Expression and purification of recombinant human interleukin-18 protein using a yeast expression system

Interleukin-18 (IL-18) has been reported to exert significant immunoregulatory effects on inhibiting tumor growth through stimulating natural killer (NK) cell cytotoxicity and promoting production of several cytokines, including interferon-gamma (IFN-gamma) and granulocyte/macrophage colony-stimulating factor (GM-CSF). Therefore, IL-18 might serve as a potential therapeutic target for cancer treatment. However, the resource of this protein limits its availability for the clinical practice. The purpose of this study was to express and purify recombinant human (h) IL-18 protein using a yeast expression system. We reported here that hIL-18 gene was cloned into pPICZaC vector for expressing a recombinant hIL-18 protein using a yeast expression system. The recombinant hIL-18 protein was purified using centrifugal filter devices, hydrophobic chromatography, and anion exchange chromatography. The yield and purity of the recombinant hIL-18 reached 45.1% and 97.6%, respectively. This recombinant hIL-18 was shown to induce IFN-gamma production by human peripheral blood mononuclear cells (PBMCs) and enhance NK cell cytotoxicity synergistically with IL-2. Furthermore, these recombinant hIL-18-induced effects were the same as those by standard hIL-18. Therefore, the yeast expression system used in this study provides a useful method to produce large-scale of hIL-18 for the clinical application.     

Granulocyte-macrophage colony-stimulating factor augments the primary antibody response by enhancing the function of antigen-presenting cells

Purified, recombinant-derived murine granulocyte-monocyte colony-stimulating factor was found to enhance the primary in vitro immune response to SRBC by murine spleen cells. In determining the mechanism of this augmentation, it was found that only splenic adherent cells and neither resting nor activated T cells nor B cells expressed specific receptors for GM-CSF. When splenic adherent cells were pulsed briefly with GM-CSF before addition to macrophage-depleted cultures, they reconstituted the PFC response to a significantly greater degree than did control macrophages. Splenic adherent cells incubated overnight with SRBC plus GM-CSF were also more efficient antigen-presenting cells than splenic adherent cells incubated with antigen alone. The mechanism of this enhanced antigen presentation was found to be due to a GM-CSF-dependent increase in the level of IL 1 secretion and Ia antigen expression. Consistent with these data was the finding that GM-CSF augmented IL 2 production by splenic T cells in response to suboptimal concentrations of Con A. Finally, the day 5 in vivo antibody response (as measured by serum titers) of mice immunized with a low dose of SRBC was enhanced by two daily inoculations of GM-CSF. Thus, the role that GM-CSF plays in augmenting immune responses may not be solely accounted for by its ability to cause the proliferation or differentiation of macrophages, but more than likely includes its ability to enhance the function of antigen-presenting macrophages.     

共表达siRNA和hIL-12的新型乙肝多表位DNA疫苗的研究

目的 构建含有靶向乙肝表面抗原(HBsAg)基因的siRNA、乙肝复合多表位抗原基因和hIL-12共质粒表达的新型DNA疫苗,并在HepG2细胞中检测siRNA的效果以及各基因的表达。方法 设计并合成复合多表位HBV抗原基因,将其与增强型绿色荧光蛋白（EGFP）基因融合克隆进真核表达载体pVAX1的多克隆位点中,同时将带CMV启动子的完整hIL-12表达单元克隆进载体的BspH I位点之间,再设计并合成乙肝siRNA表达单元,将其克隆进载体的Mlu I位点之间,得到真核三元共表达重组质粒pVAX1-siHB-HB-EGFP-hIL12。以该重组质粒瞬时转染人肝癌细胞系HepG2,通过EGFP的荧光标记观察多表位抗原的表达,以ELISA测定培养细胞上清中hIL-12的表达,以rtPCR检测siRNA对HBsAg基因的沉默效果。结果 经酶切鉴定和测序证实共表达siRNA、hIL-12的HBV 多表位DNA疫苗构建成功。转染细胞中检测到绿色荧光,证实抗原表达;转染后48 h hIL-12的检出量为1 289 pg/mL细胞上清,72 h检出量为1 712 pg/mL细胞上清;转染后HBsAg表达量明显降低,证实siRNA效果良好。结论 成功构建乙肝复合多表位抗原基因与siRNA、hIL-12共质粒表达的DNA疫苗,并能在真核细胞中有效表达抗原与hIL-12基因,而且siRNA对HBsAg显示出明显的沉默效果。我们的工作为进一步研究该复合型DNA疫苗抗HBV的治疗效果打下基础。     

