Optimal production and in vitro activity of recombinat endostatin from stably transformed Drosophila melanogaster S2 cells

Recombinant plasmids containing a complementary deoxyribonucleic acid coding mouse endostatin were transfected and stably expressed in Drosophila melanogaster Schneider 2 (S2) cells. Stably transformed polyclonal cell populations expressing recombinant endostatin were isolated after 4 wk of selection with hygromycin B. Recombinant endostatin expressed in the stably transformed S2 cells under the influence of the Drosophila BiP protein signal sequence was secreted into the medium. Recombinant endostatin was also purified to homogeneity using a simple one-step Ni2+ affinity fractionation method. Purified recombinant endostatin inhibited endothelial cell proliferation in a dose-dependent manner. The concentration at maximum inhibition for recombinant endostatin was approximately 1.8 microg/ml. The stably transformed S2 cells produced 18 mg recombinant endostatin/L 7 d after induction with 5 microM CdCl2. Sodium butyrate supplementation (2.5 mM) increased recombinant endostatin production by 17%. These findings demonstrate optimal production and in vitro activity of recombinant endostatin from stably transformed D. melanogaster S2 cells.     

Functional expression of recombinant tumstatin in stably transformed Drosophila melanogaster S2 cells

Recombinant tumstatin was expressed in stably transformed Drosophila melanogaster S2 cells and secreted into the medium with a molecular size of 29 kDa. Recombinant endostatin was also purified to homogeneity using a simple one-step Ni²⁺ affinity fractionation. Purified recombinant tumstatin inhibited endothelial cell proliferation in a dose-dependent manner. The concentration at half-maximum inhibition for recombinant tumstatin was approx. 0.7 g ml^–1. A maximum production of 4.6 g recombinant tumstatin (10⁷ cells)^–1 was obtained in a T-flask culture of S2 cells, 7 d after induction with 0.5 mM CuSO₄.     

Functional expression of recombinant human ribonuclease/angiogenin inhibitor in stably transformed <Emphasis Type="Italic">Drosophila melanogaster</Emphasis> S2 cells

A recombinant plasmid harboring heterologous genes coding human ribonuclease/angiogenin inhibitor (RAI) was expressed in stably transformed Drosophila melanogaster Schneider 2 (S2) cells. Stably transformed polyclonal cell populations expressing RAI were isolated after 4 weeks of selection with hygromycin B. Recombinant RAI with a molecular weight of 50 kDa was detected in the intracellular (cell) and extracellular (medium) fractions of S2 cells. Recombinant RAI was purified from the extracellular fraction using a two-step purification scheme comprised of Ni-NTA and ion-exchange chromatography. Purified RAI migrated on SDS-PAGE as a single band in the elution fraction containing 300 mM NaCl. The ribonuclease inhibitor activity of purified RAI was measured using yeast tRNA and RNase A. Purified RAI exhibited an activity of ∼8 U μg⁻¹ for the inhibition of RNA degradation by RNase A. Cultivation of stably transformed S2 cells using HyQ^®SFX-insect MP medium increased cell growth by 79% and approximately doubled the production of recombinant RAI.     

Recombinant canstatin inhibits tumor growth in an orthotopic AT-84 oral squamous cell carcinoma model

The inhibitory effect of recombinant canstatin on tumor growth was investigated using an orthotopic oral squamous cell carcinoma (AT-84 cells) animal (C3H/HeN) model. Recombinant canstatin from stably transfected Drosophila S2 cells was purified to homogeneity using a simple one-step Ni NTA affinity fractionation. In our oral cancer model, the final volume and weight of tumors in groups treated with purified canstatin were both reduced to 44% of values for a control group treated with PBS. Blood or lymphatic vessel densities of tumors in the canstatin-treated group were reduced to 72% and 44% of control group values, respectively. Recombinant canstatin at 20 μg/ml effectively inhibited tube formation in HUVEC and lymphatic endothelial cells. Our results show that recombinant canstatin has anti-tumoral effects against primary oral squamous cell carcinoma.     

Production of recombinant endostatin from stably transformed Drosophila melanogaster S2 cells

The recombinant plasmids harboring a heterologous gene coding mouse endostatin were transfected and expressed stably in Drosophila melanogaster S2 cells. Recombinant endostatin expressed in the stably transformed S2 cells was secreted into the medium. Recombinant endostatin was also purified to homogeneity using a simple one-step Ni²⁺ affinity fractionation method. The purification yield was approximately 4 g from the medium fraction of 8 ml cultures of stably transformed S2 cells. In a T-flask, the stably transformed S2 cells produced 24 mg recombinant endostatin/l at 7 days post-induction by 0.5 mM CuSO₄. In a high aspect rotating-wall vessel designed by NASA to simulate microgravity, the S2 cells produced up to 13 mg recombinant endostatin/l.     

