Histidine affinity tags affect MSP1(42) structural stability and immunodominance in mice

Inclusion of affinity tags has greatly facilitated process development for protein antigens, primarily for their recovery from complex mixtures. Although generally viewed as supportive of product development, affinity tags may have unintended consequences on protein solubility, susceptibility to aggregation, and immunogenicity. Merozoite surface protein 1 (MSP1), an erythrocytic stage protein of Plasmodium falciparum and a candidate malaria vaccine, was used to evaluate the impact of a metal ion affinity-tag on both protein structure and the induction of immunity. To this end, codon harmonized gene sequences from the P. falciparum MSP1(42) of FVO and 3D7 parasites were cloned and purified with and without a histidine (His) tag. We report on the influence of His-affinity tags on protein expression levels, solubility, secondary structure, thermal denaturation, aggregation and the impact on humoral and cellular immune responses in mice. While the overall immunogenicity induced by His-tagged MSP1(42) proteins is greater, the fine specificity of the humoral and cellular immune responses is altered relative to anti-parasitic antibody activity and the breadth of T-cell responses. Thus, the usefulness of protein tags may be outweighed by their potential impact on structure and function, stressing the need for caution in their use. See accompanying commentary by Randolph DOI: 10.1002/biot.201100459.     

Overproduction of single-chain antibodies against human IFN-alpha2B in Escherichia coli and their isolation in biologically active form

The gene encoding mouse single chain antibody (ScFv) against human interferon alpha2b (IFN-alpha2b) was cloned into the plasmid vector under the control of promoter from phage T7 and the recombinant protein was expressed in Escherichia coli as inclusion bodies. After the isolation of inclusion bodies the desired protein containing affinity tail "6His tag" was solubilized and purified under denaturing conditions by immobilized-metal affinity chromatography. The soluble and purified ScFv was obtained by "on column" refolding and the recovery of biological activity were demonstrated. The higher levels of ScFv production for intracellular expression system in comparison with ScFv obtained by secretion were shown. The advantages of described refolding method are simplicity and high efficacy, moreover, refolding using a chromatographic process represents the manufacturable approach because it is easily automated using commercially available materials and preparative chromatography systems and also can be combined with simultaneous purification.     

High-level expression and one-step purification of recombinant dengue virus type 2 envelope domain III protein in Escherichia coli

Dengue virus infection poses a serious global public health threat for which there is currently no therapy or a licensed vaccine. The domain III of the dengue virus encoded envelope protein, which carries multiple conformation-dependent neutralizing epitopes, is critical for virus infectivity. We have expressed and purified recombinant domain III of dengue virus type-2 envelope, without the aid of a carrier protein in Escherichia coli. A 6x His tag was inserted at the N terminus to facilitate its one-step purification. The protein was overexpressed in the form of insoluble inclusion bodies, which were solubilized under highly denaturing conditions and then subjected to a previously optimized arginine-mediated renaturation protocol. We purified recombinant domain III protein to near homogeneity by Ni-NTA affinity chromatography and obtained yields of approximately 30 mg/L. The purified protein was recognized in Western analyses by monoclonal antibodies specific for the 6x His tag as well as the 3H5 neutralizing epitope known to reside in domain III. The authenticity of the recombinant protein was also verified in a sandwich ELISA designed to specifically and simultaneously identify the 6x His tag and the 3H5 epitope. In addition, murine and human polyclonal sera also recognized the recombinant protein. The in vitro refolded recombinant protein preparation was biologically functional. It could effectively protect cells in culture against dengue virus type-2 infection, apparently by blocking the virus from binding to host cells. This expression/purification strategy has the potential for inexpensive scale-up and may prove to be useful for dengue diagnostics and vaccine development efforts.     

