Streamlining homogeneous glycoprotein production for biophysical and structural applications by targeted cell line development

Studying the biophysical characteristics of glycosylated proteins and solving their three-dimensional structures requires homogeneous recombinant protein of high quality.We introduce here a new approach to produce glycoproteins in homogenous form with the well-established, glycosylation mutant CHO Lec3.2.8.1 cells. Using preparative cell sorting, stable, high-expressing GFP 'master' cell lines were generated that can be converted fast and reliably by targeted integration via Flp recombinase-mediated cassette exchange (RMCE) to produce any glycoprotein. Small-scale transient transfection of HEK293 cells was used to identify genetically engineered constructs suitable for constructing stable cell lines. Stable cell lines expressing 10 different proteins were established. The system was validated by expression, purification, deglycosylation and crystallization of the heavily glycosylated luminal domains of lysosome-associated membrane proteins (LAMP).     

Use of carbohydrate probes in conjunction with fluorescence-activated cell sorting to select mutant cell lines of Chlamydomonas with defects in cell surface glycoproteins

Two carbohydrate-binding probes (the lectin concanavalin A and the anti-carbohydrate monoclonal antibody FMG-1) have been utilized in conjunction with fluorescence-activated cell sorting to select cell lines of Chlamydomonas reinhardtii that contain defects in cell surface-exposed glycoproteins. Two very different selection strategies (sorting cells with the lowest binding for the FMG-1 monoclonal antibody or the highest binding of concanavalin A) yield a class of mutant cells that exhibit a total lack of binding of the monoclonal antibody to cell wall and plasma membrane glycoproteins along with an increased affinity for concanavalin A. Detailed characterization of one such mutant cell line, designated L-23, is provided. The subtle glycosylation defect exhibited by this cell line does not alter the ability of the affected glycoproteins to be targeted to the flagellar membrane and does not affect the expression of flagellar surface motility, a phenomenon that appears to involve the major concanavalin A-binding glycoprotein of the flagellar membrane. This approach has general applicability for dissecting the role of carbohydrate epitopes in the targeting and function of any cell surface glycoprotein for which suitable carbohydrate probes are available.     

Green fluorescent protein as a second selectable marker for selection of high producing clones from transfected CHO cells

Mammalian cells are often used for the expression of recombinant proteins. The process of screening transfected cells randomly for high producing clones is tedious and time consuming. We evaluated using green fluorescent protein (GFP) for selection of high producing clones by fluorescence-activated cell sorter (FACS) to reduce screening effort. We expressed neurotrophin-3 (NT3), deoxyribonuclease (DNase), or vascular endothelial growth factor (VEGF) with GFP in Chinese hamster ovary cells. The vector expressed the desired secreted protein and the selectable marker, dihydrofolate reductase, in one expression unit and the intracellular GFP in a second expression unit. Transfected cells were grown in selection medium and sorted by FACS. High fluorescence clones were obtained and found to produce high amounts of the desired protein; VEGF productivity correlated well with GFP fluorescence in 48 clones. Further studies demonstrated that productivity correlated very well with RNA of the desired protein. For comparison, we randomly picked and screened 144 VEGF clones, and the highest producing VEGF clone obtained produced 0.7 pg/cell/day. In contrast, the highest producing VEGF clone obtained by FACS sorting produced 4.4 pg/cell/day. FACS sorting therefore selected high producing clones efficiently. Since an assay for the desired protein is not required, high producing clones for a protein of unknown function can be obtained by FACS sorting followed by measuring the RNA level of the desired protein in the highly fluorescent clones.     

Generation of stable, high-producing CHO cell lines by lentiviral vector-mediated gene transfer in serum-free suspension culture

Lentivirus‐derived vectors (LVs) were studied for the generation of stable recombinant Chinese hamster ovary (CHO) cell lines. Stable pools and clones expressing the enhanced green fluorescent protein (eGFP) were selected via fluorescence‐activated cell sorting (FACS). For comparison, cell pools and cell lines were also generated by transfection, using the LV transfer plasmid alone. The level and stability of eGFP expression was greater in LV‐transduced cell lines and pools than in those established by transfection. CHO cells were also infected at two different multiplicities of infection with an LV co‐expressing eGFP and a tumor necrosis factor receptor:Fc fusion protein (TNFR:Fc). At 2‐day post‐infection, clonal cell lines with high eGFP‐specific fluorescence were recovered by FACS. These clones co‐expressed TNFR:Fc with yields of 50–250 mg/L in 4‐day cultures. The recovered cell lines maintained stable expression over 3 months in serum‐free suspension culture without selection. In conclusion, LV‐mediated gene transfer provided an efficient alternative to plasmid transfection for the generation of stable and high‐producing recombinant cell lines. Biotechnol. Bioeng. 2011; 108:600–610. © 2010 Wiley Periodicals, Inc.     