Dimethylsulfoxide and sodium butyrate enhance the production of recombinant cyclooxygenase 2 in stably transformed Drosophila melanogaster S2 cells

Recombinant human cyclooxygenase 2 (Cox 2) was expressed in stably transformed Drosophila melanogaster S2 cells, and was present primarily in the cellular fraction at a molecular weight of 70 to 74 kDa. Recombinant Cox 2 was purified using Ni²⁺-affinity fractionation to a specific activity of 24 800 U mg^–1 protein. The peak level of recombinant Cox 2 production was 1.6 g (10⁷ cells)^–1, seven days after induction with 0.5 mM CuSO₄. Supplementing the cultures with dimethylsulfoxide or sodium butyrate increased recombinant Cox 2 production by 170% and 86%, respectively.     

Production of recombinant endostatin from stably transformed Trichoplusia ni BTI Tn 5B1-4 cells

The recombinant plasmids harboring a heterologous gene coding mouse endostatin were transfected and expressed stably in Trichoplusia ni BTI Tn 5B1-4 (Tn 5B1-4) cells. Recombinant endostatin expressed in the stably transformed Tn 5B1-4 cells was secreted into the medium. Recombinant endostatin was also purified to homogeneity using a simple one-step Ni²⁺ affinity fractionation method. Purified recombinant endostatin inhibited endothelial cell proliferation in a dose-dependent manner. The concentration at half-maximum inhibition (ED₅₀) for recombinant endostatin was approximately 0.35 g ml^–1. In a T-flask, the stably transformed Tn 5B1-4 cells produced 14.3 mg recombinant endostatin l^–1 at 6 days of cultivation.     

Improved production of recombinant tumstatin in stably transformed Trichoplusia ni BTI Tn 5B1-4 cells

We describe the expression and in vitro activity of recombinant tumstatin from stably transformed Trichoplusia ni BTI Tn 5B1-4 cells. Recombinant tumstatin was secreted into a culture medium with a molecular weight of 29 kDa. Recombinant tumstatin was also purified to homogeneity using a simple one-step Ni2+ affinity fractionation. Purified recombinant tumstatin inhibited endothelial cell proliferation in a dose-dependent manner. The concentration at half-maximum inhibition (ED50) for recombinant tumstatin expressed in stably transformed Tn 5B1-4 cells was approximately 0.76 microg/ml. A maximum production level of 4.0 mg/l recombinant tumstatin was obtained in a T-flask culture of Tn 5B1-4 cells, 6 days after cultivation. We also investigated the individual effects of both dimethyl sulfoxide (DMSO) and sodium butyrate on recombinant tumstatin production in stably transformed Tn 5B1-4 cells. Supplementing cultures with DMSO and sodium butyrate separately increased recombinant tumstatin production in stably transformed Tn 5B1-4 cells by 117 and 32%, respectively.     

Synthesis of double-layered rotavirus-like particles using internal ribosome entry site vector system in stably-transformed <Emphasis Type="Italic">Drosophila melanogaster</Emphasis>

We established a bicistronic expression system using an encephalomyocarditis virus (EMCV)-derived internal ribosomal entry site (IRES) element to generate stably transformed Drosophila melanogaster Schneider 2 (S2) cells expressing human rotavirus Wa capsid proteins, VP2 and VP6, for the synthesis of VP2/6 double-layered virus-like particle (DVLP). The EMCV-derived IRES permitted bicistronic translation of recombinant VP6. Recombinant VP2 and VP6 were detected in extracellular fractions of stably transformed S2 cells. A wheel-like DVLP (diam ~ 50–55 nm) with short spikes was produced from the extracellular fraction of stably transformed S2 cells. A bicistronic expression system using an EMCV-derived IRES element can thus be used to express two proteins of interest in stably transformed S2 cells. The bi-or tri-cistronic expression of recombinant VP2/6/7 using stably transformed S2 cells can also be used to produce rotavirus VLPs.     