Bacterial production of recombinant human poly(ADP-ribose) glycohydrolase

Poly(ADP-ribosyl)ation, which is mainly involved in DNA repair and replication, is catalyzed mainly by poly(ADP-ribose) polymerase-1 (PARP-1) and poly(ADP-ribose) glycohydrolase (PARG). Although recombinant human PARP-1 (hPARP-1) is commercially available, there are no reports on the preparation of recombinant human PARG (hPARG). Here, we report the efficient expression and purification of a recombinant hPARG-catalytic domain (hPARG-CD) from Escherichia coli (E. coli). hPARG-CD was expressed as a fusion protein with a glutathione S-transferase (GST) tag at the N-terminus and a hexahistidine (6His) tag at the C-terminus. Both high cell density and low temperature culture conditions were important for the maximum production of soluble recombinant hPARG-CD. After sequential affinity chromatography using immobilized metal affinity resin and glutathione-Sepharose (GSH-Sephasrose), more than 95% pure recombinant hPARG-CD was obtained with a yield of approximately 2mg per 1L of E. coli culture medium. The km and Vmax values of purified recombinant hPARG-CD were 9.0 μM and 35.6 μmol/min/mg protein, respectively. These kinetic values were similar to those of purified endogenous hPARG reported previously. Furthermore, the recombinant hPARG-CD was inhibited by known PARG inhibitors such as adenosine diphosphate (hydroxymethyl) pyrrolidinediol (ADP-HPD), eosin Y, and phloxine B. These results show that the recombinant hPARG-CD is useful to search for specific inhibitors and to elucidate the regulatory mechanisms of hPARG.     

人vasorin蛋白的基因克隆、表达及纯化简

目的：克隆、表达人vasorin（VASN）蛋白。方法：利用PCR方法从HepG2细胞的cDNA中扩增获得目的基因,并插入带有6xHis标签的原核高效可溶性表达载体pET28a中,构建重组表达质粒pET28a-VASN,将重组表达质粒转化大肠杆菌BL21（DE3）,经IPTG诱导后目的基因获得表达,对融合目的蛋白进行Ni^2＋金属螯合柱纯化。结果：内切酶鉴定及基因序列测定证实重组表达质粒构建成功;对目的蛋白进行了原核表达,SDS-PAGE显示相对分子质量为61x10^3的特异表达条带;Western印迹证实目的蛋白为VASN,且主要以包涵体形式存在;对经尿素变性的表达产物进行了亲和层析纯化,有利于以后的变性、复性过程。结论：获得了人VASN融合蛋白,为其进一步的生物学功能研究奠定了基础。     

Expression of anti-neuroexcitation peptide (ANEP) of scorpion Buthus martensii Karsch in Escherichia coli

According to the cDNA sequence of anti-neuroexcitation peptide of scorpion Buthus martensii Karsch, the putative mature anti-neuroexcitation peptide (ANEP) encoding DNA fragment was obtained by a PCR method, then was cloned into expression plasmid pET28a, fused with His tag at its 3' end. When expressed in E. coli BL21 (DE3), the expression of recombinant ANEP was 15% of total cellular proteins, while most recombinant ANEP products existed in the form of insoluble inclusion bodies. Coexpression of molecular chaperones or protein disulfide isomerase could not improve its solubility. The recombinant ANEP in the cell lysate was purified to homogeneity by metal chelating affinity chromatography and Superdex 30 chromatography. In bioassay with convulsive mice model induced by thiosemicarbazide, recombinant ANEP could apparently delay the convulsion seizure of model animals by 18% and showed anti-neuroexcitatory activity.     

Expression and purification of the synthetic preS1 gene of Hepatitis B Virus with preferred Escherichia coli codon preference

To produce high levels of hepatitis B virus (HBV) preS1 protein at low cost, a DNA fragment encoding the preS1 region, residues 1-119, of HBV adr subtype was synthesized by overlapping-PCR according to Escherichia coli (E. coli) B preferred codon usage. The synthetic preS1 gene (spreS1) was cloned into the bacterial expression vector pET-30a and transferred into the expression strain E. coli BL21(DE3). Recombinant preS1 protein with an N-terminal His6 tag was expressed at high levels in soluble form, yielding about 44% of the total cellular protein. This technique overcomes problems that existed in previously reported expression systems of preS1 or its epitope, i.e., low-level expression or expression in inclusion bodies. Using this His-tagged preS1 expression system, recombinant protein was purified by single-step affinity chromatography on a Ni-NTA column resulting in a yield was about 28 mg recombinant protein per liter culture. Furthermore, Western blotting and indirect ELISA analysis demonstrate that the reactivity of preS1-specific antibody is comparable between the recombinant and commercialized preS1 protein. Thus, our improved expression system could be used for practical, low-cost large-scale production of recombinant preS1 without refolding steps.     

