Engineering a recyclable elastin‐like polypeptide capturing scaffold for non‐chromatographic protein purification

Previously, we reported a non‐chromatographic protein purification method exploiting the highly specific interaction between the dockerin and cohesin domains from Clostridium thermocellum and the reversible aggregation property of elastin‐like polypeptide (ELP) to provide fast and cost‐effective protein purification. However, the bound dockerin‐intein tag cannot be completely dissociated from the ELP‐cohesin capturing scaffold due to the high binding affinity, resulting in a single‐use approach. In order to further reduce the purification cost by recycling the ELP capturing scaffold, a truncated dockerin domain with the calcium‐coordinating function partially impaired was employed. We demonstrated that the truncated dockerin domain was sufficient to function as an effective affinity tag, and the target protein was purified directly from cell extracts in a single binding step followed by intein cleavage. The efficient EDTA‐mediated dissociation of the bound dockerin‐intein tag from the ELP‐cohesin capturing scaffold was realized, and the regenerated ELP capturing scaffold was reused in another purification cycle without any decrease in the purification efficiency. This recyclable non‐chromatographic based affinity method provides an attractive approach for efficient and cost‐effective protein purification. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 29:968–971, 2013     

Single-column purification of free recombinant proteins using a self-cleavable affinity tag derived from a protein splicing element

A novel protein purification system has been developed which enables purification of free recombinant proteins in a single chromatographic step. The system utilizes a modified protein splicing element (intein) from Saccharomyces cerevisiae (Sce VMA intein) in conjunction with a chitin-binding domain (CBD) from Bacillus circulans as an affinity tag. The concept is based on the observation that the modified Sce VMA intein can be induced to undergo a self-cleavage reaction at its N-terminal peptide linkage by 1,4-dithiothreitol (DTT), β-mercaptoethanol (β-ME) or cysteine at low temperatures and over a broad pH range. A target protein is cloned in-frame with the N-terminus of the intein-CBD fusion, and the stable fusion protein is purified by adsorption onto a chitin column. The immobilized fusion protein is then induced to undergo self-cleavage under mild conditions, resulting in the release of the target protein while the intein-CBD fusion remains bound to the column. No exogenous proteolytic cleavage is needed. Furthermore, using this procedure, the purified free target protein can be specifically labeled at its C-terminus.     

High-level expression and rapid purification of rare-codon genes from hyperthermophilic archaea by the GST gene fusion system

In this study, we compared two gene fusion expression strategies using two rare codon genes (Ssh10b and MtGrxM) from archaea as a model system. Both genes can be highly expressed as N- or C-terminal fusion partners to GST or the intein/chitin-binding tag. However, the fusion protein with intein tag could not be cleaved, even under stringent conditions, possibly due to steric hindrance, thus preventing further purification. In contrast, the GST fusion system could increase protein expression level and the corresponding fusion protein could be easily cleaved by thrombin. After binding to glutathione sepharose, the fusion protein was cleaved on column, and a roughly purified protein fraction was eluted. This fraction was purified by heating at 80 degrees C for 10 min, followed by centrifugation. The correct total mass and N-terminal primary structure were confirmed by mass spectrometry and Edman degradation. Both constructs were used for in vitro expression, and similar results were obtained, indicating higher expression levels of the GST tag vs. intein/chitin tag. Taken together, our results suggest that the GST fusion system can be used as a considerable alternative to synthetic genes for the expression of rare codon genes. The affinity chromatography purification followed by a heating step is an efficient and convenient method for thermostable protein purification.     

Simultaneous refolding and purification of a recombinant lipase with an intein tag by affinity precipitation with chitosan

A strategy for simultaneous purification and refolding of proteins overexpressed with an intein tag is described. A recombinant lipase overexpressed in Escherichia coli ER2566 with the intein tag and obtained as inclusion bodies was solubilized in buffer containing 8 M urea or cetyltrimethylammonium bromide. The solubilized lipase was precipitated with chitosan and the affinity complex of the polymer with the fusion protein was obtained. The intein tag was cleaved with dithiothreitol and the refolded lipase was obtained in active form. Activity recovery of 80% was observed and the enzyme had a specific activity of 2965 units/mg. The purified lipase showed a single band on sodium dodecyl sulfate polyacrylamide gel electrophoresis. The purity and activity recovery were comparable with that of the preparation obtained by using the commercial kit which utilizes chromatography on chitin beads. The purified and refolded lipase was characterized by fluorescence and CD spectroscopy.     