Growth of an interleukin 2/interleukin 4-dependent T cell line induced by granulocyte-macrophage colony-stimulating factor (GM-CSF)

Lymphokine activities in conditioned medium from activated helper T cell lines are most commonly defined by the proliferation of "specific" lymphokine-dependent cell lines. Various sublines of IL 2-dependent (and ostensibly specific) HT-2 and CTLL cells have now been shown to proliferate in response to BSF-1/IL 4 as well. After activation with antigen or mitogen, D10.G4.1, an antigen-specific cloned T helper cell that has recently been shown to produce IL 4 but not IL 2, secretes two distinct cytokines that induce the growth of HT-2 cells. These "T cell growth factors" (TCGF) can be separated by reversed phase high-performance liquid chromatography (RP-HPLC). The TCGF activity of one of these factors can be blocked by 11B11, an antibody specific for IL 4. The second TCGF activity is not affected by 11B11 or by antibodies specific for IL 2. This TCGF activity can be neutralized by a goat polyclonal antibody to granulocyte-macrophage colony-stimulating factor (GM-CSF), and has a RP-HPLC elution profile identical to that of recombinant GM-CSF. Recombinant GM-CSF induces both proliferation and long-term growth of HT-2 but not CTLL cells, and this activity can be neutralized by the same antibody to GM-CSF. GM-CSF is best known as a factor that induces the maturation and growth of granulocytes and macrophages from bone marrow-derived hematopoietic precursor cells. The ability of GM-CSF to induce the growth of certain T cell lines indicates that this molecule may play a role in T cell-mediated immune responses, either as an autocrine growth factor or a paracrine stimulus from both lymphoid and nonlymphoid tissues that produce this cytokine.     

PEGylated murine Granulocyte-macrophage colony-stimulating factor: production, purification, and characterization

Granulocyte-macrophage colony-stimulating factor (GM-CSF) regulates proliferation, differentiation, and function of hematopoietic progenitor cells. Aside from expansion of hematopoietic cells, GM-CSF has shown efficacy in other diseases, including Crohn's disease. While GM-CSF being clinically used in humans, the ability to perform mechanistic studies in murine models is difficult due to the limited availability and rapid clearance of murine GM-CSF in the peripheral blood. To address these issues, we efficiently expressed murine GM-CSF under the control of the AOX1 gene promoter in Pichia pastoris using the Mut(S) strain KM71H. We describe the unique conditions that are required for efficient production by high-density fermentation and purification of mGM-CSF protein. Recombinant mGM-CSF protein was purified by tangential flow ultrafiltration and preparative reverse phase chromatography. To address limited half life or rapid clearance in mice, recombinant murine GM-CSF was modified by lysine-directed polyethylene glycol conjugation (PEGylation). PEG-modified and unmodified proteins were characterized by amino terminus sequence analysis and matrix assisted laser desorption ionization time-of-flight mass spectrometry. Under the mild reaction conditions, the recombinant protein is efficiently modified by PEGylation on an average of 2-3 sites per molecule. In vivo treatment of mice with PEGylated mGM-CSF, but not the unmodified recombinant mGM-CSF, reproduces the potent colony stimulating effects of human GM-CSF in patients on myeloid progenitor populations, as assessed by FACs analysis. This simplified approach for the expression, purification, and modification of a biologically potent form of murine GM-CSF should facilitate the study of central mechanisms of action in murine disease models.     

Selective induction of B7/BB-1 on interferon-gamma stimulated monocytes: a potential mechanism for amplification of T cell activation through the CD28 pathway.

