Biochemical characterization of rhEpo-Fc fusion protein expressed in CHO cells

One challenge in biotechnology industry is to produce recombinant proteins with prolonged serum half-life. One strategy for enhancing the serum half-life of proteins includes increasing the molecular weight of the protein of interest by fusion to the Fc part of an antibody. In this context, we have expressed a homodimer fusion protein in CHO cells which consists of two identical polypeptide chains, in which our target protein, recombinant human erythropoietin (rhEpo), is N-terminally linked with the Fc part of a human IgG₁ molecule. In the present study, culture supernatant of a stable clone was collected and purified by affinity chromatography prior characterization. We emphasized product quality aspects regarding the fusion protein itself and in addition, post-translational characterization of the subunits in comparison to human antibodies and rhEpo. However, overproduction of recombinant proteins in mammalian cells is well established, analysis of product quality of complex products for different purposes, such as product specification, purification issues, batch to batch consistency and therapeutical consequences, is required. Besides product quantification by ELISA, N-acetylneuraminic acid quantification in microtiterplates, quantitative isoform pattern and entire glycan profiling was performed. By using these techniques for the characterization of the recombinant human Epo-Fc (rhEpo-Fc) molecule itself and furthermore, for the separate characterization of both subunits, we could clearly show that no significant differences in the core glycan structures compared to rhEpo and human antibody N-glycans were found. The direct comparison with other rhEpo-Fc fusion proteins failed, because no appropriate data were found in the literature.     

Biochemical characterization of a new recombinant TNF receptor-hyFc fusion protein expressed in CHO cells

The currently used Tumor Nectosis Factor (TNF)-α blockers such as infliximab, adalimumab and etanercept have Fc regions of the human IgG1 subtype have advantages in terms of in vivo half-life, however these could raise potential concerns for unwanted effector-mediated effects, such as antibody dependent cellular cytotoxicity (ADCC) or complement-dependent cytotoxicity (CDC). To address this issue, we constructed a novel hybrid protein with decreased ADCC and CDC potentials by fusing the TNF receptor to a hybrid Fc (hyFc) containing CH2 and CH3 regions of IgG4 and highly flexible hinge regions of IgD which neither has ADCC and CDC activities. The resulting fusion protein, TNFR-hyFc, was over-expressed in CHO cells. For use as a pre-clinical material in pharmacology, PK and toxicological evaluations were carried out for biochemical characterization which was then compared with etanercept that has similarity in structure. Amino acid composition analysis and peptide mapping showed that the expressed TNFR-hyFc matched the theoretical composition derived from the DNA sequence. Matrix-assisted laser desorption/ionization-time of flight (MALDI-TOF) showed that TNFR-hyFc is 2.9 kDa larger than etanercept. MALDI-TOF after removal of N-glycans by PNGase treatment showed that TNFR-hyFc is 3.9 kDa larger than etanercept. Isoelectric focusing and monosaccharide analysis showed that TNFR-hyFc is slightly more acidic than etanercept. N-terminal amino acid sequencing showed that N-terminal heterogeneity is present in both TNFR-hyFc and etanercept, although the ratios are somewhat different. Glycan analysis showed that the main glycan form is bi-antennary, similar to etanercept.     

Expression and purification of human respiratory syncytial virus recombinant fusion protein

The Human Respiratory Syncytial Virus (HRSV) fusion protein (F) was expressed in Escherichia coli BL21A using the pET28a vector at 37 °C. The protein was purified from the soluble fraction using affinity resin. The structural quality of the recombinant fusion protein and the estimation of its secondary structure were obtained by circular dichroism. Structural models of the fusion protein presented 46% of the helices in agreement with the spectra by circular dichroism analysis. There are only few studies that succeeded in expressing the HRSV fusion protein in bacteria. This is a report on human fusion protein expression in E. coli and structure analysis, representing a step forward in the development of fusion protein F inhibitors and the production of antibodies.     