Fusion with pep-1, a cell-penetrating peptide,enhances the transmembrane ability of human epidermal growth factor

Administration of macromolecule compositions in medicine and cosmetics always exhibited low bioavailability due to the limitation of transmembrane transport. Here, human epidermal growth factor (hEGF) was fused with glutathione S-transferase (GST) and Pep-1, the first commercial cell-penetrating peptide, in Escherichia coli. The fusion protein was firstly purified with the affinity chromatography, and then the GST tag was released by TEV protease. Final purification was achieved by the ion exchange chromatography. The biological activities and the transmembrane ability of the obtained products were determined using scratch wound-healing assay, MTT analysis, and immunofluorescence assay. The results showed that both rhEGF and Pep-1-fused hEGF were soluble expressed in E. coli. The fusion of Pep-1 could markedly increase the transmembrane ability of EGF, whereas it did not interfere with the growth-stimulating and migration-promoting functions of hEGF on fibroblasts. This research provided a novel strategy for the transmembrane transport of protein-derived cosmetics or drugs.     

Intein-mediated one-step purification of Escherichia coli secreted human antibody fragments

In this work, we apply self-cleaving affinity tag technology to several target proteins secreted into the Escherichia coli periplasm, including two with disulfide bonds. The target proteins were genetically fused to a self-cleaving chitin-binding domain-intein tag for purification via a chitin-agarose affinity resin. By attaching the intein-tagged fusion genes to the PelB secretion leader sequence, the tagged target proteins were secreted to the periplasmic space and could be recovered in active form by simple osmotic shock. After chitin-affinity purification, the target proteins were released from the chitin-binding domain tag via intein self-cleaving. This was induced by a small change in pH from 8.5 to 6.5 at room temperature, allowing direct elution of the cleaved target protein from the chitin affinity resin. The target proteins include the E. coli maltose-binding protein and β-lactamase enzyme, as well as two human antibody fragments that contain disulfide bonds. In all cases, the target proteins were purified with good activity and yield, without the need for refolding. Overall, this work demonstrates the compatibility of the ΔI-CM intein with the PelB secretion system in E. coli, greatly expanding its potential to more complex proteins.     

Enhanced purification and characterization of the PfeIF4A (PfH45) helicase from Plasmodium Falciparum using a codon-optimised clone

Thymosin α1-thymopentin (Tα1-TP5) fusion peptide has been proved to be an immune regulator based on its higher immunoregulatory activity than Tα1 and TP5. To obtain Tα1-TP5 more effectively and economically, Tα1-TP5 was genetically fused to a self-cleaving intein-chitin binding domain tag for purification via chitin beads in Escherichia coli. After affinity purification, the target peptide was released from the chitin beads via self-cleaving intein ((INTervening protEIN) induced by dithiothreitol. Further, Tα1-TP5 was purified by Superdex 30 and identified by Tricine-SDS-PAGE and electrospray ionization-mass spectrometry. Finally, about 7.6 mg Tα1-TP5 purified from the soluble fraction and inclusion bodies was obtained from 1 L culture media. The purity was 95% after a series of chromatographic purification steps. In vitro, the purified Tα1-TP5 could stimulate the proliferation of mouse splenic lymphocytes. Overall, this work demonstrated that Tα1-TP5 was purified with low cost and high efficiency, greatly expanding its potential use as an immune regulator.     

