavus uricase, a homotetrameric protein, was cloned into pTXB1 vector as a fusion with the N-terminal of Mxe GyrA intein and chitin-binding domain (CBD) for simple purification. Expression was confirmed by western blot analysis. The fusion protein containing uricase-intein-CBD was purified on a chitin column. The cleavage was induced by adding DTT,¹ as a reducing agent to release uricase. The purity of uricase and complete excision of the intein and CBD were confirmed by SDS-PAGE² while its proper folding was proved by circular dichroism and fluorescent emission studies. Isoelectric focusing further confirmed its homogeneity when a single protein band was observed at the predicted pI value. This is the first report of successful purification of a multimeric therapeutic enzyme by intein-mediated protein cleaving using a well-established and facile system.

Cloning and expression of recombinant human GMCSF from Pichia pastoris GS115--a progressive strategy for economic production

Human granulocyte-macrophage colony-stimulating factor (hGMCSF) is a proinflammatory cytokine and hematopoietic growth factor. Recombinant human granulocyte-macrophage colony-stimulating factor (rhGMCSF) serves as a biotherapeutic agent in bone marrow stimulations, vaccine development, gene therapy approaches, and stem cell mobilization. The objective of the present study includes construction of rhGMCSF having N-terminal intein tag, expression of protein both extracellularly and intracellularly from yeast expression system followed by its purification in a single step by affinity chromatography. The soluble and biologically active rhGMCSF was obtained from Pichia pastoris GS115. About 122 g DCW/L of final yield was obtained for both cytosolic and secretory expression of Pichia GS115 strain. Purified intracellular hGMCSF was 420 mg/L with a specific activity of 2.1×10⁸ IU/mg, and the purified extracellular recombinant protein was 360 mg/L with a specific activity of 1.9×10⁸ IU/mg. The data presented here indicate the possibilities of exploring the economic ways of producing the rhGMCSF.

Purification of a recombinant protein with cellulose-binding module 3 as the affinity tag

Easy-to-perform and low-cost protein purification methods are in high demand for the mass production of commonly used enzymes that play an important role in bioeconomy. A low-cost and rapid recombinant protein purification system was developed using CBM3 (family 3 cellulose-binding module) as affinity tag. This protocol describes the purification of CBM3-fusion protein and tag-free protein expressed in Pichia pastoris using CBM3 as an affinity tag.

Improved secretion of Candida antarctica lipase B with its native signal peptide in Pichia pastoris

Secretion efficiency of the 85-amino acid Sacchromyces cerevisiae alpha signal peptide and the 25-amino acid Candida antarctica lipase B signal (nsB) peptide were compared. Three reporter proteins used for the study are C. antarctica lipase A (CalA), lipase B (CalB) and hGMCSF. The copy number of recombinant α-CalB and nsB-CalB clones was determined by qPCR and clones with equivalent gene copies were used for comparative analysis. About threefold increased CalB production corresponding to an activity of 480 U ml(-1) was obtained with its native signal peptide, whereas with the alpha signal peptide the maximum activity was 160 U ml(-1). Also, CalB was secreted as a mature protein with native N-terminus when fused to its own signal peptide, while unprocessed CalB with N-terminal extension was detected with the alpha signal peptide. Real time PCR analysis of CalB strains indicated that the difference in protein expression was not at the transcriptional level. The nsB signal sequence was also effective in secreting CalA enzyme and its secretion efficiency was on par with the alpha signal sequence. Further, hGMCSF fused inframe with the nsB signal peptide was also efficiently secreted into the medium. These results indicate that the nsB signal peptide can be a better alternative to alpha signal peptide for heterologous protein expression in Pichia pastoris.

