IFN-λ1 in CHO cells: its expression and biological activity

Background

Many studies have investigated the characteristics and biological activities of type III interferon (IFN), finding that it has similar features to type I IFN but also unique actions because it is recognized by a different receptor.

Results

A full-length recombinant human IFN-λ1 (rhIFN-λ1) cDNA was cloned into the pDF expression vector and stably expressed in Flp-In-CHO cells. After four purification steps (ammonium sulfate precipitation, SP Sepharose chromatography, Blue Sepharose 6 fast flow affinity chromatography and molecular sieve chromatography), the rhIFN-λ1 had a purity of about 90% and was found to have the predicted biological activities. The anti-viral activity of rhIFN-λ1 was determined as 10⁶ IU/mg using the vesicular stomatitis virus (WISH-VSV) assay system. The anti-proliferation activity of rhIFN-λ1 was measured using the MTS method and the growth inhibition ratio was 57% higher than that for recombinant human IFN-α2b (rhIFN-α2b) when the rhIFN-λ1 concentration was 1000 IU/ml. rhIFN-λ1 had lower natural killer cell cytotoxicity than rhIFN-α2b.

Conclusion

The Flp-In-CHO system is suitable for stably expressing rhIFN-λ1 that possesses the predicted anti-viral, anti-proliferation and natural killer cell cytotoxicity-promoting activities.

     

重组人干扰素λ1的表达、纯化及生物活性研究

目的:利用大肠杆菌系统表达重组人Ⅲ型干扰素λ1(rhIFN-λ1),并进行纯化,以比较其与重组人干扰素-α2b(rhIFN-α2b)生物学活性的差异。方法:密码子优化的rhIFN-λ1基因与pET-44a载体连接构建原核表达质粒,在大肠杆菌BL21(DE3)中表达,表达产物经系列层析纯化;采用细胞病变抑制法比较纯化的rhIFN-λ1与rhIFN-α2b、市售rhIFN-λ1的抗病毒活性;采用MTS法比较这些干扰素的抗肿瘤细胞增殖活性。结果:基因优化后的rhIFN-λ1在大肠杆菌中得以高效表达,用所建立的纯化工艺可制备得到纯度达95.7%的rhIFN-λ1;rhIFN-λ1的抗病毒比活性为3.2×105 U/mg,比市售rhIFN-λ1的比活性(1.1×105 U/mg)略高,抗肿瘤细胞增殖活性为rhIFN-α2b的1.7倍。结论:获得的rhIFN-λ1具有剂量依赖的抗病毒活性和抗增殖活性,其抗病毒活性比市售rhIFN-λ1略高,抗细胞增殖活性高于rhIFN-α2b,提示rhIFN-λ1有较大的应用前景。     

Interferon-α-(IFN) producing CHO cell lines are resistant to the antiproliferative activity of IFN: A correlation with gene expression

CHO cell lines that constitutively produce the murine interferon-α (IFN-α) subspecies α4 and α6 were constructed. The producer cell lines were protected against viral (vesicular stomatitis virus) infection by the IFN species secreted, but were resistant to the growth inhibitory activity of the IFN species. As compared with α4, the α6 protein displayed a high antiproliferative activity when added to normal CHO cells, which correlates completely with the high antiviral activity of a6 on these cells. Three messenger ribonucleic acid (mRNA) species, which are normally induced in CHO cells by IFN treatment (1–8, 2–5A synthetase, and ISG 15) were constitutively present in CHO producer cell lines. The level of another mRNA (ISG 54), however, was very low in the producer cells as compared with its expression in short-term IFN-treated cells. These data indicate that 1–8, 2–5A synthetase and ISG 15 are not involved in the antigrowth activity of IFN in this system, but rather suggest a function of ISG 54 in this respect.     

Influence of carbohydrates on the stability and structure of a hyperglycosylated human interferon alpha mutein