Immunogenicity of self-associated aggregates and chemically cross-linked conjugates of the 42 kDa Plasmodium falciparum merozoite surface protein-1

Self-associated protein aggregates or cross-linked protein conjugates are, in general, more immunogenic than oligomeric or monomeric forms. In particular, the immunogenicity in mice of a recombinant malaria transmission blocking vaccine candidate, the ookinete specific Plasmodium falciparum 25 kDa protein (Pfs25), was increased more than 1000-fold when evaluated as a chemical cross-linked protein-protein conjugate as compared to a formulated monomer. Whether alternative approaches using protein complexes improve the immunogenicity of other recombinant malaria vaccine candidates is worth assessing. In this work, the immunogenicity of the recombinant 42 kDa processed form of the P. falciparum merozoite surface protein 1 (MSP1(42)) was evaluated as a self-associated, non-covalent aggregate and as a chemical cross-linked protein-protein conjugate to ExoProtein A, which is a recombinant detoxified form of Pseudomonas aeruginosa exotoxin A. MSP1(42) conjugates were prepared and characterized biochemically and biophysically to determine their molar mass in solution and stoichiometry, when relevant. The immunogenicity of the MSP1(42) self-associated aggregates, cross-linked chemical conjugates and monomers were compared in BALB/c mice after adsorption to aluminum hydroxide adjuvant, and in one instance in association with the TLR9 agonist CPG7909 with an aluminum hydroxide formulation. Antibody titers were assessed by ELISA. Unlike observations made for Pfs25, no significant enhancement in MSP1(42) specific antibody titers was observed for any conjugate as compared to the formulated monomer or dimer, except for the addition of the TLR9 agonist CPG7909. Clearly, enhancing the immunogenicity of a recombinant protein vaccine candidate by the formation of protein complexes must be established on an empirical basis.     

Comparison of classical and affinity purification techniques of Mason-Pfizer monkey virus capsid protein: the alteration of the product by an affinity tag

The efficiencies of different procedures for purification of the capsid protein (CA) of Mason-Pfizer monkey virus are compared. Plasmids encoding both wild-type CA and two C-terminally modified sequences of CA suitable for affinity chromatography purification were prepared. CA was expressed in Escherichia coli (i) as a wild-type protein, (ii) C-terminally extended with a six-histidine tag (CA 6His), and (iii) as a protein containing a C-terminal fusion to a viral protease cleavage site followed by a six-histidine tag (CA 6aa6His). Electron microscopy was used for comparison of the resulting proteins, as CA is a structural protein with no enzymatic activity. We have found that these C-terminal fusions dramatically influenced the properties and morphology of structures formed by CA protein in E. coli. The formation of amorphous aggregates of CA was abolished and CA 6His and CA 6aa6His proteins formed organized structures. CA and CA 6aa6His accumulated in bacteria in inclusion bodies as insoluble proteins, CA 6His was found in a soluble form. Both six-histidine-tagged proteins were purified using affinity chromatography under either native (CA 6His) or denaturing (CA 6aa6His) conditions. CA protein was purified under denaturing conditions using gel-filtration chromatography followed by refolding. All proteins were obtained at a purity >98%. Both aforementioned C-terminal extensions led to dramatic changes in behavior of the products and they also affected the tendency to form organized structures within E. coli. We show here that the widely used histidine anchor may significantly alter the properties of the protein of interest.     

Bioactive recombinant neuregulin-1, -2, and -3 expressed in Escherichia coli

The neuregulins (NRGs) are a family of signaling proteins that are ligands for receptor tyrosine kinase of the ErbB family (namely ErbB3 and ErbB4). To date, four different neuregulin genes have been identified (neuregulin1-4). While NRG1 isoforms have been extensively studied, little is yet known about the other genes of the family. We report the expression of recombinant NRG1beta1, NRG2alpha, NRG2beta, and NRG3 as recombinant fusion proteins in Escherichia coli. The cDNA encoding for the EGF-like domain of each protein was cloned from the mouse olfactory bulb and inserted into the pET-19b vector allowing for bacterial expression of the protein fused to an N-terminal His tag. The recombinant NRGs expressed in the inclusion bodies were solubilized under denaturing conditions, purified by affinity chromatography, and refolded via dialysis in the presence of reducing agents. Purified recombinant NRGs were active as they bound to their receptors and induced their phosphorylation. In particular, and in agreement with data on the native proteins, all the molecules were able to bind and activate ErbB4 while only the rNRG1 and the two rNRG2 (but not rNRG3) bound ErbB3.     