Biosynthesis of abnormally glycosylated hepatoma secretory proteins in cell cultures

We studied, by electrophoretic techniques, the physiochemical properties of 4 glycoproteins, alpha 1-antitrypsin, alpha 1-antichymotrypsin, alpha 1-acid glycoprotein and transferrin synthesized by three different human hepatoma cell lines. A common feature was the export of glycoproteins with retarded electrophoretic mobility, indicating incomplete sialylation, and a predominance of atypical, highly branched carbohydrate chains. The abnormal glycosylation pattern may be specific for malignant transformation of hepatocytes and possibly related to the intracellular accumulation of some of these proteins in malignant cells.     

Hygromycin B-selected cell lines from GAL4-regulated pUAST constructs

Here we report the generation of stable, selectable Drosophila S2 cell lines using the UAS-GAL4 system. Cloning of the hygromycin resistance gene into the pUAST vector and cotransfection with other pUAST constructs in S2 cells results in coexpression of up to four different proteins under hygromycin selection. Protein expression is driven by the ubiquitous Actin5C-GAL4 driver and cell cultures are maintained in hygromycin-supplemented, serum-free media to ensure constitutive protein production. Visual comparison of cells cotransfected with GFP and RFP demonstrates a uniform cell population expressing both markers simultaneously, while Western blot analysis shows concurrent expression of MYC3-tagged proteins. In addition, fluorescent cell sorting (FACS) analysis shows that 80% of the total cell population express the GFP marker. Our data indicate that using this technique it is possible to establish stable, selectable cell lines that provide a pool of readily accessible protein. This facilitates protein-based studies and abolishes the need to carry out time-consuming and expensive transfections.     

A new method for quantitative analysis of cell surface glycoproteome

As the altered glycosylation expressions of cell surface proteins are associated with many diseases, glycoproteomics approach has been widely applied to characterization of surface glycosylation alteration. In general, the abundances of proteolytic glycopeptides derived from corresponding glycoproteins can be measured to determine the abundances of glycoproteins. However, this quantification strategy cannot distinguish whether the changes are results from changes of protein abundance or changes in glycosite occupancy. For the accurate and specific quantification of the cell surface glycosylation profile, we proposed a modified cell surface‐capturing strategy where the glycopeptides were submitted to LC‐MS/MS analysis directly for identification of glycoproteins and the non‐glycopeptides were isotopically labelled for quantification of glycoproteins. This strategy was applied to comparatively analyze cell surface glycoproteins of two human cell lines, i.e. Chang Liver and HepG2 cells. Totally 341 glycoproteins were identified with 82.4% specificity for cell membrane proteins and 33 glycoproteins were quantified with significant expression change between the two cell lines. The differential expressions of two selected proteins (EMMPRIN and BCAM) were validated by Western blotting. This method enables specific and accurate analysis of the cell surface glycoproteins and may have broad application in the field of biomarker and drug target discovery.     

Reporter mice express green fluorescent protein at initiation of meiosis in spermatocytes

Transgenic mice were generated using a heat shock protein 2 (Hspa2) gene promoter to express green fluorescent protein (GFP) at the beginning of meiotic prophase I in spermatocytes. Expression was confirmed in four lines by in situ fluorescence, immunohistochemistry, western blotting, and PCR assays. The expression and distribution of the GFP and HSPA2 proteins co‐localized in spermatocytes and spermatids in three lines, but GFP expression was variegated in one line (F46), being present in some clones of meiotic and post‐meiotic germ cells and not in others. Fluorescence activated cell sorting (FACS) was used to isolate purified populations of spermatocytes and spermatids. Although bisulfite sequencing revealed differences in the DNA methylation patterns in the promoter regions of the transgene of the variegated expressing GFP line, a uniformly expressing GFP reporter line, and the Hspa2 gene, these differences did not correlate with variegated expression. The Hspa2‐GFP reporter mice provide a novel tool for studies of meiosis by allowing detection of GFP in situ and in isolated spermatogenic cells. They will allow sorting of meiotic and post‐meiotic germ cells for characterization of molecular features and correlation of expression of GFP with stage‐specific spermatogenic cell proteins and developmental events. genesis 52:976–984, 2014. © 2014 Wiley Periodicals, Inc.     