Protein physical and chemical instability is one of the major challenges in the development of biopharmaceuticals during every step of the process, ranging from production to final delivery. This is particularly applicable to human recombinant interferon alpha-2b (rhIFN-α2b), a pleiotropic cytokine currently used worldwide for the treatment of various cancer and chronic viral diseases, which presents a poor stability in solution. In previous studies, we have demonstrated that the introduction of four N-glycosylation sites in order to construct a heavily glycosylated IFN variant (4N-IFN) resulted in a markedly prolonged plasma half-life which was reflected in an enhanced therapeutic activity in mice in comparison with the commercial non-glycosylated rhIFN-α2b (NG-IFN). Herein, we evaluated the influence of glycosylation on the in vitro stability of 4N-IFN towards different environmental conditions. Interestingly, the hyperglycosylated cytokine showed enhanced stability against thermal stress, acid pH and repetitive freeze-thawing cycles in comparison with NG-IFN. Besides, microcalorimetric analysis indicated a much higher melting temperature of 4N-IFN, also demonstrating a higher solubility of this variant as denoted by the absence of precipitation at the end of the experiment, in contrast with the NG-IFN behaviour. Furthermore, far-UV circular dichroism (CD) spectrum of 4N-IFN was virtually superimposed with that of NG-IFN, indicating that the IFN structure was not altered by the addition of carbohydrate moieties. The same conclusion could be inferred from limited proteolysis studies. Our results suggest that glycoengineering could be a useful strategy for protecting rhIFN-α2b from inactivation by various external factors and for overcoming aggregation problems during the production process and storage.     

Amino acid differences in interferon-tau (IFN-τ) of Bos taurus Coreanae and Holstein

Interferons (IFNs) are commonly grouped into type I and type II IFN. Type I IFNs are known as antiviral IFNs including IFN-α, IFN-β, and IFN-ω whereas type II IFN is referred to immune IFN and IFN-γ is only member of the type II IFN. Type I IFNs are induced by virus invading however type II IFN is produced by mitogenic or antigenic stimuli. IFN-τ was first identified in ruminant ungulates as a pregnancy recognition hormone, trophoblastin. IFN-τ constitutes a new class of type I IFN, which possesses the common features of type I IFN, such as the ability to prevent viral infection and to limit cell proliferation. In addition, IFN-τ is unique in that it is induced by pregnancy unlike other type I IFNs. We cloned Bos taurus (B. T.) Coreanae IFN-τ from peripheral blood mononuclear cells. The amino acid sequence of B. T. Coreanae IFN-τ shares only 90.3% identity with that of Holstein dairy cow. Recombinant B. T. Coreanae and Holstein IFN-τ proteins were expressed in Escherichia coli and the antiviral activity of IFN-τ proteins were examined. Both recombinant proteins were active and protected human WISH and bovine MDBK cells from the cytopathic effect of vesicular stomatitis virus. The recombinant IFN-τ protein of B. T. Coreanae and Holstein properly induced the expression of antiviral genes including 2',5'-oligoadenylate synthetase (OAS) and Mx GTPase 1 (Mx-1).     

人IL-2/IFNα2b融合基因在肝癌细胞中靶向表达

 根据细胞因子之间协同作用的特点,采用重组 Ｄ Ｎ Ａ 技术设计并构建了人 Ｉ Ｌ ２ 与 Ｉ Ｆ Ｎα融合基因,并用肝癌组织特异的 Ａ Ｆ Ｐ增强子／ Ａ Ｌ Ｂ启动子调控融合基因在肝癌细胞中的靶向表达．实验结果表明,克隆的 Ｅ Ａ Ｆ Ｐ Ｐ Ａ Ｌ Ｂ联合转录调控序列能调控细胞因子基因在 Ａ Ｆ Ｐ阳性人肝癌细胞中靶向表达, Ｉ Ｌ ２／ Ｉ Ｆ Ｎα２ｂ 融合基因的表达水平与感染肝癌细胞的 Ａ Ｆ Ｐ表达水平呈正相关性．实验证明表达的融合蛋白具有 Ｉ Ｌ ２ 和 Ｉ Ｆ Ｎ 两种生物学活性的细胞因子．这可能为肝癌基因治疗开辟新途径．     

PRODUCTION,PURIFICATION, AND CHEMICAL STABILITY OF RECOMBINANT HUMAN INTERFERON-γ IN LOW OXYGEN TENSION CONDITION: A FORMULATION APPROACH