Refolding and characterization of recombinant human GST-PD-1 fusion protein expressed in Escherichia coli

Programmed death-1 (PD-1) is a costimulatory molecule of CD28 family expressed onactivated T, B and myeloid cells. The engagement of PD-1 with its two ligands, PD-L1 and PD-L2, inhibitsproliferation of T cell and production of a series of its cytokines. The blockade of PD-1 pathway is involvedin antiviral and antitumoral immunity. In this study, human PD-1 cDNA encoding extracellular domain wasamplified and cloned into expression plasmid pGEX-Sx-3. The fusion protein GST-PD-1 was effectivelyexpressed in E. coli BL21 (DE3) as inclusion bodies and a denaturation and refolding procedure was per-formed to obtain bioactive soluble GST-PD-I. Fusion protein of above 95% purity was acquired by a conve-nient two-step purification using GST affinity and size exclusion columns. Furthermore, a PD-L1-dependentin vitro bioassay method was set up to characterize GST-PD-1 bioactivity. The results suggested that GST-PD-1 could competently block the interaction between PD-Ll and PD-l and increase the production of IL-2 and IFN-γ of phytohemagglutinin-activated T cells.     

Structural characterization of mumps virus fusion protein core

The fusion proteins of enveloped viruses mediating the fusion between the viral and cellular membranes comprise two discontinuous heptad repeat (HR) domains located at the ectodomain of the enveloped glycoproteins. The crystal structure of the fusion protein core of Mumps virus (MuV) was determined at 2.2 A resolution. The complex is a six-helix bundle in which three HR1 peptides form a central highly hydrophobic coiled-coil and three HR2 peptides pack against the hydrophobic grooves on the surface of central coiled-coil in an oblique antiparallel manner. Fusion core of MuV, like those of simian virus 5 and human respiratory syncytium virus, forms typical 3-4-4-4-3 spacing. The similar characterization in HR1 regions, as well as the existence of O-X-O motif in extended regions of HR2 helix, suggests a basic rule for the formation of the fusion core of viral fusion proteins.     

An albumin–butyrylcholinesterase for cocaine toxicity and addiction: Catalytic and pharmacokinetic properties

Butyrylcholinesterase (BChE, EC 3.1.1.8) is important in human cocaine metabolism despite its limited ability to hydrolyze this drug. Efforts to improve the catalytic efficiency of this enzyme have led to a quadruple mutant cocaine hydrolase, “CocH”, that in animal models of addiction appears promising for treatment of overdose and relapse. We incorporated the CocH mutations into a BChE–albumin fusion protein, “Albu-CocH”, and evaluated the pharmacokinetics of the enzyme after i.v. injection in rats. As assessed from the time course of cocaine hydrolyzing activity in plasma, Albu-CocH redistributed into extracellular fluid (16% of estimated total body water) with a t_1/2 of 0.66 h and it underwent elimination with a t_1/2 of 8 h. These results indicate that the enzyme has ample stability for short-term applications and may be suitable for longer-term treatment as well. Present data also confirm the markedly enhanced power of Albu-CocH for cocaine hydrolysis and they support the view that Albu-CocH might prove valuable in treating phenomena associated with cocaine abuse.     

Expression, purification, and characterization of a novel recombinant fusion protein, rhTPO/SCF, in Escherichia coli

Thrombopoietin (TPO) is the principal regulatory cytokine of megakaryopoiesis and thrombopoiesis and promotes all aspects of megakaryocyte development. Stem cell factor (SCF) is mainly a pleiotropic cytokine acting on hematopoiesis by promoting the survival and proliferation of hematopoietic stem cells and has a potent synergistic effect on megakaryopoiesis in the presence of TPO. Here, we report the construction, expression, and purification of a novel recombinant human thrombopoietin/stem cell factor (rhTPO/SCF) fusion protein, which consists of a truncated human thrombopoietin (1-157 a.a.) plus a truncated human stem cell factor (1-145 a.a.), linked by a peptide (GGGGSPGGSGGGGSGG). The TPO/SCF gene was cloned into the Escherichia coli expression vector pET28a and expressed in BL21(DE3) strain. The rhTPO/SCF constituted up to 6% of the total bacterial protein. Co-expression with E. coli chaperones, Trigger Factor (TF) and GroES/GroEL, and lowering cultivation temperature cooperatively improved the solubility of expressed rhTPO/SCF, resulting in about fourfold increase in the yield soluble rhTPO/SCF. The rhTPO/SCF was purified to homogeneity using anion exchange followed by metal affinity chromatography. Western blot analysis confirmed the identity of the purified protein. rhTPO/SCF stimulated a dose-dependent cell proliferation in both TF1 and Mo7e cell lines.     