The B cell activation antigen B7/BB-1 is the natural ligand for the T cell antigen CD28 and these two molecules are capable of mediating T-B cell adhesion. Engagement of the CD28 pathway provides a costimulatory signal to T cells leading to enhanced lymphokine production. We report that interferon-gamma (INF-gamma) induces the expression of B7/BB-1 on monocytes. This induction was very specific since other cytokines and stimuli which activate monocytes including M-CSF, GM-CSF, IL3, TNF-alpha, and LPS were unable to induce B7/BB-1. Following culture of monocytes with INF-gamma, maximal mRNA and cell surface B7/BB-1 expression was detected at 12 and 24 hr, respectively. In addition to antigen presentation, optimal T cell activation and lymphokine synthesis require an additional cell to cell contact signal provided by the antigen presenting cell. The induction of B7/BB-1 on monocytes and subsequent heterophilic interaction of B7/BB-1 with CD28 may provide a mechanism for the amplification of T cell proliferation and lymphokine production by INF-gamma activated monocytes.     

New fusion protein systems designed to give soluble expression in Escherichia coli.

Three native E. coli proteins-NusA, GrpE, and bacterioferritin (BFR)-were studied in fusion proteins expressed in E. coli for their ability to confer solubility on a target insoluble protein at the C-terminus of the fusion protein. These three proteins were chosen based on their favorable cytoplasmic solubility characteristics as predicted by a statistical solubility model for recombinant proteins in E. coli. Modeling predicted the probability of soluble fusion protein expression for the target insoluble protein human interleukin-3 (hIL-3) in the following order: NusA (most soluble), GrpE, BFR, and thioredoxin (least soluble). Expression experiments at 37 degrees C showed that the NusA/hIL-3 fusion protein was expressed almost completely in the soluble fraction, while GrpE/hIL-3 and BFR/hIL-3 exhibited partial solubility at 37 degrees C. Thioredoxin/hIL-3 was expressed almost completely in the insoluble fraction. Fusion proteins consisting of NusA and either bovine growth hormone or human interferon-gamma were also expressed in E. coli at 37 degrees C and again showed that the fusion protein was almost completely soluble. Starting with the NusA/hIL-3 fusion protein with an N-terminal histidine tag, purified hIL-3 with full biological activity was obtained using immobilized metal affinity chromatography, factor Xa protease cleavage, and anion exchange chromatography.     

三重表达肺结核DNA疫苗在细胞水平的检测

目的 检测共表达siRNA、抗原基因与hIL-12的新型肺结核DNA疫苗在人胚肾293细胞中表达。方法 在已构建含有靶向抗调亡基因Mcl-1L的siRNA、结核分枝杆菌抗原基因Ag85B-ESAT6 (PVAE)、hIL-12的新型肺结核DNA疫苗pVAX-siRNA-PVAE-IL-12基础之上,将抗原基因与增强型绿色荧光蛋白（EGFP）基因融合,得到真核表达重组质粒pVAX1-siRNA-PVAE-EGFP-hIL12。并将siRNA单元用靶向EGFP基因的siEGFP代替,得到pVAX1-siEGFP-PVAE-EGFP-hIL12重组表达载体。用重组质粒转染人胚肾细胞293,分别观察融合抗原基因与siEGFP的表达。以ELISA测定培养细胞上清中hIL-12的表达。结果 经酶切鉴定和测序证实肺结核DNA疫苗改造成功。转染细胞中检测到绿色荧光,证实抗原表达。对照组检测到siEGFP的表达。转染48 h后检测出细胞上清中hIL-12的量为1571.63 pg/mL;72 h后检测出细胞上清中hIL-12的量为2392.25pg/mL。结论 已构建的肺结核质粒DNA疫苗能在真核细胞中有效表达siRNA、抗原基因与hIL-12。为进一步研究该DNA疫苗抗肺结核的免疫治疗和基因治疗效果打下基础。     

An unexpected functional link between lysosomal thiol reductase and mitochondrial manganese superoxide dismutase

Gamma interferon-inducible thiol reductase (GILT) is an enzyme involved in the initial steps of antigen processing and presentation. Recently we have shown that GILT is also expressed in mouse T cells, where it exerts an inhibitory role on T cell activation. In this study, we identified mitochondrial manganese superoxide dismutase (SOD2) as one of the key intermediaries affected by GILT expression in fibroblasts. Expression and activity of SOD2 is reduced in the absence of GILT because of reduced SOD2 protein stability. The forced increase in SOD2 expression in the absence of GILT restores fibroblast proliferation to wild-type levels. Thus, GILT appears to have a fundamental role in cellular proliferation mediated through its influence on SOD2 protein activity and expression.     

