Modeling single cell antibody excretion on a biosensor

We simulated, using Comsol Multiphysics, the excretion of antibodies by single hybridoma cells and their subsequent binding on a surface plasmon resonance imaging (SPRi) sensor. The purpose was to confirm that SPRi is suitable to accurately quantify antibody (anti-EpCAM) excretion. The model showed that antibody loss by diffusion away from the sensor was less than 1%. Unexpectedly, more than 99% of the excreted antibodies were captured on the sensor. These data prove the remarkable phenomenon that the SPRi output of cellular antibody excretion and its subsequent binding, performed under the conditions described here, is directly usable for quantification of single cell antibody production rates.     

On chip real time monitoring of B-cells hybridoma secretion of immunoglobulin

The secretions of molecules by cells are of tremendous interest for both fundamental insights studies and medical purposes. In this study, we propose a new biochip-based approach for the instantaneous monitoring of protein secretions, using antibody production by B lymphocytes cultured in vitro. This was possible thanks to the Surface Plasmon Resonance imaging (SPRi) of a protein biochip where antigen proteins (Hen Egg Lysozyme, HEL) were micro-arrayed along with series of control proteins. B cell hybridomas were cultured on the chip and the secretion of immunoglobulins (antibody) specific to HEL was monitored in real-time and detected within only few minutes rather than after a 30-60 min incubation with standard ELISA experiments. This fast and sensitive detection was possible thanks to the sedimentation of the cells on the biochip sensitive surface, where local antibody concentrations are much higher before dilution in the bulk medium. An other interesting feature of this approach for the secretion monitoring was the independence of the SPR response--after normalization--regarding to the density of the surface-immobilized probes. Such biosensor might thus pave the way to new tools capable of both qualitative and semi-quantitative analysis of proteins secreted by other immune cells.     

Interleukin-6 is antiproliferative to a mouse hybridoma cell line and promotive for its antibody productivity

Monoclonal antibody production by hybridoma cells at moderately slowed growth states would be favorable for commercial scale production since cells can devote their resources to performing the differentiated function, immunoglobulin production. We found that a purified recombinant human interleukin-6, which had been reported to support or stimulate proliferation of B cell hybridoma/plasmacytoma cells, suppressed growth of a hybridoma cell line in serum-free medium. In the presence of the interleukin, the growth-suppressed cells were viable for remarkably long periods in batch culture, and after removal of the interleukin from the culture medium, they started to proliferate at their normal growth rate. As the concentration of the interleukin increased in the culture, the growth rate decreased and the specific antibody productivity (antibody production rate per cell) increased to 5-fold of control at 10 U ml^–1 (2 ng ml^–1) of the interleukin.Abbreviations IL-1,2, and 6 interleukin-1, 2 and 6 - rhIL-6 recombinant human interleukin-6 - MCAb monoclonal antibody - TNP trinitrophenyl - unit (U) of interleukin-6 A unit (U) is equivalent to the amounts of IL-6 which gives one-half maximal IgM secretion by SKW6-CL4 cells (1U ml^–1=200 pg ml^–1)     

Surface plasmon resonance assay for chloramphenicol without surface regeneration

A surface plasmon resonance (SPR) assay without surface regeneration was developed for rapid and sensitive detection of chloramphenicol (CAP). A CAP-amine derivative was synthesized using a polyethylene glycol chain attached to the CAP through a carbamate linkage and immobilized onto a Biacore dextran surface. This chemically modified surface significantly changed the binding behavior between antibody and CAP, shown by both fast association and fast dissociation rates, and created a rapid and sensitive SPR immunoassay of the CAP without any regeneration. The limits of detection achieved for CAP were 32.2 pg/ml in aqueous buffer and 42.4 pg/ml in honey-spiked samples.     