The low stability of recombinant human interferon-γ (rhIFN-γ) therapeutic protein imposes some restrictions in its medical applications. In the current study, the effect of oxygen tension on the stability of purified rhIFN-γ was investigated. The rhIFN-γ was purified (>99%) by a two-step chromatographic process. Storage vials were filled by purified formulated product under normal atmospheric oxygen and low oxygen tension conditions. At different time intervals, the amounts of rhIFN-γ covalent dimers and deamidated forms were analyzed using analytical high-performance liquid chromatography (HPLC; size exclusion and cation exchange) and sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) methods. To determine the biological activity of purified rhIFN-γ, an antiviral activity assay against vesicular stomatitis virus (VSV) was performed. Upon rhIFN-γ long-term storage in a low oxygen tension condition, the amounts of rhIFN-γ covalent dimers and deamidated forms and also the biological activity of rhIFN-γ changed a little. In contrast, by 9 months of storage of rhIFN-γ preparations under normal atmospheric condition, the amount of covalent dimers and deamidated forms increased with time and reached to approximately 3.5% and 11.5% of the initial amount, respectively. The antiviral specific activity of 9-month-old rhIFN-γ preparations decreased to 41% of the initial amount at normal storage condition, while no significant reduction was seen at the low oxygen tension condition. In conclusion, oxygen tension during storage could have a significant impact on rhIFN-γ stability and finally on the quality of pharmaceutical rhIFN-γ product.     

Synthesis of alpha and gamma interferons by a human cutaneous lymphoma with helper T-cell phenotype

A cloned human cutaneous lymphoma Hut102-B2 with helper T-cell phenotype (Leu1⁺, Leu2a^?, Leu3a⁺) was found to produce substantial quantities of interferon (IFN) on induction with the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA). Whereas only trace amounts of IFN were secreted by Hut102-B2 cells spontaneously, up to 8000 laboratory units/ ml of IFN were synthesized under the optimal conditions of TPA induction. Characterization studies including neutralization by specific antisera to IFNs and determination of the activities in human and bovine cells disclosed that the IFN produced by Hut102-B2 cells exposed to TPA was a mixture of immune IFN (IFN-γ) and leukocyte IFN (IFN-α) made in approximately equal amounts in terms of antiviral activity.     

PCBP2 enhances the antiviral activity of IFN-α against HCV by stabilizing the mRNA of STAT1 and STAT2

Interferon-α (IFN-α) is a natural choice for the treatment of hepatitis C, but half of the chronically infected individuals do not achieve sustained clearance of hepatitis C virus (HCV) during treatment with IFN-α alone. The virus can impair IFN-α signaling and cellular factors that have an effect on the viral life cycles. We found that the protein PCBP2 is down-regulated in HCV-replicon containing cells (R1b). However, the effects and mechanisms of PCBP2 on HCV are unclear. To determine the effect of PCBP2 on HCV, overexpression and knockdown of PCBP2 were performed in R1b cells. Interestingly, we found that PCBP2 can facilitate the antiviral activity of IFN-α against HCV, although the RNA level of HCV was unaffected by either the overexpression or absence of PCBP2 in R1b cells. RIP-qRT-PCR and RNA half-life further revealed that PCBP2 stabilizes the mRNA of STAT1 and STAT2 through binding the 3'Untranslated Region (UTR) of these two molecules, which are pivotal for the IFN-α anti-HCV effect. RNA pull-down assay confirmed that there were binding sites located in the C-rich tracts in the 3'UTR of their mRNAs. Stabilization of mRNA by PCBP2 leads to the increased protein expression of STAT1 and STAT2 and a consistent increase of phosphorylated STAT1 and STAT2. These effects, in turn, enhance the antiviral effect of IFN-α. These findings indicate that PCBP2 may play an important role in the IFN-α response against HCV and may benefit the HCV clinical therapy.     

Biological and Biochemical Characterization of Macrophage Activating Factor (MAF) in Murine Lymphocytes: Physicochemical Similarity of MAF to Gamma Interferon (IFN-γ)

During the course of an investigation designed to separate macrophage activating factor (MAF) activity from interferon (IFN) antiviral activity in the lymphokine-rich fraction (LKF) produced by stimulation of murine splenic cells with concanavalin A (Con A), we found molecular evidence for the similarity of the two activities. MAF activity was expressed as the rate of inhibition of intracellular growth of Salmonella typhimurium in macrophages based on the linear correlation between relative MAF activity and LKF concentration. The antiviral substance in LKF was identified as IFN-γ based on the observation that its activity was inactivated at pH 2 and neutralized with anti-mouse IFN-γ serum but not with anti-mouse IFN-α/β serum. MAF and IFN antiviral activities displayed identical sensitivity to pH 2 and temperature. Further, neither activity was affected by β-mercapto-ethanol, but both were inactivated by guanidine hydrochloride and by sodium dodecyl sulfate, suggesting that the structures related to conformation of the protein of the two molecules may be similar. In affinity chromatography of the LKF on a Con A-Sepharose column, MAF and IFN activities were found in both the nonadsorbing (F I) and adsorbing (F II) fractions. However, the rates of F II of MAF and IFN activities increased proportionally when the sample was applied on a column of higher capacity, suggesting that the molecular structure of the mannose-containing glycosyl moiety of the two molecules may also be similar. Moreover, the intact or modified form of MAF and IFN activities of different LKF preparations showed a strong correlation, indicating that the production and denaturation of MAF activity were proportional to those of IFN antiviral activity. The results of this study provide strong evidence that MAF and IFN antiviral activities may reside in virtually the same molecular species.     