Targeting a recombinant adenovirus vector to HCC cells using a bifunctional Fab-antibody conjugate

We developed a specific adenoviral gene delivery system with monoclonal antibody (mAb) AF-20 that binds to a 180 kDa antigen highly expressed on human hepatocellular carcinoma (HCC) cells. A bifunctional Fab-antibody conjugate (2Hx-2-AF-20) was generated through AF-20 mAb crosslinkage to an anti-hexon antibody Fab fragment. Uptake of adenoviral particles and gene expression was examined in FOCUS HCC and NIH 3T3 cells by immunofluorescence; beta-galactosidase expression levels were determined following competitive inhibition of adenoviral CAR receptor by excess fibre knob protein. The chimeric complex was rapidly internalized at 37 degrees C, and enhanced levels of reporter gene expression was observed in AF-20 antigen positive HCC cells, but not in AF-20 antigen negative NIH 3T3 control cells. Targeting of recombinant adenoviral vectors to a tumor associated antigen by a bifunctional Fab-antibody conjugate is a promising approach to enhance specificity and efficiency of gene delivery to HCC.     

应用痘苗病毒为载体表达人白细胞介素4的研究

在真核细胞中表达近似于人类天然糖基化的白细胞介素４（ｈＩＬ－４）,为重要的研究课题。利用基因工程技术,以痘苗病毒作为载体,使之在真核细胞中表达ｈＩＬ－４,为生产糖基化的ｈＩＬ－４开辟新的可能途径。在痘苗病毒表达载体ｐＪ１２０质粒的基础上,组建了含有ｈＩＬ－４基因的ｐＪｌ２０／ｈＩＬ－４重组质粒,该质粒以痘苗病毒的胸腺嘧啶核苷激酶（ＴＫ）基因为侧翼序列,中间插入痘苗病毒的Ｐ１１和Ｐ２５两个转录方向相反的启动子,Ｐ２５的下游连接β－半乳糖苷酶（ＬａｃＺ）基因,ｈＩＬ－４基因在痘苗病毒启动子Ｐ１１控制下进行表达,将ＰＪ１２０／ｈＩＬ－４质粒ＤＮＡ用脂质体转染法导入ＴＫ阴性的骨髓瘤细胞（ＴＫ１４３细胞）,与预先感染的痘苗病毒在细胞内进行同源序列重组,并且用病毒的核酸杂交鉴定证实,ｈＩＬ－４基因已重组到痘苗病毒基因组中,用ｈＩＬ－４应答细胞株检测病毒感染细胞上清,发现重组病毒感染的细胞上清中含有高滴度的ｈＩＬ－４活性,并对此种情况下ｈＩＬ－４产生的条件进行了动态观察。     

Downregulation of integrin β4 decreases the ability of airway epithelial cells to present antigens

Airway epithelial cells have been demonstrated to be accessory antigen presentation cells (APC) capable of activating T cells and may play an important role in the development of allergic airway inflammation of asthma. In asthmatic airways, loss of expression of the adhesion molecule integrin β4 (ITGB4) and an increase in Th2 inflammation bias has been observed in our previous study. Given that ITGB4 is engaged in multiple signaling pathways, we studied whether disruption of ITGB4-mediated cell adhesion may contribute to the adaptive immune response of epithelial cells, including their ability to present antigens, induce the activate and differentiate of T cells. We silenced ITGB4 expression in bronchial epithelial cells with an effective siRNA vector and studied the effects of ITGB4 silencing on the antigen presentation ability of airway epithelial cells. T cell proliferation and cytokine production was investigated after co-culturing with ITGB4-silenced epithelial cells. Surface expression of B7 homologs and the major histocompatibility complex (MHC) class II was also detected after ITGB4 was silenced. Our results demonstrated that silencing of ITGB4 resulted in impaired antigen presentation processes and suppressed T cell proliferation. Meanwhile, decrease in Th1 cytokine production and increase in Th17 cytokine production was induced after co-culturing with ITGB4-silenced epithelial cells. Moreover, HLA-DR was decreased and the B7 homologs expression was different after ITGB4 silencing. Overall, this study suggested that downregulation of ITGB4 expression in airway epithelial cells could impair the antigen presentation ability of these cells, which further regulate airway inflammation reaction in allergic asthma.     