Purification and characterization of the fusion protein trypsin-streptavidin expressed in Escherichia coli

Expression of fusion protein trypsin-streptavidin (TRYPSA)⁴ in Escherichia coli was evaluated and the protein purified. Protein expression was induced by 1 mM isopropylthio--D-galactoside (IPTG), and the enzyme activity was measured by the hydrolysis rate of p-toluenesulfonyl-l-arginine methyl ester (TAME). Expression of the fusion protein in the cell-free extract decreased with increased induction time; correspondingly, that in the inclusion bodies increased. The total expression in Luria–Bertani broth (LB) and Terrific Broth (TB) media reached the highest levels in 2 hr at 30°C. The optimum expression level was 35 and 48 U/L in LB and TB, respectively. Expression of the fusion protein was verified by Western Blot analysis using streptavidin antiserum, and the fusion protein was purified using a benzamidine Sepharose 6B affinity column at room temperature. The molecular size of the soluble purified fusion protein was determined by size-exclusion chromatography using Superose 12 FPLC. A molecular weight of 39–40 kDa was obtained, indicating that the soluble protein exists as a monomer; thus, the presence of the trypsin domain must prevent the streptavidin domain from tetramer formation.     

Expression of a novel recombinant stem cell factor/macrophage colony-stimulating factor fusion protein in baculovirus-infected insect cells

A novel human stem cell factor (SCF)/macrophage colony-stimulating factor (M-CSF) fusion protein gene was constructed, in which the coding regions of human SCF cDNA (1-165aa) and the truncated M-CSF cDNA (1-149aa) were connected by a linker sequence encoding a short peptide GGGGSGGGGSGG. The SCF/M-CSF gene was cloned into baculovirus transfer vector pVL1392 under the control of polyhedrin promoter and expressed in the Sf9 cells (Spodoptera frugiperda). SDS-PAGE and Western blot analysis showed that the purified fusion protein was a homodimer with a molecular weight about 84kDa under non-reducing conditions or a monomer about 42kDa under reducing conditions. The specific activity of rhSCF/M-CSF was 17 times as high as that of monomeric rhSCF to stimulate the proliferation of TF-1 cell. The results of macrophages colony-forming (CFU-M) assay performed with human bone marrow mononuclear cells demonstrated that rhSCF/M-CSF was more potent in promoting CFU-M than the equimolar of SCF, M-CSF or that of two cytokines mixture.     

Isolation, characterization and recombinant protein expression in Veggie-CHO: A serum-free CHO host cell line

The dihydrofolate reductase-deficient Chinese hamster ovary cell line, DXB11-CHO, commonly used as a host cell for the production of recombinant proteins requires 7.5% serum-supplementation for optimal growth. Regulatory issues surrounding the use of serum in clinical production processes and the direct and indirect costs of using serum in large-scale production and recovery processes have triggered efforts to derive serum-independent host cell lines. We have successfully isolated a serum-free host that we named Veggie- CHO. Veggie-CHO was generated by adapting DXB11-CHO cells to growth in serum-free media in the absence of exogenous growth factors such as Transferrin and Insulin-like growth factor, which we have previously shown to be essential for growth and viability of DXB11- CHO cells. Veggie-CHO cells have been shown to maintain an average doubling time of 22 hr in continuous growth cultures over a period of three months and have retained the dihydrofolate reductase -deficient phenotype of their parental DXB11-CHO cells. These properties and the stability of its serum-free phenotype have allowed the use of Veggie- CHO as host cells for transfection and amplified expression of recombinant proteins. We describe the derivation a serum-free recombinant cell line with an average doubling time of 20 hr and specific productivity of 2.5 Units recombinant Flt-3L protein per 10e6 cells per day. This revised version was published online in August 2006 with corrections to the Cover Date.     