Type I interferons and limitin: a comparison of structures, receptors, and functions

The type I interferon (IFN) family includes IFN-, IFN-β, IFN-, and IFN-τ. These molecules are clustered according to sequence homologies, use of the same cell surface receptor, and similar functions. IFN- and IFN-β have a globular structure composed of five a-helices. Their receptors, IFNAR1 and IFNAR2, belong to the class II cytokine receptor family for a-helical cytokines. Information about structure-function relationships between these and other IFNs is being provided by comparative sequence analysis, reference to a prototypic three-dimensional structure, analysis with monoclonal antibodies, construction of hybrid molecules and site directed mutagenesis. While much remains to be done, it should someday be possible to understand differences among IFNs in terms of how they interact with their corresponding receptors. Our recently identified IFN-like molecule, limitin, has weak sequence homology to IFN-, IFN-β, and IFN-ω and displays its biological functions through the same IFN-/β receptors. While limitin has antiproliferative, immunomodulatory, and antiviral effects like IFN- and IFN-β, it is unique in lacking influence on myeloid and erythroid progenitors. Further analysis of this functionally unique cytokine should be informative about complex IFN–receptor interactions. Furthermore, a human homologue or synthetic variant might be superior for clinical applications as an IFN without myelosuppressive properties.     

Stable high volumetric production of glycosylated human recombinant IFNalpha2b in HEK293 cells

Background

Mammalian cells are becoming the prevailing expression system for the production of recombinant proteins because of their capacity for proper protein folding, assembly, and post-translational modifications. These systems currently allow high volumetric production of monoclonal recombinant antibodies in the range of grams per litre. However their use for large-scale expression of cytokines typically results in much lower volumetric productivity.

Results

We have engineered a HEK293 cell clone for high level production of human recombinant glycosylated IFNα2b and developed a rapid and efficient method for its purification. This clone steadily produces more than 200 mg (up to 333 mg) of human recombinant IFNα2b per liter of serum-free culture, which can be purified by a single-step cation-exchange chromatography following media acidification and clarification. This rapid procedure yields 98% pure IFNα2b with a recovery greater than 70%. Purified IFNα2b migrates on SDS-PAGE as two species, a major 21 kDa band and a minor 19 kDa band. N-terminal sequences of both forms are identical and correspond to the expected mature protein. Purified IFNα2b elutes at neutral pH as a single peak with an apparent molecular weight of 44,000 Da as determined by size-exclusion chromatography. The presence of intramolecular and absence of intermolecular disulfide bridges is evidenced by the fact that non-reduced IFNα2b has a greater electrophoretic mobility than the reduced form. Treatment of purified IFNα2b with neuraminidase followed by O-glycosidase both increases electrophoretic mobility, indicating the presence of sialylated O-linked glycan. A detailed analysis of glycosylation by mass spectroscopy identifies disialylated and monosialylated forms as the major constituents of purified IFNα2b. Electron transfer dissociation (ETD) shows that the glycans are linked to the expected threonine at position 106. Other minor glycosylated forms and non-sialylated species are also detected, similar to IFNα2b produced naturally by lymphocytes. Further, the HEK293-produced IFNα2b is biologically active as shown with reporter gene and antiviral assays.

Conclusion

These results show that the HEK293 cell line is an efficient and valuable host for the production of biologically active and glycosylated human IFNα2b.     