Tyrosine phosphorylation of p95Vav in myeloid cells is regulated by GM-CSF, IL-3 and steel factor and is constitutively increased by p210BCR/ABL.

Vav is a recently described proto-oncogene expressed only in hematopoietic cells which contains an SH2 and two SH3 domains and shares homology with the Dbl GDP-GTP exchange factor and BCR. p95Vav is phosphorylated on tyrosine residues in response to stimulation of the T cell antigen receptor, cross-linking of IgE or IgM receptors and stimulation of immature hematopoietic cells by Steel factor. Monoclonal antibodies to human Vav were generated and used to examine the events which regulate tyrosine phosphorylation of p95Vav in myeloid cells. In the factor-dependent MO7e cell line, p95Vav was rapidly phosphorylated on tyrosine residues in a dose- and time-dependent manner by GM-CSF, IL-3 and Steel factor. Introduction of the BCR/ABL oncogene into this cell line resulted in factor-independent proliferation and constitutive phosphorylation of p95Vav. Tyrosine phosphorylation of p95Vav was also substantially increased by treatment of cytokine-deprived cells with the tyrosine phosphatase inhibitor sodium vanadate. Since many of the cytokines known to induce tyrosine phosphorylation of p95Vav are also known to activate JAK family tyrosine kinases, we looked for an interaction of p95Vav with JAK kinases. p95Vav co-precipitated with JAK2 in MO7e cells stimulated with GM-CSF, but not in unstimulated cells. Also, JAK2 was found to be constitutively associated with p95Vav in vivo when expressed at high levels in insect cells using baculovirus vectors. A fusion protein consisting of glutathione-S-transferase and the SH2 domain of p95Vav (GST-Vav-SH2) precipitated JAK2, suggesting that this interaction is mediated by the SH2 domain of p95Vav.(ABSTRACT TRUNCATED AT 250 WORDS)     

Expression and purification of human interleukin-2 simplified as a fusion with green fluorescent protein in suspended Sf-9 insect cells

A fusion protein of human interleukin-2 (hIL-2) and green fluorescent protein (GFP) was expressed in insect Sf-9 cells infected with recombinant baculovirus derived from the Autographa californica nuclear polyhedrosis virus (AcNPV). This fusion protein was comprised of a histidine affinity ligand for simplified purification using immobilized metal affinity chromatography (IMAC), UV-optimized GFP (GFPuv) as a marker, an enterokinase cleavage site for recovery of hIL-2 from the fusion, and the model product hIL-2. Successful production of hIL-2 as a fusion protein (approximately 52,000 Da) with GFPuv was obtained. GFPuv enabled rapid monitoring and quantification of the hIL-2 by simply checking the fluorescence, obviating the need for Western blot and/or ELISA assays during infection and production stages. There was no increased 'metabolic burden' due to the presence of GFPuv in the fusion product. The additional histidine residues at the N-terminus enabled efficient one-step purification of the fusion protein using IMAC. Additional advantages of GFP as a fusion marker were seen, particularly during separation and purification in that hIL-2 containing fractions were identified simply by illumination with UV light. Our results demonstrated that GFP was an effective non-invasive on-line marker for the expression and purification of heterologous protein in the suspended insect cell/baculovirus expression system.     

Expression cloning of the human IL-3 receptor cDNA reveals a shared beta subunit for the human IL-3 and GM-CSF receptors.

A cDNA for a human interleukin-3 (hIL-3) binding protein has been isolated by a novel expression cloning strategy: a cDNA library was coexpressed with the cDNA for the beta subunit of human granulocyte/macrophage colony-stimulating factor (GM-CSF) receptor (hGMR beta) in COS7 cells and screened by binding of 125I-labeled IL-3. The cloned cDNA (DUK-1) encodes a mature protein of 70 kd, which belongs to the cytokine receptor family and which alone binds hIL-3 with extremely low affinity (Kd = 120 +/- 60 nM). A high affinity IL-3-binding site (Kd = 140 +/- 30 pM) was reconstituted by coexpressing the DUK-1 protein and hGMR beta, indicating that hIL-3R and hGMR share the beta subunit. Therefore, we designated DUK-1 as the alpha subunit of the hIL-3R. As in human hematopoietic cells, hIL-3 and hGM-CSF complete for binding in fibroblasts expressing the cDNAs for hIL-3R alpha, GMR alpha, and the common beta subunit, indicating that different alpha subunits compete for a common beta subunit.     