Glycosylation of VSV glycoprotein is similar in cystic fibrosis,heterozygous carrier,and normal human fibroblasts

The single envelope glycoprotein of vesicular stomatitis virus was used as a specific probe of glycosyltransferase activities in fibroblasts from two cystic fibrosis patients, an obligate heterozygous carrier and a normal individual. Gel filtration of pronasedigested glycopeptides from both purified virions and infected cell-associated VSV glycoprotein which had been labeled with [³H] glucosamine did not reveal any significant differences in the glycosylation patterns between the different cell cultures. All 4 cell lines were apparently able to synthesize the mannose- and glucosamine-containing core structure and branch chains terminating in sialic acid which are characteristic of asparagine-linked carbohydrate side chains in cellular glycoproteins. Analysis of tryptic glycopeptides by anion-exchange chromotography indicated that the same 2 major sites on the virus polypeptide were recognized and glycosylated in all 4 VSV-infected cell cultures. These studies suggest that the basic biochemical defect(s) in cystic fibrosis is not an absence or deficiency in enzymes responsible for the biosynthesis of complex carbohydrate side chains.     

Vesicular stomatitis virus envelope glycoprotein alterations induced by host cell transformation

Vesicular stomatitis virus (VSV) contains a single structural glycoprotein in which the sugar sequences are largely host specified. We have used VSV as a probe to study the changes in cell glycoprotein metabolism induced by virus transformation. Analysis of purified VSV grown in baby hamster kidney (BHK) or polyoma transformed BHK cells showed that the virus glycoproteins have identical apparent molecular weights. The glycopeptides derived from the glycoproteins by extensive pronase digestion have an identical molecular weight distribution.On the basis of labeling experiments with fucose, mannose, and glucosamine, the oligosaccharide moieties of the VSV glycoprotein were different in virus from the two cell lines. The VSV glycopeptides from transformed cells showed an increased resistance to cleavage by an endoglycosidase, indicating structural changes in the core region of the oligosaccharides. They also showed an increased ratio of sialic acid to N-acetylglucosamine.VSV grows in a wide variety of cell types, and the carbohydrate structures of its single glycoprotein are amenable to analysis with specific glycosidases. The virus thus provides an excellent tool with which to study alterations induced by cell transformation in the glycosylation of membrane proteins.     

利用流式细胞仪分选拟南芥根尖发育早期非根毛细胞

建立了应用流式细胞仪分选植物特定类型细胞的方法。以拟南芥(Arabidopsis thaliana)Wer::GFP转基因株系为材料,用激光共聚焦显微镜鉴定GFP的表达位置,采用酶解法制备拟南芥根尖原生质体,应用流式细胞仪荧光激活细胞分选技术(FACS)分选收集GFP阳性细胞,并提取细胞的RNA。结果表明,Wer::GFP转基因株系仅在根表皮发育早期的非根毛细胞中表达GFP;利用酶解法制备的根尖原生质体数目较多;从FACS分选收集的细胞中提取的RNA质量较好,可用于研究特定类型细胞的基因表达谱。应用流式细胞仪分选拟南芥非根毛细胞的方法为研究植物特定类型细胞的基因表达谱及基因功能奠定了技术基础。     

Impact of host cell line choice on glycan profile

Protein glycosylation is post-translational modification (PTM) which is important for pharmacokinetics and immunogenicity of recombinant glycoprotein therapeutics. As a result of variations in monosaccharide composition, glycosidic linkages and glycan branching, glycosylation introduces considerable complexity and heterogeneity to therapeutics. The host cell line used to produce the glycoprotein has a strong influence on the glycosylation because different host systems may express varying repertoire of glycosylation enzymes and transporters that contributes to specificity and heterogeneity in glycosylation profiles. In this review, we discuss the types of host cell lines currently used for recombinant therapeutic production, their glycosylation potential and the resultant impact on glycoprotein properties. In addition, we compare the reported glycosylation profiles of four recombinant glycoproteins: immunoglobulin G (IgG), coagulation factor VII (FVII), erythropoietin (EPO) and alpha-1 antitrypsin (A1AT) produced in different mammalian cells to establish the influence of mammalian host cell lines on glycosylation.     

Efficient generation of stably electrotransfected human hematopoietic cell lines without drug selection by consecutive FACsorting

BACKGROUND: Current methods to establish stably transfected cell lines by nonviral techniques involve coselection for a drug selection marker. However, this approach suffers from several drawbacks. We developed a fluorescence-activated cell sorting (FACS)-based protocol for the selection and isolation of stable hematopoietic electrotransfectants without the need for selective growth conditions. METHODS: Leukemic K562 cells were electroporated with the enhanced green fluorescent protein (EGFP) reporter gene and FACsorted to obtain stably EGFP-expressing cells. Stable EGFP(+) clones were established by single-cell sorting. RESULTS: Efficiency of stable EGFP gene expression increased steadily in function of number of consecutive FACsorts. Stable transfectants (>99% EGFP(+)) were obtained after four FACsorts. Furthermore, several single-cell derived clones with variable levels of stable EGFP expression were isolated and cultured without the use of selective growth media. CONCLUSIONS: EGFP is an effective selection marker for the generation and isolation of stably transfected hematopoietic cell clones without the need for selection in toxic media that could create a potentially undesirable stress environment for stably transfected cells.     