Comparison of cell lines for stable production of fucose-negative antibodies with enhanced ADCC

Several methods have been described to enhance antibody-dependent cellular cytotoxicity (ADCC) using different host cells that produce antibody with reduced levels of fucose on their carbohydrates. We compared the suitability of these methods for the serum-free fed-batch production of antibody for clinical trials and commercial uses. Recombinant anti-human CD20 chimeric IgG1-producing clones were established from host-cells that have been shown to produce more than 90% fucose-negative antibody. The cell lines were a FUT8 (alpha-1,6-fucosyltransferase) knockout Chinese hamster ovary (CHO) cell line, Ms704, and two Lens culinaris agglutinin (LCA)-resistant cell lines, one derived from a variant CHO line, Lec13 and the other from a rat hybridoma cell line, YB2/0. The amount of fucose-negative antibody produced by Lec13 and YB2/0 significantly decreased with the culture. The increase in fucosylation was due to remaining synthesis of GDP-fucose via de novo pathway for the CHO line and the elevation of FUT8 expression by the YB2/0 cells. In contrast, Ms704 cells stably produced fucose-negative antibody with a consistent carbohydrate structure until the end of the culture. The productivity of the Ms704 cells reached 1.76 g/L with a specific production rate (SPR) of 29 pg/cell/day for 17 days in serum-free fed-batch culture using a 1 L spinner bioreactor. Our results demonstrate that FUT8 knockout has the essential characteristics of host cells for robust manufacture of fucose-negative therapeutic antibodies with enhanced ADCC.     

Oxygen consumption of human heart cells in monolayer culture

Tissue engineering in cardiovascular regenerative therapy requires the development of an efficient oxygen supply system for cell cultures. However, there are few studies which have examined human cardiomyocytes in terms of oxygen consumption and metabolism in culture. We developed an oxygen measurement system equipped with an oxygen microelectrode sensor and estimated the oxygen consumption rates (OCRs) by using the oxygen concentration profiles in culture medium. The heart is largely made up of cardiomyocytes, cardiac fibroblasts, and cardiac endothelial cells. Therefore, we measured the oxygen consumption of human induced pluripotent stem cell derived cardiomyocytes (hiPSC-CMs), cardiac fibroblasts, human cardiac microvascular endothelial cell and aortic smooth muscle cells. Then we made correlations with their metabolisms. In hiPSC-CMs, the value of the OCR was 0.71 ± 0.38 pmol/h/cell, whereas the glucose consumption rate and lactate production rate were 0.77 ± 0.32 pmol/h/cell and 1.61 ± 0.70 pmol/h/cell, respectively. These values differed significantly from those of the other cells in human heart. The metabolism of the cells that constitute human heart showed the molar ratio of lactate production to glucose consumption (L/G ratio) that ranged between 1.97 and 2.2. Although the energy metabolism in adult heart in vivo is reported to be aerobic, our data demonstrated a dominance of anaerobic glycolysis in an in vitro environment. With our measuring system, we clearly showed the differences in the metabolism of cells between in vivo and in vitro monolayer culture. Our results regarding cell OCRs and metabolism may be useful for future tissue engineering of human heart.     