人白细胞介素12基因在巴斯德毕赤酵母细胞中的表达(英文)

人白细胞介素 12 (hIL 12 )是人体内具有多种生物学活性的免疫调节因子 ,由p4 0和p35两个亚基经多对二硫键连接而成 .根据hIL 12的结构特点 ,采用LiCl二次转化将hIL 12的p4 0和p35两亚基基因导入巴斯德毕赤酵母X33细胞中 ,并经同源交换分别插入酵母基因组AOX1区域 ,构建成含hIL 12双亚基基因的酵母工程菌PichiapastorisX33 p4 0 p35 .经 0 .5 %甲醇诱导 ,p4 0和p35两亚基在同一酵母细胞中得到了表达 ,并组装成具有生物学活性的hIL 12p70分子     

High level expression and purification of active recombinant human interleukin-8 in Pichia pastoris

Human interleukin-8 (hIL-8) is a member of interleukin family which functions as a chemotactic factor as well as an angiogenesis mediator. Previously, a study reported that hIL-8 could be purified from inclusion bodies using a prokaryotic expression system, however, the required re-naturation step limits the recovery of fully active protein. In this study, soluble recombinant hIL-8 was expressed as a secreted protein at high level in Pichia pastoris under the control of AOX1 (alcohol oxidase 1) promoter. A simple purification strategy was established to recover rhIL-8 from the fermentation supernatant. The process includes precipitation with 80% saturation ammonium sulfate and CM Sepharose ion exchange chromatography, yielding 30 mg/L purified rhIL-8 at over 95% purity. The obtained rhIL-8 displays high specific activity, stimulating the migration of mouse neutrophils at concentrations as low as 0.25 ng/mL. Our results demonstrate that P. pastoris expression system is an efficient tool for large-scale manufacture of active recombinant hIL-8 for various applications.     

人角质化细胞生长因子-2基因的克隆、表达及产物的纯化、鉴定

用高表达菌株BL21codon plus compentent cells表达重组人角质化细胞生长因子(Hkgf-2)蛋白并初步纯化和检测其活性。通过RTPCR从流产胎儿肺组织中钓取hKGF-2cDNA,将其克隆入pBV220载体质粒。在大肠杆菌BL-21codon plus compent cells中表达hKGF-2蛋白。采用亲和层析和离子交换层析分离纯化,以细胞增殖实验测定表达蛋白的生物活性。结果显示,hKGF-2蛋白在BL21中得到高效表达;hKGF-2蛋白能刺激NIH3T3细胞的增殖,具有显著的促有丝分裂活性。     

Granulocyte-macrophage colony-stimulating factor activates macrophages derived from bone marrow cultures to synthesis of MHC class II molecules and to augmented antigen presentation function

The effects of granulocyte-macrophage (GM)-CSF on the synthesis of MHC class II molecules and on the Ag presentation capacity by bone marrow derived macrophages (BMM phi) was investigated. BMM phi obtained by in vitro culture in the presence of macrophage-CSF were negative for synthesis of I-A molecules and induced the Ag-mediated proliferation of insulin-specific T clone cells with lower efficiency than splenic accessory cells. After pulse treatment with GM-CSF for 24 to 48 h, day 12 BMM phi exhibited highly efficient Ag presentation function which was superior to that induced by IFN-gamma. Expression of membrane-bound IL-1 was augmented significantly by GM-CSF, but not by IFN-gamma. However, the T cell clone used to probe for accessory cell function of BMM phi was not dependent on IL-1 for optimal proliferation. Concomitantly, GM-CSF induced the de novo synthesis of I-A molecules, although to a lesser extent than optimal doses of IFN-gamma. Thus GM-CSF appears to elicit properties in addition to Ia molecule synthesis and membrane IL-1 expression in BMM phi being essential for efficient accessory cell function to the T clone cells. The activation of BMM phi by GM-CSF was reversible and could be repeated. These data show that GM-CSF exerts a modulatory influence on preformed BMM phi, reversibly activating cells to Ia biosynthetic potential and pronounced accessory cell capacity, thus rendering the explanation unlikely that differentiation of precursor cells into a constitutively functional state had occurred.