Expression of recombinant Atlantic salmon serum C-type lectin in Drosophila melanogaster Schneider 2 cells

The Atlantic salmon (Salmo salar) serum lectin (SSL) is a soluble C-type lectin that binds bacteria, including salmon pathogens. This lectin is a cysteine-rich oligomeric protein. Consequently, a Drosophila melanogaster expression system was evaluated for use in expressing SSL. A cDNA encoding SSL was cloned into a vector designed to express it as a fusion protein with a hexahistidine tag, under the control of the Drosophila methallothionein promoter. The resulting construct was stably transfected into Drosophila S2 cells. After CdCl₂ induction, transfected S2 cells secreted recombinant SSL into the cell culture medium. A cell line derived from stably transformed polyclonal cell populations expressing SSL was used for large-scale expression of SSL. Recombinant SSL was purified from the culture medium using a two-step purification scheme involving affinity binding to yeast cells and metal-affinity chromatography. Although yields of SSL were very low, correct folding and functionality of the recombinant SSL purified in this manner was demonstrated by its ability to bind to Aeromonas salmonicida. Therefore, Drosophila S2 cells may be an ideal system for the production of SSL if yields can be increased.     

Assembly of homotrimeric type XXI minicollagen by coexpression of prolyl 4-hydroxylase in stably transfected Drosophila melanogaster S2 cells

We established stably transfected insect cell lines containing cDNAs encoding the alpha and beta subunits of human prolyl 4-hydroxylase in both Trichoplusia ni and Drosophila melanogaster S2 cells. The expression level and enzymatic activity of recombinant prolyl 4-hydroxylase produced in the Drosophila expression system were significantly higher than those produced in the T. ni system. We further characterized the involvement of prolyl 4-hydroxylase in the assembly of the three alpha chains to form trimeric type XXI minicollagen, which comprises the intact C-terminal non-collagenous (NC1) and collagenous domain (COL1), in the Drosophila system. When minicollagen XXI was stably expressed in Drosophila S2 cells alone, negligible amounts of interchain disulfide-bonded trimers were detected in the culture media. However, minicollagen XXI was secreted as disulfide-bonded homotrimers by coexpression with prolyl 4-hydroxylase in the stably transfected Drosophila S2 cells. Minicollagen XXI coexpressed with prolyl 4-hydroxylase contained sufficient amounts of hydroxyproline to form thermal stable pepsin-resistant triple helices consisting of both interchain and non-interchain disulfide-bonded trimers. These results demonstrate that a sufficient amount of active prolyl 4-hydroxylase is required for the assembly of type XXI collagen triple helices in Drosophila cells and the trimeric assembly is governed by the C-terminal collagenous domain.     

Purification and characterization of bovine adrenal cytochrome b561 expressed in insect and yeast cell systems

Bovine adrenal chromaffin granule cytochrome (cyt) b561 is a transmembrane hemoprotein that plays a key role in transporting reducing equivalents from ascorbate to dopamine-beta-hydroxylase for catecholamine synthesis. We have developed procedures for expression and purification of functional bovine adrenal cyt b561 in insect and yeast cell systems. The bovine cyt b561 coding sequence, with or without a hexahistidine-tag sequence at the C-terminus, was cloned into the pVL1392 transfer vector under the control of the polyhedrin promoter to generate recombinant baculovirus for protein expression in Sf9 insect cells (approximately 0.5 mg detergent-solubilized cyt b561/L culture). For the yeast system, the cyt b561 cDNA was modified with a hexahistidine-tag sequence at the C-terminus, and inserted into the pPICZB vector under the control of the alcohol oxidase promoter. The recombinant plasmid was transformed into Pichia pastoris GS115 competent cells to give methanol-inducible cyt b561 expression (approximately 0.7 mg detergent-solubilized cyt b561/L culture). Recombinant His-tagged cyt b561 expressed in Sf9 or Pichia cells was readily solubilized from membrane fractions with dodecyl maltoside and purified to electrophoretic homogeneity by one-step chromatography on Ni-NTA affinity resin. The purified recombinant cytochrome from both systems had a heme to protein ratio close to two and was fully functional, as judged by comparison with the spectroscopic and kinetic parameters of the endogenous cytochrome from chromaffin granules. A novel procedure for isolation of chromaffin granule membranes was developed to utilize frozen adrenal glands instead of fresh tissue.     