Association of TRIM22 with the type 1 interferon response and viral control during primary HIV-1 infection

Type 1 interferons (IFNs) induce the expression of the tripartite interaction motif (TRIM) family of E3 ligases, but the contribution of these antiviral factors to HIV pathogenesis is not completely understood. We hypothesized that the increased expression of select type 1 IFN and TRIM isoforms is associated with a significantly lower likelihood of HIV-1 acquisition and viral control during primary HIV-1 infection. We measured IFN-α, IFN-β, myxovirus resistance protein A (MxA), human TRIM5α (huTRIM5α), and TRIM22 mRNA levels in peripheral blood mononuclear cells (PBMCs) of high-risk, HIV-1-uninfected participants and HIV-1-positive study participants. Samples were available for 32 uninfected subjects and 28 infected persons, all within 1 year of infection. HIV-1-positive participants had higher levels of IFN-β (P = 0.0005), MxA (P = 0.007), and TRIM22 (P = 0.01) and lower levels of huTRIM5α (P < 0.001) than did HIV-1-negative participants. TRIM22 but not huTRIM5α correlated positively with type 1 IFN (IFN-α, IFN-β, and MxA) (all P < 0.0001). In a multivariate model, increased MxA expression showed a significant positive association with viral load (P = 0.0418). Furthermore, TRIM22 but not huTRIM5α, IFN-α, IFN-β, or MxA showed a negative correlation with plasma viral load (P = 0.0307) and a positive correlation with CD4(+) T-cell counts (P = 0.0281). In vitro studies revealed that HIV infection induced TRIM22 expression in PBMCs obtained from HIV-negative donors. Stable TRIM22 knockdown resulted in increased HIV-1 particle release and replication in Jurkat reporter cells. Collectively, these data suggest concordance between type 1 IFN and TRIM22 but not huTRIM5α expression in PBMCs and that TRIM22 likely acts as an antiviral effector in vivo.     

人lambda1和epsilon干扰素基因在WI-38细胞中的表达及其活性比较

研究新型干扰素hIFN-λ1和hIFN-ε基因在WI-38细胞中的表达及其生物学活性,并进行对比分析。构建His重组融合表达载体pcDNA3.1A-hIFN-λ1-His和pcDNA3.1A-hIFN-ε-His,脂质体法分别转染WI-38人胚肺细胞。采用微量细胞病变抑制试验研究和比较rhIFN-λ1-His和rhIFN-ε-His的抗病毒活性;MTT法检测其对肿瘤细胞生长的影响; RT-PCR相对定量法检测其诱导WI-38和SHG-44细胞产生人MxA抗病毒蛋白的活性。结果表明rhIFN-λ1-His抗病毒活性、抗肿瘤细胞增殖活性和诱导产生MxA蛋白活性要强于rhIFN-ε-His。hIFN-λ1和hIFN-ε干扰素的抗病毒效应的分子机理均与诱导细胞产生MxA抗病毒蛋白相关。为进一步探讨和比较hIFN-λ1和hIFN-ε的生物学活性及其作用机制奠定了一定的基础。     

Marburg virus VP40 antagonizes interferon signaling in a species-specific manner

Marburgviruses are zoonotic pathogens that cause lethal hemorrhagic fever in humans and nonhuman primates. However, they do not cause lethal disease in immunocompetent mice unless they are adapted to this species. The adaptation process can therefore provide insight into the specific virus-host interactions that determine virulence. In primate cells, the Lake Victoria marburgvirus Musoke strain (MARV) VP40 matrix protein antagonizes alpha/beta interferon (IFN-α/β) and IFN-γ signaling by inhibiting the activation of the cellular tyrosine kinase Jak1. Here, VP40 from the Ravn strain (RAVV VP40)-from a distinct Marburg virus clade-is demonstrated to also inhibit IFN signaling in human cells. However, neither MARV nor RAVV VP40 effectively inhibited IFN-signaling in mouse cells, as assessed by assays of the antiviral effects of IFN-α/β and the IFN-α/β-induced phosphorylation of Jak1, STAT1, and STAT2. In contrast, the VP40 from a mouse-adapted RAVV (maRAVV) did inhibit IFN signaling. Effective Jak1 inhibition correlated with the species from which the cells were derived and did not depend upon whether Jak1 was of human or mouse origin. Of the seven amino acid changes that accumulated in VP40 during mouse adaptation, two (V57A and T165A) are sufficient to allow efficient IFN signaling antagonism by RAVV VP40 in mouse cells. The same two changes also confer efficient IFN antagonist function upon MARV VP40 in mouse cells. The mouse-adaptive changes did not affect the budding of RAVV VP40 in mouse cells, suggesting that this second major function of VP40 did not undergo adaptation. These data identify an apparent determinant of RAVV host range and virulence and define specific genetic determinants of this function.