Expression of SMAP-29 cathelicidin-like peptide in bacterial cells by intein-mediated system

In this work, the intein fusion approach was used for expression and purification of cathelicidin-like peptide SMAP-29 from Escherichia coli cultures. To overcome the high toxicity of the antimicrobial peptide against host cells, both C- and N-terminal fusions with Sce VMA intein were evaluated. The fusion of SMAP-29 with the N-terminus of intein had a dramatic lethal effect. In contrast, chimeric constructs harboring SMAP-29 linked to the C-terminus of intein displayed no significant inhibition of bacterial growth. Expression of intein-SMAP fusion protein was then induced in ER2566 E. coli strain by IPTG addition and different experimental conditions were tested in order to optimize the recovery of the soluble protein complex. Peptide purification was carried out by affinity chromatography: the chitin binding domain linked to intein was used to immobilize the chimeric protein on a chitin column and intein-mediated splicing of target peptide was obtained by thiol addition. Microbroth dilution assay showed that recombinant SMAP-29 displayed a high, dose-dependent bactericidal activity. These data demonstrate that the fusion of SMAP-29 with C-intein was able to inactivate the antimicrobial properties of the cathelicidin peptide allowing the expression of fusion protein in the host cell. The intein-mediated purification supplied an effective way to recover the fusion partner in its proper biologically active form.     

蛋白内含子介导纯化的表达载体的构建及应用

将抗膀胱癌单链抗体(PG)融合在蛋白内含子(intein)的C末端,利用intein的N末端具有的chitin binding domain(CBD)对几丁质柱的吸附特性及intein的自切割活性对PG进行一次性纯化。同时,引入大肠杆菌分子伴侣肽基脯氨酰顺反异构酶(FkpA)与目的蛋白进行共表达及融合表达,以使目的蛋白以可溶形式存在。结果显示,PG融合蛋白对几丁质柱的吸附效率很高,intein的自切割释放PG的效率也较高,但PG仅出现在SDS洗脱液中。FM与PG共表达能显著地提高目的蛋白的可溶性。Intein介导的纯化系统前景远大。     

Purification of green fluorescent protein using a two-intein system

A two-intein purification system was developed for the affinity purification of GFPmut3*, a mutant of green fluorescent protein. The GFPmut3* was sandwiched between two self-cleaving inteins. This approach avoided the loss of the target protein which may result from in vivo cleavage of a single intein tag. The presence of N- and C-terminal chitin-binding domains allowed the affinity purification by a single-affinity chitin column. After the fusion protein was expressed and immobilized on the affinity column, self-cleavage of the inteins was sequentially induced to release the GFPmut3*. The yield was 2.41 mg from 1 l of bacterial culture. Assays revealed that the purity was up to 98% of the total protein. The fluorescence and circular dichroism spectrum of GFPmut3* demonstrated that the purified protein retains the correctly folded structure and function.     

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

As a novel attempt for the intracellular recombinant protein over expression and easy purification from Pichia pastoris, the therapeutic cytokine human granulocyte macrophage colony stimulating factor (hGMCSF) gene was fused to an intein-chitin-binding domain (gene from pTYB11 vector) fusion tag by overlap extension PCR and inserted into pPICZB vector, allowing for the purification of a native recombinant protein without the need for enzymatic cleavage. The fusion protein under the AOX1 promoter was integrated into the P. pastoris genome (SMD 1168) and the recombinant Pichia clones were screened for multicopy integrants. Expression of hGMCSF was done using glycerol and methanol based synthetic medium by three stage cultivation in a bioreactor. Purification of the expressed hGMCSF fusion protein was done after cell disruption and binding of the solubilized fusion protein to chitin affinity column, followed by DTT induced on column cleavage of hGMCSF from the intein tag. In this study, final biomass of 89 g dry cell weight/l and purified hGMCSF of 120 mg/l having a specific activity of 0.657 x 10(7) IU/mg was obtained. This strategy has an edge over the other--His or--GST based fusion protein purification where non-specific protein binding, expensive enzymatic cleavage and further purification of the enzyme is required. It distinguishes itself from all other purification systems by its ability to purify, in a single chromatographic step.     