Functional expression of Arabidopsis thaliana sterol glycosyltransferase from stably transformed Drosophila melanogaster S2 cells

Arabidopsis thaliana sterol glycosyltransferase (SGT), UGT80A2, was expressed from stably transformed Drosophila melanogaster Schneider 2 (S2) cells. Recombinant SGT was detected in both intracellular and extracellular fractions with a molecular mass of approximately 76 kDa. Secreted recombinant SGT accounted for approximately 60% of the total recombinant SGT production. Recombinant SGT in the extracellular fractions was purified to homogeneity using a simple one-step Ni-NTA affinity fractionation. Radiometrical assay using uridine diphospho-d-[U-¹⁴C]glucose (UDP-¹⁴C-glucose) as a sugar donor and sterols, β-sitosterol and stigmasterol, as sugar acceptors showed that the purified recombinant SGT contained UDP-glycosyltransferase activity and could attach ¹⁴C-glucose to β-sitosterol and stigmasterol. Recombinant SGT contained higher catalytic activity with β-sitosterol, which was similar to the recombinant SGT produced by a bacterial expression system. The transfer of ¹⁴C-glucose by recombinant SGT was further determined by gas chromatography-mass spectrometry (GC-MS) analysis of cellulase-treated ¹⁴C-glucosetransferred β-sitosterol and stigmasterol reactants.     

Expression of functional human transferrin in stably transfected Drosophila S2 cells

Human transferrin (hTf) is a serum glycoprotein involved in Fe3+ transport. Here, a plasmid encoding the hTf gene fused with a hexahistidine (His6) epitope tag under Drosophila metallothionein promoter (pMT) was stably transfected into Drosophila melanogaster S2 cells as a nonlytic plasmid-based system. Following 3 days of copper sulfate induction, transfected S2 cells were found to secrete hTf into serum-free culture medium at a competitively high expression level of 40.8 microg/mL, producing 6.8 microg/mL/day in a 150-mL spinner flask culture. Purification of secreted recombinant hTf using immobilized metal affinity chromatography (IMAC) yielded 95.5% pure recombinant hTf with a recovery of 32%. According to MALDI-TOF mass spectrometry analysis, purified S2 cell-derived His6-tagged recombinant hTf had a molecular weight (76.4 kDa) smaller than that of native apo-hTf (78.0 kDa). 2-Dimensional gel electrophoresis patterns showed recombinant hTf had a simpler and less acidic profile compared to that of native hTf. These data suggest recombinant hTf was incompletely (noncomplex) glycosylated and lacked sialic acids on N-glycans. However, this difference in N-glycan structure compared to native hTf had no effect on the iron-binding activity of recombinant hTf. The present data show that a plasmid-based stable transfection S2 cell system can be successfully employed as an alternative for producing secreted functional recombinant hTf.     

A new tagging system for production of recombinant proteins in Drosophila S2 cells using the third domain of the urokinase receptor

The use of protein fusion tag technology greatly facilitates detection, expression and purification of recombinant proteins, and the demands for new and more effective systems are therefore expanding. We have used a soluble truncated form of the third domain of the urokinase receptor as a convenient C-terminal fusion partner for various recombinant extracellular human proteins used in basic cancer research. The stability of this cystein-rich domain, which structure adopts a three-finger fold, provides an important asset for its applicability as a fusion tag for expression of recombinant proteins. Up to 20mg of intact fusion protein were expressed by stably transfected Drosophila S2 cells per liter of culture using this strategy. Purification of these secreted fusion proteins from the conditioned serum free medium of S2 cells was accompanied by an efficient one-step immunoaffinity chromatography procedure using the immobilized anti-uPAR monoclonal antibody R2. An optional enterokinase cleavage site is included between the various recombinant proteins and the linker region of the tag, which enables generation of highly pure preparations of tag-free recombinant proteins. Using this system we successfully produced soluble and intact recombinant forms of extracellular proteins such as CD59, C4.4A and vitronectin, as well as a number of truncated domain constructs of these proteins. In conclusion, the present tagging system offers a convenient general method for the robust expression and efficient purification of a variety of recombinant proteins.     

Production of fertile transgenic maize by electroporation of suspension culture cells

Fertile, transgenic maize plants were generated by electroporation of suspension culture cells that were treated with a pectin-degrading enzyme. Electroporation of cells from two different suspension cultures, one derived from A188 X B73 and one derived from a B73-related inbred, with a plasmid containing the bar gene, resulted in high-frequency recovery of stably transformed callus lines. Plants were regenerated from thirteen transformed callus lines and transmission of bar to progeny was demonstrated.     

