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

We describe the expression and in vitro activity of recombinant canstatin from stably transformed Drosophila melanogaster S2 cells. Southern blot analysis indicated that transformed S2 cells contained multiple copies of the canstatin gene in the genome. Recombinant canstatin with a molecular weight of 29kDa was secreted into the culture medium. Recombinant canstatin was purified to homogeneity using a simple one-step Ni(2+) affinity fractionation. Purified recombinant canstatin inhibited human umbilical vein endothelial cell proliferation in a dose-dependent manner. The concentration at half-maximum inhibition (ED(50)) for recombinant canstatin expressed in stably transformed Drosophila S2 cells was approximately 0.37mug/ml. A maximum production level of 76mg/l of recombinant canstatin was obtained in a T-flask culture of Drosophila S2 cells 6 days after induction with 0.5mM CuSO(4).     

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.     

Expression of manganese lipoxygenase in Pichia pastoris and site-directed mutagenesis of putative metal ligands

Manganese lipoxygenase is secreted by the fungus Gaeumannomyces graminis. We expressed the enzyme in Pichia pastoris, which secreted approximately 30 mg Mn-lipoxygenase/L culture medium in fermentor. The recombinant lipoxygenase was N- and O-glycosylated (80-100 kDa), contained approximately 1 mol Mn/mol protein, and had similar kinetic properties (K(m) approximately 7.1 microM alpha-linolenic acid and V(max) 18 nmol/min/microg) as the native Mn-lipoxygenase. Mn-lipoxygenase could be quantitatively converted, presumably by secreted Pichia proteases, to a smaller protein (approximately 67 kDa) with retention of lipoxygenase activity (K(m) approximately 6.4 microM alpha-linolenic acid and V(max) approximately 12 nmol/min/microg). Putative manganese ligands were investigated by site-directed mutagenesis. The iron ligands of soybean lipoxygenase-1 are two His residues in the sequence HWLNTH, one His residue and a distant Asn residue in the sequence HAAVNFGQ, and the C-terminal Ile residue. The homologous sequences of Mn-lipoxygenase are H274VLFH278 and H462HVMN466QGS, respectively, and the C-terminal amino acid is Val-602. The His274Gln, His278Glu, His462Glu, and the Val-602 deletion mutants of Mn-lipoxygenase were inactive, and had lost >95% of the manganese content. His-463, Asn-466, and Gln-467 did not appear to be critical for Mn-lipoxygenase activity, as His463Gln, Asn466Gln, Asn466Leu, and Gln467Asn mutants metabolized alpha-linolenic acid to 11- and 13-hydroperoxylinolenic acids. We conclude that His-274, His-278, His-462, and Val-602 likely coordinate manganese.     

Quantitative monitoring for secreted production of human interleukin-2 in stable insect Drosophila S2 cells using a green fluorescent protein fusion partner

Human interleukin-2 (hIL-2) production in Escherichia coli and insect cell/baculovirus expression systems can be inefficient. Here we investigated secreted production of hIL-2 fused with green fluorescent protein (GFP) as a versatile fusion partner in optimized stably transfected insect Drosophila melanogaster S2 cells. This nonlytic S2 insect cell expression system employs a plasmid vector and allows for secretion of functional human proteins. We report that, following stable transfection and induction, S2 cells secreted hIL-2 as a fusion protein (approximately 2.3 microg/mL yield), with a secretion efficiency of approximately 90%. Regression analysis indicated a single linear relationship existed between GFP fluorescence and hIL-2 mass in both whole cell and secreted medium samples, indicating that in vivo monitoring and quantification of target foreign protein expression and even secretion is possible using this system. The simple comparative measurement of GFP fluorescence also allowed monitoring of secretion efficiency during periods of high GFP/hIL-2 expression.     