Engineering a high-affinity scaffold for non-chromatographic protein purification via intein-mediated cleavage

While protein purification has long been dominated by standard chromatography, the relatively high cost and complex scale‐up have promoted the development of alternative non‐chromatographic separation methods. Here we developed a new non‐chromatographic affinity method for the purification of proteins expressed in Escherichia coli. The approach is to genetically fuse the target proteins with an affinity tag. Direct purification and recovery can be achieved using a thermo‐responsive elastin‐like protein (ELP) scaffold containing the capturing domain. Naturally occurring cohesin–dockerin pairs, which are high‐affinity protein complex responsible for the formation of cellulosome in anaerobic bacteria, were used as the model. By exploiting the highly specific interaction between the dockerin and cohesin domain from Clostridium thermocellum and the reversible aggregation property of ELP, highly purified and active dockerin‐tagged proteins, such as the endoglucanase CelA, chloramphenicol acetyl transferase (CAT), and enhanced green fluorescence protein (EGFP), were recovered directly from crude cell extracts in a single thermal precipitation step with yields achieving over 90%. Incorporation of a self‐cleaving intein domain enabled rapid removal of the affinity tag from the target proteins, which was subsequently removed by another cycle of thermal precipitation. This method offers great flexibility as a wide range of affinity tags and ligands can be used. Biotechnol. Bioeng. 2012; 109: 2829–2835. © 2012 Wiley Periodicals, Inc.     

重组血管活性肠肽的制备及鉴定

为利用基因工程技术获得重组血管活性肠肽(vasoactive intestinal peptide,VIP),根据大肠杆菌的密码偏好性,设计并人工合成编码28个氨基酸的VIP基因。克隆到表达载体PTWIN,构建重组质粒PTWIN-VIP,转化宿主菌E. coli Strain ER2566,构建表达工程菌。实现由重组VIP,内含肽与纤维素结合域（cellulose binding domain, CBD）组成的融合蛋白表达。融合蛋白经几丁质亲和层析纯化,通过改变温度和缓冲液PH值切割融合蛋白,获得目的多肽。所得的多肽经质谱测定分子量结果与理论值相符。生物活性分析表明,重组VIP能显著降低急性炎症小鼠血清中抵抗素的水平,发挥抗炎作用。重组VIP的制备及其抗炎活性的鉴定为其深入开发奠定了基础。     

重组环状胸腺五肽结构类似物Cyclo-（Cys- Arg-Lys –Asp-Val-Tyr）的制备、鉴定和活性检测

为了实现蛋白内含肽(Intein)介导的重组环状胸腺五肽结构类似物［cyclo-（Cys -Arg-Lys –Asp-Val-Tyr）,cTP］的高效制备,设计并合成编码6个氨基酸的cTP基因,克隆到表达载体pTWIN1,重组表达质粒pTW-cTp转化E.coli ER2566构建工程菌,IPTG诱导由几丁质结合域纯化标签（chitin binding domain,CBD）、2个蛋白内含肽和目的多肽组成的“多元”融合蛋白(CBD-intein1-cTP-intein2-CBD)的高效表达.几丁质柱亲合层析纯化融合蛋白后,改变pH值和温度诱导intein1 C端切割,硫醇MESNA诱导intein2 N端切割,释放N端为Cys,C端为硫酯的重组cTP线性前体,通过非保护多肽硫酯环合法实现环肽生成.激光飞行质谱结果显示,纯化产物的分子量为764.4,与环肽的理论值相符.免疫活性检测结果显示,环肽cTP较线性多肽TP-5具有更显著的促进巨噬细胞吞噬能力的活性（P<0.01）和促进B细胞抗体生成的活性（P<0.01）.     

Intein-mediated protein purification of fusion proteins expressed under high-cell density conditions in E. coli

The intein-mediated purification system has the potential to significantly reduce the recovery costs of industrial recombinant proteins. The ability of inteins to catalyze a controllable peptide bond cleavage reaction can be used to separate a recombinant protein from its affinity tag during affinity purification. Inteins have been combined with a chitin-binding domain to serve as a self-cleaving affinity tag, facilitating highly selective capture of the fusion protein on an inexpensive substrate--chitin (IMPACT) system, New England Biolabs, Beverly, MA). This purification system has been used successfully at a lab scale in low cell density cultures, but has not been examined comprehensively under high-cell density conditions in defined medium. In this study, the intein-mediated purification of three commercially relevant proteins expressed under high-cell density conditions in E. coli was studied. Additionally, losses during the purification process were quantified. The data indicate that the intein fusion proteins expressed under high cell density fermentations were stable in vivo after induction for a significant duration, and the intein fusion proteins could undergo thiol or pH and temperature initiated cleavage reaction in vitro. Thus, the intein-mediated protein purification system potentially could be employed for the production of recombinant proteins at the industrial-scale.     