Pharmacokinetics and in vitro and in vivo anti-tumor response of an interleukin-2-human serum albumin fusion protein in mice

Purpose: Albuleukin fusion protein is a recombinant human interleukin-2 (rIL-2) genetically fused to recombinant human serum albumin (rHSA). The pharmacokinetics and pharmacologic activity of Albuleukin were examined in mice to determine whether the fusion protein had the immunomodulatory and anti-tumor properties of rIL-2 as well as a prolonged serum half-life due to the rHSA. Methods: The effect of Albuleukin on lymphocyte proliferation, IL-2 receptor binding, and release of IFN- from human NK cells were examined in vitro. For the pharmacokinetic analysis, Albuleukin and rIL-2 were administered intravenously (i.v.) and subcutaneously (s.c.) to BALB/c mice, both at a single dose of 500 g/kg. The anti-tumor properties of Albuleukin were evaluated in a Renca tumor model in BALB/c mice and in a metastatic liver model of B16F10 melanoma in C57B1/6 mice. In the Renca tumor model, BALB/c mice were dosed intraperitoneally (i.p.) and s.c. with Albuleukin on days 12, 14, 16, 19, 21, and 23 and i.p. with rIL-2 daily for two periods of 5 days (days 10–14 and 17–21). In the B16 melanoma model, C57B1/6 mice were dosed s.c. with rIL-2 twice daily or Albuleukin every 48 h for 14 days. Results: In vitro, Albuleukin induced the proliferation of primary human and mouse T cells and B cells and primary human NK cells, competed with rIL-2 for binding to the IL-2 receptors, and induced the production of IFN- from primary human NK cells. The s.c. bioavailability of Albuleukin was about 45% relative to the i.v. dose. Plasma half-life was prolonged and ranged from 6 to 8 h with Albuleukin, compared to 19–57 min with rIL-2. Total clearance of Albuleukin was about 50-fold slower than that of rIL-2 after i.v. dosing. In vivo, Albuleukin suppressed the growth of Renca tumors and induced a dense infiltration of CD4⁺ and CD8⁺ T cells. Both Albuleukin and rIL-2 significantly reduced the tumor burden in mice with hepatic B16F10 metastases. Albuleukin significantly reduced the incidence of residual macroscopic hepatic tumors, resulting in improved survival relative to controls and rIL-2. Conclusion: Results from these studies suggest that the therapeutic efficacy of rIL-2 is improved in mice by prolonging its in vivo half-life through genetic fusion to albumin. Albuleukin, the fusion protein, had pronounced anti-tumor effects in Renca and hepatic melanoma tumor models without an increase in mortality. On the basis of its preclinical effects, Albuleukin was brought to the clinic to assess its therapeutic benefit in a variety of cancers.     

长效重组蛋白药物发展动态

部分重组蛋白药物存在半衰期短的缺陷,临床给药频率高,且大多为注射给药,严重影响患者使用依从性。长效重组蛋白药物是近年来生物技术药物发展的重要趋势之一。对蛋白分子进行改造或修饰,延长重组蛋白药物的半衰期,实现长效以减少给药频率主要通过4种方式:化学修饰、构建突变体、蛋白融合、糖基化修饰。针对上述4种长效化方式及已上市相关产品进行了综述。展望未来,紧跟国外先进技术和质量标准发展,进一步提高国产长效重组蛋白药物质量水平,推进国内相关产品标准升级,推动创新长效重组蛋白药物开发及专利布局是未来几年国内该领域的发展方向。     