Enhanced activity of recombinant beta-secretase from Drosophila melanogaster S2 cells transformed with cDNAs encoding human beta1,4-galactosyltransferase and Galbeta1,4-GlcNAc alpha2,6-sialyltransferase

beta-Secretase (betaSEC) was expressed in Drososphila melanogaster Schneider 2 (S2) cells transformed with cDNAs encoding beta1,4-galactosyltransferase (GalT) and Galbeta1,4-GlcNAc alpha2,6-sialyltransferase (ST). The apparent molecular weight of recombinant beta-secretase was increased from 56kDa to 61kDa. A lectin blot analysis indicated that recombinant beta-secretase from S2betaSEC/GalT-ST cells (S2 cells co-transformed with cDNAs encoding beta-secretase, glycosyltransferases, GalT, and ST) contained the glycan residues of beta1,4-linked galactose and alpha2,6-linked sialic acid. Two dimensional electrophoresis revealed that recombinant beta-secretase from S2betaSEC/GalT-ST cells had a lower isoelectric point compared to beta-secretase from control S2betaSEC cells (S2 cells transformed only with beta-secretase cDNA). Recombinant beta-secretase from transformed S2 cells was also present as heterogeneous forms. The enzyme activity of recombinant beta-secretase from S2betaSEC/GalT-ST cells was enhanced up to 260% compared to control S2betaSEC cells. We have shown that an exogeneous human glycosyltransferases cDNA can be introduced into S2 cells to extend the N-glycan processing capabilities of the insect cell line, and that the extended glycosylation improves the activity of recombinant beta-secretase.     

Recombinant baculovirus-based multiple protein expression platform for Drosophila S2 cell culture

A platform for selective and controllable expression of multiple foreign protein types was developed in insect cell culture. Based on the fact that baculovirus cannot replicate in nonpermissive Drosophila melanogaster Schneider line 2 (S2) cells, S2 cells that stably express human erythropoietin (hEPO) under the control of the S2-derived inducible metallothionein (MT) promoter were infected with three types of recombinant baculoviruses, each of which expressed a different fluorescent protein gene under the control of MT promoter. Addition of copper sulfate as an inducer to infected, stably transfected S2 cells resulted in simultaneous expression of hEPO and three fluorescent proteins. Expression profiles and levels of the three induced fluorescent proteins were similar in all single infected cells. Importantly, expression profiles and levels of hEPO were similar in both non-infected and infected cells, indicating that baculovirus expressed recombinant proteins do not adversely affect expression of host cell recombinant proteins. Expressions of the three fluorescent proteins were able to be selectively regulated by altering combination ratios of the three types of recombinant baculoviruses. Collectively, these data indicate that the baculovirus/stably transfected S2 cell system can be successfully used to express multiple foreign proteins in a controlled and selective manner without the burden of additional selection markers. Such a system would be expected to be attractive as a multiple protein expression platform for engineering metabolic or glycosylation pathways.     

Enhanced production of recombinant rabies virus glycoprotein (rRVGP) by Drosophila melanogaster S2 cells through control of culture conditions

Culture conditions that affect product quality are important to the successful operation and optimization of recombinant protein production. The objective of this study was to optimize culture conditions for growth of recombinant Drosophila melanogaster S2 cells (S2AcRVGP) in order to enhance the production of rRVGP. The addition of DMSO and glycerol to the medium and growth at a reduced temperature (22 °C) were the culture condition variations selected to be tested. Experimental cultures were first performed in serum-free Sf900 II medium in 250 ml Schott flasks. The most promising conditions identified in these experiments were also tested on a higher scale in a 3l bioreactor. In the Schott flasks experiments, all the changes in culture conditions resulted in an increase of rRVGP production. The protein concentration was 3.6-fold higher with addition of 1% DMSO and 1% glycerol and 9.3-fold higher when the cells were cultured at 22 °C instead of the standard 28 °C. The maximum concentration of rRVGP reached was 591 μg l⁻¹. In bioreactor experiments, with control of pH at 6.20 and DO at 50%, the reduced culture temperature (22 °C) was the strategy that promoted the highest glycoprotein production, 928 μg l⁻¹.     

人canstatin基因转化新型生物反应器－杜氏盐藻(Dunaliella salina)的初步研究

本文采用RT-PCR技术从人的胎盘组织中克隆canstatin基因,定向连接到表达载体pUΩ上,然后与筛选标记bar盒连接得到真核表达载体pUΩ-Can-Bar。采用玻璃珠转化法将该表达载体转化杜氏盐藻（以下简称盐藻）,通过草丁膦固体平板筛选得到转化株,进而对转化株进行阳性鉴定。PCR结果显示,在盐藻转化株中均能够扩增出约700 bp特异的条带,而在阴性对照中没有扩增出该条带。Southern blot结果进一步证明人canstatin基因已经整合到盐藻细胞的基因组中。此外,本文对盐藻转化株的遗传稳定行进行了分析,结果表明canstatin基因能够在转化藻株中稳定遗传。人canstatin转基因盐藻株的成功制备为利用盐藻反应器大规模生产人canstatin蛋白提供了实验依据,为及早实现canstatin蛋白在治疗肿瘤上的临床应用提供了前期工作基础。