Intein-mediated rapid purification of Cre recombinase

Cre recombinase produced by bacteriophage P1 catalyzes site-specific recombination of DNA between loxP recognition sites in both prokaryotic and eukaryotic cells and has been widely used for genome engineering and in vitro cloning. Recombinant Cre has been overproduced in Escherichia coli and its purification involves multiple steps. In this report, we used an "intein" fusion system to express Cre as a C-terminal fusion to a modified protein splicing element, i.e., intein. The modified intein contained a Bacillus circulans chitin-binding domain which allowed binding of the fusion protein on a chitin column and could be induced to undergo in vitro peptide bond cleavage which specifically released Cre from the column. Using the intein system, we have obtained highly pure nontagged Cre after just a single chromatographic step, which corresponded to approximately 80% recovery and 27-fold purification. The activity of the purified Cre was determined in an in vitro assay system and was found to remain stable over a period of more than 6 months.     

Cleavage and purification of intein fusion proteins using the Streptococcus gordonii spex system

A gram-positive bacterial expression vector using Streptococcus gordonii has been developed for expression and secretion, or surface anchoring of heterologous proteins. This system, termed Surface Protein Expression system or SPEX, has been used to express a variety of surface anchored and secreted proteins. In this study, the Mycobacterium xenopi (Mxe) GyrA intein and chitin binding domain from Bacillus circulans chitinase Al were used in conjunction with SPEX to express a fusion protein to facilitate secretion, cleavage, and purification. Streptococcus gordonii was transformed to express a secreted fusion protein consisting of a target protein with a C-terminal intein and chitin-binding domain. Two target proteins, the C-repeat region of the Streptococcus pyogenes M6 protein (M6) and the nuclease A (NucA) enzyme of Staphylococcus aureus, were expressed and tested for intein cleavage. The secreted fusion proteins were purified from culture medium by binding to chitin beads and subjected to reaction conditions to induce intein self-cleavage to release the target protein. The M6 and NucA fusion proteins were shown to bind chitin beads and elute under cleavage reaction conditions. In addition, NucA demonstrated enzyme activity both before and after intein cleavage.     

Expression of the class 1 outer-membrane protein of Neisseria meningitidis in Escherichia coli and purification using a self-cleavable affinity tag

The class 1 protein (PorA) is a major component of the outer membrane of Neisseria meningitidis and functions as a cationic porin. The protein is particularly effective in generating a bactericidal immune response following infection and is therefore under investigation as a potential antigen for inclusion in new meningococcal vaccines. Studies on the vaccine potential of PorA would be facilitated by the production of pure protein, free from other components of the meningococcal outer membrane. In the current study, PorA was expressed from the heterologous host Escherichia coli as a C-terminal fusion to an inducible protein-splicing element (intein) with an N-terminal chitin-binding domain (CBD) (IMPACT-TWIN system). The CBD acted as an affinity tag and allowed binding of the fusion protein to a chitin bead column, after which self-cleavage of the intein at its C-terminus was induced, resulting in the release of mature PorA. Cleavage of the fusion protein was temperature- and time-dependent, and was optimal at pH 7.0 after 5 days of storage at 4 degrees C. Efficient cleavage was also dependent on the addition of a minimal amino acid sequence (Gly-Arg-Ala) to the N-terminus of the mature PorA protein. This represented a significant improvement on the large N-terminal sequences introduced by other expression systems previously used to prepare recombinant PorA, and the yields of PorA purified with the IMPACT-TWIN system were similar. Thus, the IMPACT-TWIN system provides a facile method for producing recombinant PorA and may also be useful for the production of other bacterial outer-membrane proteins for vaccine studies.     

Intein-mediated rapid purification of recombinant human pituitary adenylate cyclase activating polypeptide

In order to obtain the recombinant human PACAP efficiently by intein-mediated single column purification, a gene encoding human PACAP was synthesized and cloned into Escherichia coli expression vector pKYB. The recombinant vector pKY-PAC was transferred into E. coli ER2566 cells and the target protein was over-expressed as