Comparative characterization of two forms of recombinant human SPC1 secreted from Schneider 2 cells

SPC1 (furin/PACE), an enzyme belonging to the S8 group of serine endoproteases, is a type I integral membrane protein that catalyzes the processing of a multitude of precursor proteins. We report here the use of transfected Drosophila melanogaster Schneider 2 cells to produce milligram amounts of two forms of recombinant human SPC1. In order to investigate the role of the cysteine-rich region (CRR) of SPC1, we compared the biochemical and enzymatic properties of hSPC1/714 that has the C-terminal tail and transmembrane region of the native enzyme removed with that of hSPC1/585 which had, in addition, the CRR deleted. Two stable cell lines were established. The S2-hSPC1/714 line secreted a major form of apparent molecular weight of 83 kDa and a minor form of 80 kDa whereas the S2-hSPC1/585 line secreted a single 59-kDa protein. PNGase F treatment of the different forms demonstrated that the enzymes were glycosylated. Automated NH(2)-terminal sequencing revealed that all purified forms resulted from processing at the expected zymogen activation site. Removal of the CRR resulted in a broadening of the enzyme's pH range, a shift of K(0.5) for Ca(2+), and a shorter enzymatic half-life when compared to the longer form, which suggest that the CRR of hSPC1 may help in stabilizing the enzyme's proteolytic activity. The use of this high-level expression system will meet the demand for material necessary to perform biochemical and structural studies that are needed to further our understanding of this and other SPCs at the molecular level.     

High-level synthesis of recombinant murine endostatin in Chinese hamster ovary cells

Endostatin, a carboxy-terminal fragment of collagen XVIII, has been shown to act as an anti-angiogenic agent that specifically inhibits proliferation of endothelial cells and growth of various primary tumors. Here, we describe the expression by Chinese hamster ovary (CHO) cells of murine endostatin and of a tagged-fusion protein, (his)6-met-endostatin. A dicistronic mRNA expression vector was utilized in which endostatin cDNA was inserted upstream of the amplifiable marker gene, dihydrofolate reductase (DHFR). After transfection of the expression vectors, stepwise increments in methotrexate levels in the culture medium were applied, promoting gene amplification and increasing expression levels of the proteins of interest. The expression level of secreted native endostatin was about 78 microg/mL while the one for secreted (his)6-met-endostatin was about 114 microg/mL, for the best expressing clones. Characterization of physico-chemical and immunological activities of the proteins was performed using SDS-PAGE and Western blotting. The biological activities of recombinant endostatins were tested with a cow pulmonary artery endothelial (C-PAE) cell proliferation assay. Both recombinant endostatin and (his)6-met-endostatin inhibited, in a dose-dependent fashion, growth of C-PAE cells stimulated by basic fibroblast growth factor (bFGF).     

Expression of double foreign protein types following recombinant baculovirus infection of stably transfected Drosophila S2 cells

We sought to develop a platform for simultaneous, regulatable expression of double foreign protein types in cell culture. Drosophila melanogaster Schneider line 2 (S2) insect cells that stably express human erythropoietin (hEPO) were infected with a recombinant baculovirus containing the green fluorescent protein (GFP) gene. Since baculovirus cannot replicate in nonpermissive S2 cells, baculovirus infection did not affect cell growth or viability. Expression of each foreign protein was under the control of the inducible metallothionein (MT) promoter. Addition of copper sulfate to infected, stably transfected cells resulted in simultaneous expression of both GFP and hEPO. Induced hEPO expression profile and levels were similar in both control and infected cells, indicating that baculovirus infection also did not affect expression of stably introduced foreign gene. GFP protein levels were regulated by the infection dose of recombinant baculovirus, while hEPO expression remained constant. hEPO levels were much higher (30-fold) than GFP, indicating plasmid-based introduced gene copies have higher expression than baculovirus-based introduced genes. These data suggest the baculovirus/stable S2 cell system can be used to produce a major target protein by plasmid-based stable transfection, and assistant proteins by recombinant baculovirus infection. Such a system appears to be very attractive as a multiple protein expression platform for engineering metabolic pathways in cell culture.     

利用盘基网柄菌表达可溶性人Fas配体

用PCR扩增从激活的人中性粒细胞中得到的编码可溶性Fas配体胞外区中第141个到第281个氨基酸的cDNA ,将其与hCG-β信号肽片段融合到质粒MB12neo中,随后导入到盘基网柄菌AX3细胞中,得到分泌性表达hFasL的重组菌AX3-H3。为提高shFasL的表达量,对质粒pMB12neo作了改造,得到衍生质粒pMB74。利用质粒pMB74克隆表达shFasL ,得到高通量表达shFasL的重组菌AX3_pLu8。在复杂培养基HL_5C中,重组菌的细胞密度可达(1.5～2 )×10⁷ mL ,AX3-H3及AX3_pLu8分泌的shFasL浓度分别为23.5 μg/L及206μg/L。利用合成培养基SIH培养重组菌AX3-H3及AX3-pLu8,细胞密度均达到(4～5)×10⁷m/L ,shFasL浓度则分别达到111μg/L和420μg/L。     

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 recombinant human testis angiotensin-converting enzyme expressed in Chinese hamster ovary cells.