Recombinant Human Cytomegalovirus Protease with a C-Terminal (His)6Extension: Purification, Autocatalytic Release of the Mature Enzyme, and Biochemical Characterization

Human cytomegalovirus protease (CMV PR) is a target for the development of antiviral therapeutics. To obtain large amounts of native protease, a 268-amino-acid polypeptide with a hexahistidinyl tag at the C terminus was expressed inEscherichia coli.The first 262 amino acids of the recombinant protein were identical to the amino acid sequence of native CMV PR, except for mutations introduced at the internal cleavage site to eliminate autoproteolysis at that site. The hexahistidinyl tag was placed downstream of amino acid 262 of the native CMV PR sequence. In this design, the Ala-Ser bond at amino acids 256–257 constitutes a site naturally cleaved by the protease during capsid maturation. The 268-amino-acid polypeptide with the (His)₆tag was expressed at high levels inE. colias inclusion bodies. After solubilization of the inclusion bodies, the protease was purified to homogeneity by a single step using Ni²⁺affinity chromatography. The protease was refolded to an active enzyme using dialysis which leads to effective autocleavage of the Ala-Ser bond at amino acids 256–257 to remove 12 amino acids including the (His)₆tag from the C terminus of the protein. This strategy yielded large amounts of highly purified CMV PR with the native N terminus and C terminus. Approximately 40 mg of purified CMV PR was obtained per liter of cell culture using this strategy. The enzymatic activity of CMV PR purified from inclusion bodies and refolded to an active enzyme was similar to the enzymatic activity of CMV PR expressed as a soluble protein inE. coli.In addition, the refolded CMV PR could be crystallized for X-ray diffraction.     

An exocellular protein from the oil-degrading microbe Acinetobacter venetianus RAG-1 enhances the emulsifying activity of the polymeric bioemulsifier emulsan

The oil-degrading microorganism Acinetobacter venetianus RAG-1 produces an extracellular polyanionic, heteropolysaccharide bioemulsifier termed emulsan. Emulsan forms and stabilizes oil-water emulsions with a variety of hydrophobic substrates. Removal of the protein fraction yields a product, apoemulsan, which exhibits much lower emulsifying activity on hydrophobic substrates such as n-hexadecane. One of the key proteins associated with the emulsan complex is a cell surface esterase. The esterase (molecular mass, 34.5 kDa) was cloned and overexpressed in Escherichia coli BL21(DE3) behind the phage T7 promoter with the His tag system. After overexpression, about 80 to 90% of the protein was found in inclusion bodies. The overexpressed esterase was recovered from the inclusion bodies by solubilization with deoxycholate and, after slow dialysis, was purified by metal chelation affinity chromatography. Mixtures containing apoemulsan and either the catalytically active soluble form of the recombinant esterase isolated from cell extracts or the solubilized inactive form of the enzyme recovered from the inclusion bodies formed stable oil-water emulsions with very hydrophobic substrates such as hexadecane under conditions in which emulsan itself was ineffective. Similarly, a series of esterase-defective mutants were generated by site-directed mutagenesis, cloned, and overexpressed in E. coli. Mutant proteins defective in catalytic activity as well as others apparently affected in protein conformation were also active in enhancing the apoemulsan-mediated emulsifying activity. Other proteins, including a His-tagged overexpressed esterase from the related organism Acinetobacter calcoaceticus BD4, showed no enhancement.     

Purification of human alpha-L-fucosidase precursor expressed in Escherichia coli as a glutathione S-transferase fusion protein

Alpha-L-fucosidase (FUC) is a glycosidase involved in the degradation of fucose-containing glycoconjugates. A cDNA representing the complete sequence of human FUC was inserted into the prokaryotic expression vector pGEX-2T. High levels of the glutathione S-transferase (GST) fusion protein were detected in Escherichia coli cells after induction with isopropyl thio-beta-D-galactopyranoside. The GST-FUC protein was mostly found as inclusion bodies and attempts to optimise its expression as a soluble form were unsuccessful. Nevertheless, the recombinant protein was purified by affinity chromatography on glutathione-sepharose and its fucosidase activity was characterised. After thrombin cleavage of the GST tag, the FUC precursor protein was purified by electro-elution.     