HIV—1 P24截短体与gp41截短体的融合蛋白在大肠杆菌中的表达、纯化和鉴定

用基因重组技术将截短的HIV－1 p24基因和gp41基因连接成嵌合基因,插入质粒pGEX-4T3,构建成重组表达质粒pGEX-F。将pGEX-F转化大肠杆菌BL21。经IPTG诱导表达,pGEX-F在大肠杆菌BL21中获得了高效表达。融合蛋白P24－gp41经Glutathione-Sepharose4B亲和层析纯化后,用间接ELISA和免疫印迹检测HIV抗体阳性血清和正常人血清,P24－gp41只与HIV抗体阳性血清反应,证明获得的融合蛋白P24－gp41有很强的抗原特异性和免疫反应性,具有较高的应用价值。     

The construction and characterization of a bifunctional EGFP/sAPRIL fusion protein

A fusion protein of enhanced green fluorescent protein (EGFP) and soluble domain of human a proliferation-inducing ligand (sAPRIL) was efficiently expressed in Escherichia coli BL 21 (DE3). The soluble EGFP/sAPRIL, around 43 kDa, was purified in milligram amounts using metal chellate affinity chromatography and detected with anti-His₆ and anti-hsAPRIL monoclonal antibody. The chimeric protein exhibited similar fluorescence spectra with free EGFP. In vitro, purified EGFP/sAPRIL specifically bound receptor B cell maturation antigen (BCMA) detected by enzyme linked immunosorbent assay (ELISA) and receptors [including heparan sulfate proteoglycan (HSPGs)]-positive cell lines analyzed by fluorescence-activated cell sorting (FACS). Confocal laser microscopy images visibly showed the HSPGs’-dependent binding of EGFP/sAPRIL to NIH-3T3 cell. In addition, the chimera retained the bioactivity to stimulate/co-stimulate proliferation of NIH-3T3 and Jurkat cell/human B cell in vitro. Therefore, the fusion protein shows a readily obtainable source of biologically active sAPRIL which has considerable potential for single-step fluorescence detection assay in the study of APRIL and its receptors.     

人sApo2L-Fc的分子构建及其在CHO细胞中的表达

目的：构建人sApo2L-Fc分子,在中国仓鼠卵巢细胞（CHO）中表达有生物学活性的人Apo2L-Fc融合蛋白。 方法：将sApo2L-Fc基因克隆入pcDNA3.1（+）表达载体,重组质粒转化大肠杆菌DH5α。挑取阳性克隆扩大培养,提取质粒进行酶切鉴定;采用脂质体法将重组质粒转入CHO细胞,经G418加压筛选、ELISA检测,挑选表达较高的阳性转化子扩大培养;表达的sApo2L-Fc融合蛋白经Protein A亲和柱纯化,纯化产物用SDS-PAGE、Western Blotting检测样品的分子量及免疫原性,用L929细胞进行生物活性测定。 结果：酶切鉴定及测序显示重组子构建与预想一致;ELISA证实了sApo2L-Fc融合蛋白在CHO细胞中的表达;SDS-PAGE检测到纯化产物的分子量与理论分子量相符;在同样的位置,Western Blotting显示阳性;L929细胞测定：纯化产物的生物学活性达1.0×105IU/mg。 结论：构建了sApo2L-Fc的表达载体,并成功地在CHO中表达,表达的sApo2L-Fc融合蛋白具有生物学活性。     

Crystallization and characterization of the recombinant human Clara cell 10-kDa protein

Crystals of recombinant human Clara cell 10-kDa protein were grown both from ammonium sulfate and polyethylene glycol (PEG) solutions. Crystals grown from ammonium sulfate solution have been characterized by X-ray diffraction studies as monoclinic with the space group C2 and lattice constants a = 69.2 Å, b = 83.0 Å, c = 58.3 Å, and β = 99.7°. The monoclinic crystals diffract to beyond 2.5 Å. Some of the crystals grown from PEG were of a similar habit to those grown from ammonium sulfate, but others were triclinic with the space group P1 and cell constants a = 40.3 Å, b = 46.3 Å, c = 51.3 Å, α = 117.7°, β = 102.3°, and γ = 71.4°. These crystals diffract to beyond 3.2 Å. © 1994 Wiley-Liss, Inc.     