Enzymatically active human testis angiotensin-converting enzyme (ACE) was expressed in Chinese hamster ovary (CHO) cells stably transfected with each of three vectors: p omega-ACE contains a full-length testis ACE cDNA under the control of a retroviral promoter; and pLEN-ACEVII and pLEN-ACE6/5, in which full-length and membrane anchor-minus testis ACE cDNAs, respectively, are under the control of the human metallothionein IIA promoter and SV40 enhancer. In every case, active recombinant human testis ACE (hTACE) was secreted in a soluble form into the culture media, up to 2.4 mg/liter in the media of metal-induced, high-producing clones transfected with one of the pLEN vectors. In addition, membrane-bound recombinant enzyme was recovered from detergent extracts of cell pellets of CHO cells transfected with either p omega-ACE or pLEN-ACE-VII. Recombinant converting enzyme was purified to homogeneity by single-step affinity chromatography of conditioned media and detergent-extracted cell pellets in 85 and 70% overall yield, respectively. Purified hTACE from all sources comigrated with the native testis isozyme on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with M(r) approximately 100 kDa. The native and recombinant proteins cross-reacted equally with anti-human kidney ACE antiserum on Western blotting. The catalytic activity of recombinant angiotensin-converting enzyme, in terms of angiotensin I and 2-furanacryloyl-Phe-Gly-Gly hydrolysis, chloride activation, and lisinopril inhibition, was essentially identical to that of the native enzyme. The facile recovery in high yield of fully active hTACE from the media of stably transfected CHO cells provides a suitable system for investigating structure-function relationships in this enzyme.     

Control of culture environment for improved polyethylenimine-mediated transient production of recombinant monoclonal antibodies by CHO cells

In this study we describe optimization of polyethylenimine (PEI)-mediated transient production of recombinant protein by CHO cells by facile manipulation of a chemically defined culture environment to limit accumulation of nonproductive cell biomass, increase the duration of recombinant protein production from transfected plasmid DNA, and increase cell-specific production. The optimal conditions for transient transfection of suspension-adapted CHO cells using branched, 25 kDa PEI as a gene delivery vehicle were experimentally determined by production of secreted alkaline phosphatase reporter in static cultures and recombinant IgG4 monoclonal antibody (Mab) production in agitated shake flask cultures to be a DNA concentration of 1.25 microg 10(6) cells(-1) mL(-1) at a PEI nitrogen:DNA phosphate ratio of 20:1. These conditions represented the optimal compromise between PEI cytotoxicity and product yield with most efficient recombinant DNA utilization. Separately, both addition of recombinant insulin-like growth factor (LR3-IGF) and a reduction in culture temperature to 32 degrees C were found to increase product titer 2- and 3-fold, respectively. However, mild hypothermia and LR3-IGF acted synergistically to increase product titer 11-fold. Although increased product titer in the presence of LR3-IGF alone was solely a consequence of increased culture duration, a reduction in culture temperature post-transfection increased both the integral of viable cell concentration (IVC) and cell-specific Mab production rate. For cultures maintained at 32 degrees C in the presence of LR3-IGF, IVC and qMab were increased 4- and 2.5-fold, respectively. To further increase product yield from transfected DNA, the duration of transgene expression in cell populations maintained at 32 degrees C in the presence of LR3-IGF was doubled by periodic resuspension of transfected cells in fresh media, leading to a 3-fold increase in accumulated Mab titer from approximately 13 to approximately 39 mg L(-1). Under these conditions, Mab glycosylation at Asn297 remained essentially constant and similar to that of the same Mab produced by stably transfected GS-CHO cells. From these data we suggest that the efficiency of transient production processes (protein output per rDNA input) can be significantly improved using a combination of mild hypothermia and growth factor(s) to yield an extended "activated hypothermic synthesis".     