Optimization of sorting conditions for the selection of stable, high-producing mammalian cell lines.

The production of Green Fluorescent Protein in recombinant NIH3T3 mouse fibroblast cells was used as a model to determine the optimal conditions for the rapid isolation of high-producing cell lines with a fluorescence-activated cell sorter. "Bulk sorting", that is, sorting of a large number of positive cells, did not result in a stable, high-producing cell line due to overgrowth of high-producing cells by low- or nonproducing cells. The production kinetics and expression of GFP during batch culture was found to differ between NIH3T3 cells and HepG2 hepatoma cells, even though the same plasmid was used for transfection. The kinetics of product formation need therefore to be determined from case to case to select the optimal timepoint for analysis and sorting. Subcloning of sorted cells into microtiter plates only resulted in high-producing subclones when 1 or 2 cells were seeded per well. Higher seeding rates again resulted in overgrowth of low- or nonproducers. By subcloning, two high-producing cells lines could be isolated. They had a 10- and 15-fold higher fluorescent signal compared to the negative control. While one of these subclones started to decrease it's GFP expression after 2 months, the other clone stably expressed GFP for 4 months.     

N‐glycan maturation mutants in Lotus japonicus for basic and applied glycoprotein research

Studies of protein N‐glycosylation are important for answering fundamental questions on the diverse functions of glycoproteins in plant growth and development. Here we generated and characterised a comprehensive collection of Lotus japonicusLORE1 insertion mutants, each lacking the activity of one of the 12 enzymes required for normal N‐glycan maturation in the glycosylation machinery. The inactivation of the individual genes resulted in altered N‐glycan patterns as documented using mass spectrometry and glycan‐recognising antibodies, indicating successful identification of null mutations in the target glyco‐genes. For example, both mass spectrometry and immunoblotting experiments suggest that proteins derived from the α1,3‐fucosyltransferase (Lj3fuct) mutant completely lacked α1,3‐core fucosylation. Mass spectrometry also suggested that the Lotus japonicus convicilin 2 was one of the main glycoproteins undergoing differential expression/N‐glycosylation in the mutants. Demonstrating the functional importance of glycosylation, reduced growth and seed production phenotypes were observed for the mutant plants lacking functional mannosidase I, N‐acetylglucosaminyltransferase I, and α1,3‐fucosyltransferase, even though the relative protein composition and abundance appeared unaffected. The strength of our N‐glycosylation mutant platform is the broad spectrum of resulting glycoprotein profiles and altered physiological phenotypes that can be produced from single, double, triple and quadruple mutants. This platform will serve as a valuable tool for elucidating the functional role of protein N‐glycosylation in plants. Furthermore, this technology can be used to generate stable plant mutant lines for biopharmaceutical production of glycoproteins displaying relative homogeneous and mammalian‐like N‐glycosylation features.     

利用流式细胞仪分选拟南芥根尖发育早期非根毛细胞

建立了应用流式细胞仪分选植物特定类型细胞的方法。以拟南芥（Arabidopsis thaliana）Wer：：GFP转基因株系为材料,用激光共聚焦显微镜鉴定GFP的表达位置,采用酶解法制备拟南芥根尖原生质体,应用流式细胞仪荧光激活细胞分选技术（FACS）分选收集GFP阳性细胞,并提取细胞的RNA。结果表明,Wer：：GFP转基因株系仅在根表皮发育早期的非根毛细胞中表达GFP;利用酶解法制备的根尖原生质体数目较多;从FACS分选收集的细胞中提取的RNA质量较好,可用于研究特定类型细胞的基因表达谱。应用流式细胞仪分选拟南芥非根毛细胞的方法为研究植物特定类型细胞的基因表达谱及基因功能奠定了技术基础。     

HGF: a multifunctional growth factor controlling cell scattering

Hepatocyte Growth Factor, also known as Scatter Factor, is a polypeptide that shows structural homology with enzymes of the blood coagulation cascade. It is a biologically inactive single chain precursor that is then cleaved by specific serine proteases to a fully active β heterodimer. All the biological responses induced by HGF/SF are elicited by binding to its receptor, a transmembrane tyrosine kinase encoded by the MET proto-oncogene. The signaling cascade triggered by HGF begins with the autophosphorylation of the receptor and is mediated by concomitant activation of different cytoplasmic effectors that bind to the same multifunctional docking site. During development, HGF function is essential: knock-out mice for both ligand and receptor show an embryonic lethal phenotype. HGF/SF displays a unique feature in inducing “branching morphogenesis”, a complex program of proliferation and motogenesis in a number of different cell types. Moreover, HGF is involved in the invasive behaviour of several tumor cells both in vivo and in vitro. The role of HGF as putative therapeutical agent in pathologies characterized by massive cell loss or deregulated cell proliferation is under investigation.