Production and characterization of human granulocyte-macrophage colony-stimulating factor (hGM-CSF) expressed in the oleaginous yeast Yarrowia lipolytica

Since its isolation, the human granulocyte-macrophage colony-stimulating factor (hGM-CSF) has been proposed as a new class of therapeutic biological products in the treatment of various diseases. However, the toxicity of this cytokine towards its expression host constitutes a major obstacle to bioprocess development for large-scale production. In this work, the optimized gene encoding hGM-CSF was expressed in the yeast Yarrowia lipolytica in one and two copies under the control of the fatty acid-inducible POX2 promoter. Protein secretion was directed by the targeting sequence of the extracellular lipase (LIP2): preXALip2. After 48 h of induction, Western blot analysis revealed the presence of a nonglycosylated form of 14.5 kDa and a trail of hGM-CSF hyperglycosylated varying from 23 kDa to more than 60 kDa. The two-copy transformants produced hGM-CSF level which was sevenfold higher compared to the single-copy ones. Deglycosylation with PNGase F showed two forms: a mature form of 14.5 kDa and an unprocessed form of 18 kDa. The addition of two alanines to the signal sequence resulted in correct hGM-CSF processing. The production level was estimated at 250 mg/l after preliminary optimization studies of the cultivation and induction phases. The purified hGM-CSF was identified by N-terminal sequencing and LC-MS/MS analysis; its biological activity was confirmed by stimulating the proliferation of TF1 cell line. This study demonstrated that Y. lipolytica is a promising host for the efficient production of active toxic proteins like hGM-CSF.

Cloning, soluble expression and purification of high yield recombinant hGMCSF in Escherichia coli

Expression of human granulocyte macrophage colony stimulating factor (hGMCSF), a cytokine of therapeutic importance, as a thioredoxin (TRX) fusion has been investigated in Escherichia coli BL21 (DE3) codon plus cells. The expression of this protein was low when cloned under the T7 promoter without any fusion tags. High yield of GMCSF was achieved (∼88 mg/L of fermentation broth) in the shake flask when the gene was fused to the E. coli TRX gene. The protein was purified using a single step Ni(2+)-NTA affinity chromatography and the column bound fusion tag was removed by on-column cleavage with enterokinase. The recombinant hGMCSF was expressed as a soluble and biologically active protein in E. coli, and upon purification, the final yield was ∼44 mg/L in shake flask with a specific activity of 2.3 × 10(8) U/mg. The results of Western blot and RP-HPLC analyses, along with biological activity using the TF-1 cell line, established the identity of the purified hGMCSF. In this paper, we report the highest yield of hGMCSF expressed in E. coli. The bioreactor study shows that the yield of hGMCSF could be easily scalable with a yield of ∼400 mg/L, opening up new opportunities for large scale production hGMCSF in E. coli.

The potential role of self-cleaving purification tags in commercial-scale processes

Purification tags are robust tools that can be used to purify a wide selection of target proteins, which makes them attractive candidates for implementation into platform processes. However, tag removal remains an expensive and significant issue that must be resolved before these tags can become widely used. One alternative is self-cleaving purification tags, which can provide the purity and versatility of conventional tags but eliminate the need for proteolytic tag removal. Many of these self-cleaving tags are based on inteins, but other emerging technologies, such as the FrpC and SrtAc proteins, have also been reported. In this review, we cover affinity and non-chromatographic self-cleaving purification tags and their potential industrial applications.

The inhibitory effect of an RGD-human chitin-binding domain fusion protein on the adhesion of fibroblasts to reacetylated chitosan films

Biomaterials used for tissue engineering applications must provide a structural support for the tissue development and also actively interact with cells, promoting adhesion, proliferation, and differentiation. To achieve this goal, adhesion molecules may be used, such as the tripeptide Arg-Gly-Asp (RGD). A method based on the use of a carbohydrate-binding module, with affinity for chitin, was tested as an alternative approach to the chemical grafting of bioactive peptides. This approach would simultaneously allow the production of recombinant peptides (alternatively to peptide synthesis) and provide a simple way for the specific and strong adsorption of the peptides to the biomaterial.A fusion recombinant protein, containing the RGD sequence fused to a human chitin-binding module (ChBM), was expressed in E. coli. The adhesion of fibroblasts to reacetylated chitosan (RC) films was the model system selected to analyze the properties of the obtained proteins. Thus, the evaluation of cell attachment and proliferation on polystyrene surfaces and reacetylated chitosan films, coated with the recombinant proteins, was performed using mouse embryo fibroblasts 3T3. The results show that the recombinant proteins affect negatively fibroblasts anchorage to the materials surface, inhibiting its adhesion and proliferation. We also conclude that this negative effect is fundamentally due to the human chitin-binding domain.