Optimization of tetracycline-responsive recombinant protein production and effect on cell growth and ER stress in mammalian cells

The inducible T-REx system and other inducible expression systems have been developed in order to control the expression levels of recombinant protein in mammalian cells. In order to study the effects of heterologous protein expression on mammalian host behavior, the gene for recombinant Human transferrin (hTf) was integrated into HEK-293 cells and expressed under the control of the T-REx inducible technology (293-TetR-Hyg-hTf) or using a constitutive promoter (293-CMV-hTf). A number of inducible clones with variable expression levels were identified for the T-REx system with levels of hTf for the high expressing clones nearly double those obtained using the constitutive cytomegalovirus (CMV) promoter. The level of transferrin produced was found to increase proportionately with tetracycline concentration between 0 and 1 mug/mL with no significant increases in transferrin production above 1 mug/mL. As a result, the optimal induction time and tetracycline concentrations were determined to be the day of plating and 1 mug/mL, respectively. Interestingly, the cells induced to express transferrin, 293-TetR-Hyg-hTf, exhibited lower viable cell densities and percent viabilities than the uninduced cultures for multiple clonal isolates. In addition, the induction of transferrin expression was found to cause an increase in the expression of the ER-stress gene, BiP, that was not observed in the uninduced cells. However, both uninduced and induced cell lines containing the hTf gene exhibited longer survival in culture than the control cells, possibly as a result of the positive effects of hTf on cell survival. Taken together, these results suggest that the high level expression of complex proteins in mammalian cells can limit the viable cell densities of cells in culture as a result of cellular stresses caused by generating proteins that may be difficult to fold or are otherwise toxic to cells. The application of inducible systems such as the T-REx technology will allow us to optimize protein production while limiting the negative effects that result from these cellular stresses.     

Human pituitary glutaminyl cyclase: expression in insect cells and dye affinity purification

Human pituitary glutaminyl cyclase (hQC) was expressed in Drosophila S2 cells under the control of an inducible metallothionene promoter and fused to the Drosophila immunoglobulin-binding protein signal sequence to enable secretion into the culture media. Expression levels reached 50 microg/mL culture media after 7 days of induction. The enzyme was purified to homogeneity directly from culture media by affinity chromatography on Reactive Blue 4-agarose using a step pH elution. The identity of the expressed protein was confirmed by peptide mass mapping and Western blotting. Glutaminyl cyclase was expressed as a fully active 37 kDa enzyme with kcat/Km values of 14.3, 9.3, and 2.4 mM(-1)s(-1) for the substrates Gln-Gln, Gln-NH(2), and Gln-t-butyl ester, respectively. The two cysteines were disulfide bonded, and the lone predicted glycosylation site, asparagine 49, was shown by both enzymatic deglycosylation of the expressed enzyme and site-directed mutagenesis to be glycosylated.     

Cloning of a Heliothis virescens 110 kDa aminopeptidase N and expression in Drosophila S2 cells

We previously identified a novel Heliothis virescens 110 kDa aminopeptidase N (APN) that binds Bacillus thuringiensis (Bt) Cry1Ac and Cry1Fa delta-endotoxins, and cloned an internal region of the 110 kDa APN gene (Banks et al., 2001). Here we describe the RACE-PCR cloning and sequence of a cDNA encoding 110 kDa APN. The 110 kDa APN gene was transiently co-expressed with green fluorescent protein (GFP) in Drosophila S2 cells using the pIZT expression vector. Enrichment of total membranes purified from S2 cells transfected with the 110 kDa APN gene had 3.3 fold increased APN enzymatic activity relative to enriched total membranes purified from S2 cells transfected with vector alone. Whereas the majority of S2 cells transfected with the 110 kDa APN gene bound rhodamine-labeled Cry1Ac toxin, no S2 cells transfected with vector alone bound rhodamine-labeled Cry1Ac toxin. This indicates that toxin binding to whole cells is APN mediated. However, flow cytometry and microscopy indicated that 110 kDa APN transfected S2 cells exposed to Cry1Ac or Cry1Fa toxin did not experience an increase in membrane permeability, indicating that APN transfected cells were resistant to toxin. This suggests while the H. virescens 110 kDa APN functions as a Bt toxin binding protein, it does not mediate cytotoxicity when expressed in S2 cells.     