Development of an improved preparation and an enzyme-linked immunosorbent assay for anti-neuroexcitation peptide (ANEP)

Anti-neuroexcitation peptide (ANEP) is a novel recombinant peptide obtained from the venom of the Chinese scorpion Buthus martensii Karsch. However, the expression of recombinant ANEP in Escherichia coli results in the formation of insoluble aggregates known as inclusion bodies. Here, we describe a novel method for the preparation of ANEP which maximizes the yields of recombinant peptide in a soluble and active form. A non-fusion expression plasmid pNJUTRX-1-ANEP-His(6) encoding recombinant ANEP with a His(6)-tag at its C-terminus was constructed and transformed into E. coli strain BL21 (DE3). The expressed ANEP was almost in soluble form and accounted for about 12% of the total cellular proteins. The recombinant ANEP in the cell lysate was purified to homogeneity by His Bind affinity chromatography. This effective method solved the problem of a lack of sufficient active peptide which, until now, has hampered the further research and development. In order to develop an immunoassay method for ANEP, polyclonal rabbit antiserum was raised against the prepared ANEP and purified by protein A affinity chromatography. It was confirmed that the antibody reacted with recombinant ANEP by both Western blotting and ELISA results. Using purified antibody, the immunoassay method was developed.     

Expression of an immunologically reactive merozoite surface protein (MSP-1(42)) in E. coli

The 42-kDa carboxyl-terminal processing fragment of Plasmodium falciparum merozoite surface protein-1 (PfMSP-1(42)) is one of the anti-malarial vaccine candidate antigens. In the present study, recombinant MSP-1(42) was expressed as a fusion protein in a novel E. coli host. The average yield of the recombinant protein was 48 mg/l of bacterial culture. The antigenicity and immunogenicity of the purified protein were evaluated by comparing the results with those obtained from a well-characterized recombinant MSP-1(42) (Bmp42) expressed in the baculovirus expression system previously described from our laboratory. We observed that there is a high degree of similarities between the two recombinant proteins. Based on the results from T and B cell response, in vitro parasite growth inhibition, as well as cross-reactivities with several well-characterized MSP-1 specific Mabs, the bacterial expressed protein is apparently comparable to Bmp42 in terms of immunoreactivities. Our results suggest that the bacterial expression system could be employed to express immunologically active recombinant MSP-1(42) at elevated levels. This system may be an attractive alternative for producing a protective vaccine for human use at lower cost.     

Refolding, purification, and characterization of a loop deletion mutant of human Bcl-2 from bacterial inclusion bodies

This report describes the cloning of recombinant human Bcl-2, in which the putative disordered loop region has been replaced with a flexible linker and the hydrophobic C-terminus has been replaced with a 6xHis tag (Bcl-2(6-32)-AAAA-Bcl-2(86-206)-HHHHHH, abbreviation rhBcl-2; amino acid numbering excludes the initiating methionine). This protein was expressed in Escherichia coli where it accumulated in insoluble form in inclusion bodies. After lysis the washed inclusion bodies were solubilized and an l-arginine assisted protein refolding route was employed to obtain biologically active protein. rhBcl-2 was purified further by nickel chelate chromatography to give protein of >95% purity, with an overall yield of 5 mg per g of E. coli cell paste. Edman sequencing showed that approximately 90% of the rhBcl-2 retained the initiating methionine residue. Analytical size exclusion chromatography suggested that the refolded and purified rhBcl-2 was monomeric in nondenaturing solution. Purified protein had an affinity for a Bax BH3 domain peptide comparable to that for in vivo folded recombinant human Bcl-2 and suppressed caspase activation in a cell-free assay for apoptosis. 1H NMR spectroscopy of rhBcl-2, both free and complexed with the Bax BH3 domain peptide, provided further evidence for the structural and functional integrity of the refolded protein. These findings parallel and extend those of Muchmore et al., who found that a loop deletion mutant of human Bcl-XL retained anti-apoptotic function.     