Structural characterization of the fusion core in syncytin, envelope protein of human endogenous retrovirus family W

Syncytin is a captive retroviral envelope protein, possibly involved in the formation of the placental syncytiotrophoblast layer generated by trophoblast cell fusion at the maternal-fetal interface. We found that syncytin and type I viral envelope proteins shared similar structural profiling, especially in the regions of N- and C-terminal heptad repeats (NHR and CHR). We expressed the predicted regions of NHR (41aa) and CHR (34aa) in syncytin as a native single chain (named 2-helix protein) to characterize it. 2-Helix protein exists as a trimer and is highly alpha-helix, thermo-stable, and denatured by low pH. NHR and CHR could form a protease-resistant complex. The complex structure built by the molecular docking demonstrated that NHR and CHR associated in an antiparallel manner. Overall, the 2-helix protein could form a thermo-stable coiled coil trimer. The fusion core structure of syncytin was first demonstrated in endogenous retrovirus. These results support the explanation how syncytin mediates cytotrophoblast cell fusion involved in placental morphogenesis.     

Construction and characterization of a bi-functional EGFP/sBAFF fusion protein

A fusion between gene encoding fluoresce-enhanced green fluorescent protein variant (EGFP) and soluble domain of human B-cell-activating factor of the TNF family (sBAFF) was constructed and expressed in Escherichia coli. The EGFP/sBAFF had an apparent molecular weight of 45 kDa and was detected with anti-hsBAFF and anti-His(6) monoclonal antibodies. After being purified by immobilized metal affinity chromatography (IMAC), the fusion protein retained similar fluorescence spectra to those of EGFP. Biological activity assays showed the EGFP/sBAFF as well as sBAFF could co-stimulated human B lymphocyte proliferation in vitro. In addition, EGFP/sBAFF has shown specific binding to BAFF receptors positive-cells and the stained cells could be analyzed with flow cytometry. Thus, the fusion protein represents a readily obtainable source of biologically active sBAFF that may prove useful in further studies on BAFF and its receptors.     

Specific and efficient cleavage of fusion proteins by recombinant plum pox virus NIa protease

Site-specific proteases are the most popular kind of enzymes for removing the fusion tags from fused target proteins. Nuclear inclusion protein a (NIa) proteases obtained from the family Potyviridae have become promising due to their high activities and stringencies of sequences recognition. NIa proteases from tobacco etch virus (TEV) and tomato vein mottling virus (TVMV) have been shown to process recombinant proteins successfully in vitro. In this report, recombinant PPV (plum pox virus) NIa protease was employed to process fusion proteins with artificial cleavage site in vitro. Characteristics such as catalytic ability and affecting factors (salt, temperature, protease inhibitors, detergents, and denaturing reagents) were investigated. Recombinant PPV NIa protease expressed and purified from Escherichia coli demonstrated efficient and specific processing of recombinant GFP and SARS-CoV nucleocapsid protein, with site F (N V V V H Q black triangle down A) for PPV NIa protease artificially inserted between the fusion tags and the target proteins. Its catalytic capability is similar to those of TVMV and TEV NIa protease. Recombinant PPV NIa protease reached its maximal proteolytic activity at approximately 30 degrees C. Salt concentration and only one of the tested protease inhibitors had minor influences on the proteolytic activity of PPV NIa protease. Recombinant PPV NIa protease was resistant to self-lysis for at least five days.     

CTLA4Ig融合蛋白在CHO细胞中的表达

CTLA4Ig是人CTLA4胞外区与人免疫球蛋白铰链区、CH2区、CH3区组成的融合蛋白,可以与B7结合,通过阻断B7与CD28的结合,从而阻断B7介导的T细胞活化必需的共刺激信号,可作为免疫抑制剂用于器官移植。将CTLA4Ig融合分子克隆到真核表达载体pCI-dhfr,并用脂质体方法转染到COS7和CHO-dhfr-细胞中,用氨甲喋呤筛选转染的CHO-dhfr-细胞。用RT-PCR、ELISA、细胞免疫荧光染色和Western-blot鉴定重组蛋白的表达。采用A蛋白纯化重组蛋白。