EpCAM蛋白的表达、纯化及其单克隆抗体的制备

目的:原核表达EpCAM蛋白并制备抗EpCAM特异性单克隆抗体,初步鉴定相应单克隆抗体的特性。方法:PCR扩增EpCAM基因胞外区,将目的基因亚克隆至载体pET-28a(+),转化至大肠埃希菌株BL21,IPTG诱导表达,组氨酸亲和层析法纯化表达产物。纯化蛋白免疫BALB/c小鼠,将成功免疫的小鼠脾细胞与骨髓瘤SP2/0细胞融合,经ELISA筛选得到分泌特异性抗EpCAM的单克隆抗体的细胞株,免疫BALB/c小鼠进一步制备相应的单克隆抗体,并通过Western blot(蛋白质印记)和FACS(流式细胞分析)鉴定单抗的特异性及生物学活性。结果:成功构建重组表达载体pET28a-EpCAM并在大肠杆菌中获得表达,经His-tag亲和层析法获得纯化的EpCAM重组蛋白。EpCAM重组蛋白免疫的BALB/c小鼠的脾细胞与SP2/0细胞融合、筛选,获得两株稳定分泌EpCAM抗体的杂交瘤细胞株,分别命名为4B2、2F2并免疫BALB/c小鼠获得相应的单克隆抗体。Western blot结果显示4B2腹水纯化所得单抗能够识别FaDu细胞系(人咽鳞癌细胞)中的EpCAM蛋白,但2F2未能识别FaDu细胞中的变性的EpCAM蛋白。FACS结果显示两者均能和FaDu细胞中天然的EpCAM蛋白结合。讨论:成功制备了抗EpCAM的单克隆抗体,并能够识别人咽鳞癌细胞系FaDu中表达的EpCAM,为进一步研究EpCAM抗体在肿瘤治疗中的作用提供基础。     

Detection of embryonic stem cell lysate biomarkers by surface plasmon resonance with reduced nonspecific adsorption

Surface plasmon resonance imaging (SPRi) has emerged as a versatile biosensor to detect a wide range of biomolecular interactions with divergent potential applications. However, the use of this advanced-level technology for stem cell lysate study is still not much explored. Cell lysates are significant biological analytes used for disease diagnostics and proteomic studies, but their complex nature limits their use as an analyte for SPRi biosensors. Here, we review the problems associated with the use of SPRi for stem cell lysate study and examine the role of surface chemistry, running buffer, and blocking solution in order to minimize nonspecific adsorption (NSA). We detect the expression of Oct4, Sox2, Nanog, Rex1, and Lin28 biomarkers present in mouse embryonic stem cell (mESC) lysate against their corresponding antibodies immobilized on the sensor surface with reduced NSA. The current study shows that the conjunction of SPRi and microarray can be used as a label-free, high-throughput, and rapid technique for detection of biomarkers and their relative abundance in stem cell lysate study.     

Monoclonal antibody production in murine ascites. II. Production characteristics

OBJECTIVE: To characterize monoclonal antibody production parameters of five hybridoma cell lines in murine ascites for correlation with clinicopathologic changes in mice. METHODS: Five hybridoma cell lines were grown in groups of 20 mice. Fourteen days prior to inoculation with 10(6) hybridoma cells, mice were primed with 0.5 ml of pristane given intraperitoneally. Ascites fluid was collected a maximum of three times by abdominal paracentesis; volume was measured and antibody concentration was determined by ELISA for each sample. RESULTS: Trends differed among cell lines when comparing ascites volumes and antibody concentrations over time from the first to the third tap. Antibody production was greatest at tap 1 for Groups 2B11 and 2C6D9; tap 2 for Group 3C9; and tap 3 for Groups RMK and 3D6. Total antibody production ranged from 422.90 to 996.64 mg; total ascites fluid volume ranged from 74.2 to 115.7 ml; and mean antibody concentration for taps 1, 2, and 3 ranged from 2.50 to 15.03 mg/ml among cell lines. CONCLUSION: Production characteristics were significantly different among hybridoma cell lines. Determination of production characteristics of hybridomas and correlation with clinicopathologic changes in mice may be valuable in making recommendations for managing mice with ascites.     

Effect of shear rate on hybridoma cell metabolism

The effect of shear rate on cell growth and monoclonal antibody production of hybridoma cells was studied. The dependence of agitation rate on antibody production is discussed by measuring the amount of monoclonal antibody in cells cultured by a spinner vessel. The effect of shear rate is also studied by exposing a homogeneous shear flow to hybridoma cells in a cone-and-plate viscometer. The dependence of shear rate on hybridoma cells was observed and the increase of antibody production was arised from the increase of secretion from cells.     