On-column refolding purification and characterization of recombinant human interferon-lambda1 produced in Escherichia coli

Interferon-lambda1 (IFN-lambda1) is a member of the recently discovered type III IFNs (IFN-lambda), which possesses antiviral, antitumor, and immunomodulatory activities. In this study, the recombinant human IFN-lambda1 containing a hexahistidine tag was expressed in Escherichia coli. IFN-lambda1 was overexpressed under the control of T7 promoter and most of the protein existed in the form of inclusion bodies. The expressed insoluble protein was solubilized with urea, purified and refolded by one-step immobilized metal-ion affinity chromatography using Ni(2+)-nitrilotriacetic acid agarose. The purified IFN-lambda1 appeared as a single band on SDS-PAGE and the purity was more than 95%. The yield was 86 mg IFN-lambda1 from 1L of bacterial culture. Western blotting and N-terminal sequencing confirmed the identity of the purified protein. The purified IFN-lambda1 exhibited specific antiviral activity as demonstrated by a cytopathic effect reduction assay. Thus, this on-column refolding method provides an efficient way to obtain an active IFN-lambda1 with high yield and high purity.     

Heterologously expressed polypeptide from the yeast meiotic gene HOP1 binds preferentially to yeast DNA.

HOP1 protein, present in sporulating cells of Saccharomyces cerevisiae and believed to be a component of the synaptonemal complex, has been expressed in Escherichia coli fused to a biotinylated tag protein. Once solubilized from bacterial inclusion bodies, the HOP1 fusion protein was purified by using a combination of avidin-affinity chromatography and gel filtration FPLC and refolded. Sequence comparisons indicate that the HOP1 gene product contains a zinc finger motif, which may confer DNA binding properties, and the recombinant polypeptide was used to assess the putative DNA binding properties of the product of native HOP1 protein using a gel-shift assay. Protein and protein-DNA complexes were detected by exploiting the affinity of streptavidin-alkaline phosphatase for the biotinylated tag protein after Western blotting. The HOP1 fusion protein bound unambiguously to digested genomic yeast DNA. This binding possessed some degree of specificity, was maintained under a wide range of salt concentrations, and was unaffected by the presence of high concentrations of competitor DNA (synthetic poly[dI-dC].poly[dI-dC]). In contrast, no shift was detected when the fusion protein was incubated with digested genomic DNA from Arabidopsis, or with lambda/HindIII DNA. Incubation with digested genomic DNA from Lilium produced a small change in the mobility of the protein. The biotinylated tag protein failed to show any DNA binding activity. Scatchard analysis indicated an apparent yeast genomic DNA:HOP1 fusion protein dissociation constant of K(d) = 5 x 10(-7) M.     

重组人胰高血糖素样肽-1类似物的分离纯化和鉴定

将合成的人胰高血糖素样肽-1类似物基因插入到原核表达质粒pGEX-4T-3中,构建成rhGLP-1类似物与谷胱甘肽巯基转移酶（glutathione-S-transferases,GST）的融合表达载体pGEX-rhGLP-1类似物,转化大肠杆菌BL21（DE3）获得重组菌株。IPTG诱导表达的菌体经高压均质机破碎后,离心收集包涵体,经尿素变性、Glutathione-Sepharose 4B亲和层析、肠激酶酶切、SP-Sepharose FF层析和反相层析RP-C18脱盐后冻干,得到纯度大于96%的rhGLP-1类似物,经质谱测定,分子量与理论值一致。生物学活性分析表明,rhGLP-1类似物具有促进表达有GLP-1受体的HEK293细胞cAMP增加的活性。     

Recombinant human CIS2 (SOCS2) protein: subcloning,expression, purification,and characterization

The 1x myc-tagged cDNA encoding for human CIS2 protein was subcloned into a pET-29a+ vector in order to express and produce a recombinant S-peptide tagged and 1x myc-tagged protein in Escherichia coli BL21(DE3). The constitutively expressed protein was isolated from inclusion bodies by a simple solubilization-renaturation procedure and purified by anion-exchange chromatography on Q-Sepharose. The recombinant form was found to be pure and monomeric as judged by both SDS-PAGE and gel-filtration chromatography and its biological activity was proven by its ability to bind to the tyrosine-phosphorylated cytosolic fragment of human growth hormone receptor fused to glutathione-S-transferase. Recombinant CIS2 was compared by biochemical, immunological, and molecular methods to the CIS2 protein expressed in eukaryotic cells. This report describes the first substantial production of biologically active recombinant human CIS2.