Facile and statistical optimization of transfection conditions for secretion of foreign proteins from insect Drosophila S2 cells using green fluorescent protein reporter

Insect Drosophila melanogaster S2 cells were developed as a plasmid-based and therefore nonlytic expression system for functional foreign proteins. Transfection is an important step to introduce foreign target DNA into cells and should be properly optimized to obtain maximum production yield. Single factor search (SFS) methodology is still generally used to determine optimal condition in a biological system. Although this method is relatively simple to perform, it has many disadvantages such as not considering interactions between several factors and not covering the entire region of the solution pool. Therefore, we approached this optimization problem statistically with response surface (RSM) and evolutionary operation (EVOP) methodologies and compared the transfection efficiencies with the traditional SFS method. We employed secreted green fluorescent protein (GFP) as a reporter for determination of optimal transfection condition and secreted human erythropoietin (hEPO) as a confirming foreign model protein. Consequently, we arrived at the best optimal transient transfection condition (1 microg of plasmid DNA, 5 microg of lipofectin, 2 x 10(6) cells of initial cell number, and 18 h of transfection duration time) through a systematic access in a series of SFS, RSM, and EVOP. The secreted hEPO yield using optimal transient transfection condition by EVOP methodology was enhanced by about 1.8-fold compared to that of traditional SFS. This optimized transient transfection condition can be used as a basis for optimal stable transfections. A linear relationship between secreted GFP fluorescence intensity and secreted hEPO concentration indicated that facile and noninvasive determination of optimal transfection conditions for expression and secretion of foreign proteins in S2 cell cultures was made possible by simple measurement of GFP fluorescence.     

Expression of the hepatitis B virus surface antigen in Drosophila S2 cells

Drosophila melanogaster S2 cells were transfected with a plasmid vector (pAcHBsAgHy) containing the S gene, coding for the hepatitis B virus surface antigen (HBsAg), under control of the constitutive drosophila actin promoter (pAc), and the hygromycin B (Hy) selection gene. The vector was introduced into Schneider 2 (S2) Drosophila cells by DNA transfection and a cell population (S2AcHBsAgHy) was selected by its resistance to hygromycin B. The pAcHBsAgHy vector integrated in transfected S2 cell genome and approximately 1,000 copies per cell were found in a higher HBsAg producer cell subpopulation. The HBsAg production varied in different subpopulations, but did not when a given subpopulation was cultivated in different culture flasks. Higher HBsAg expression was found in S2AcHBsAgHy cells cultivated in Insect Xpress medium (13.5 μg/1E7 cells) and SFX medium (7 μg/1E7 cells) in comparison to SF900II medium (0.6 μg/1E7 cells). An increase of HBsAg was observed in culture maintained under hygromycin selection pressure. Data presented in the paper show that S2AcHBsAgHy cells produce efficiently the HBsAg which is mainly found in the cell supernatant, suggesting that HBsAg is secreted from the cells. The data also show that our approach using the Drosophila expression system is suitable for the preparation of other viral protein preparation.     

Expression and characterization of biologically active human Fas ligand produced in CHO cells

We describe an expression system for high-yield production of recombinant soluble human FasL (rsh-FasL) in CHO cells. After one round of selection for gene amplification, cell lines producing rsh-FasL up to 60 μg/L × 10⁶ cells in 24 h were obtained. Cell lines were grown in protein-free medium as suspension cultures. The protein secreted into growth medium was purified by immunoaffinity. The rsh-FasL thus obtained was further fractionated by gel filtration and a form of approx 140 kDa was isolated and characterized. Mass spectral analysis yielded a main peak of 28,321.15 Da, while, although to a lesser extent, dimeric and trimeric forms were also detected according to the described oligomerized state of native FasL. Our procedure permits consistent production of biologically active rsh-FasL as shown in tests on FasL-sensitive cells and in in vitro binding assays. S. Zappitelli and L. D’Alatri contributed equally to this work.     

Secretion of an active recombinant dog gastric lipase from baculovirus-infected insect cells

An active dog gastric lipase (DGL) belonging to the acid-stable mammalian lipase family, was produced and secreted from baculovirus-infected insect cells using the honeybee melittin and the DGL signal sequences. Both sequences drove the secretion of an active 47 kDa recombinant DGL (rDGL). rDGL was secreted at about 35 mg/L of culture medium. A one step purification using a cation exchange chromatography was used to recover an active electrophoretically pure rDGL from 2 days post-infection supernatant. There were not significant differences between the enzymatic properties of native and recombinant proteins. © Rapid Science Ltd. 1998