Measurement of pyrethroid,organophosphorus, and carbamate insecticides in human plasma using isotope dilution gas chromatography–high resolution mass spectrometry

We have developed a gas chromatography–high resolution mass spectrometry method for measuring pyrethroid, organophosphorus, carbamate and fipronil pesticides and the synergist piperonyl butoxide in human plasma. Plasma samples were extracted using solid phase extraction and were then concentrated for injection and analysis using isotope dilution gas chromatography–high resolution mass spectrometry. The limits of detection ranged from 10 to 158 pg/mL with relative recoveries at concentrations near the LODs (e.g., 25 or 250 pg/mL) ranging from 87% to 156% (9 of the 16 compounds were within ±15% of 100%). The extraction recoveries ranged from 20% to 98% and the overall method relative standard deviations were typically less than 20% with some exceptions. Analytical characteristics were determined at 25, 250, and 1000 pg/mL.     

Development of a multipurpose time-resolved fluorescence immunoassay for rat insulin

We present a time-resolved fluorescence immunoassay (TR-FIA) for the measurement of rat insulin in cell extracts and culture media. This assay is based on the binding of two monoclonal antibodies to different parts of the insulin molecule in a 96-well microtiter plate. For the detection, europium-labeled streptavidin that interacts with the second biotinylated antibody is used. Samples of 25 μl could be analyzed in less than 2 days with a measuring range between 5 and 1250 pg (0.2-50 μg/L or 34.4-8600 pM). The inter- and intraassay percentage coefficients of variation were less than 8.3 and 5.1, respectively. Recoveries of 0.48 to 40 μg/L rat insulin, added to culture medium, ranged between 94 and 107%. Results were significantly correlated with those of an in-house radioimmunoassay (RIA) for rodent insulin (P < 0.0001, r² = 0.99). The TR-FIA method had a similar detection limit (0.16 μg/L), but its working range was at least 5-fold larger. Additional advantages include the lower cost, the applicability to measurements in tissue and serum, and the quantification of insulin from other species.     

DARPins recognizing the tumor-associated antigen EpCAM selected by phage and ribosome display and engineered for multivalency

Designed Ankyrin Repeat Proteins (DARPins) represent a novel class of binding molecules. Their favorable biophysical properties such as high affinity, stability and expression yields make them ideal candidates for tumor targeting. Here, we describe the selection of DARPins specific for the tumor-associated antigen epithelial cell adhesion molecule (EpCAM), an approved therapeutic target on solid tumors. We selected DARPins from combinatorial libraries by both phage display and ribosome display and compared their binding on tumor cells. By further rounds of random mutagenesis and ribosome display selection, binders with picomolar affinity were obtained that were entirely monomeric and could be expressed at high yields in the cytoplasm of Escherichia coli. One of the binders, denoted Ec1, bound to EpCAM with picomolar affinity (K_d = 68 pM), and another selected DARPin (Ac2) recognized a different epitope on EpCAM. Through the use of a variety of bivalent and tetravalent arrangements with these DARPins, the off-rate on cells was further improved by up to 47-fold. All EpCAM-specific DARPins were efficiently internalized by receptor-mediated endocytosis, which is essential for intracellular delivery of anticancer agents to tumor cells. Thus, using EpCAM as a target, we provide evidence that DARPins can be conveniently selected and rationally engineered to high-affinity binders of various formats for tumor targeting.     

A new serum-free medium for monoclonal antibody production

A new serum-free, defined-protein, medium for the growth of murine hybridoma cells and the production of monoclonal antibodies has been developed. Designated WRC 935 medium, this formulation supports the growth of hybridoma cells in higher numbers, and promotes better cell viabilities and increased monoclonal antibody levels compared to growth in DMEM supplemented with 10% fetal bovine serum or in a DMEM/F-12 serum-free mixture. In suspension cultures, WRC 935 medium typically promoted cell growth to densities over two million cells per milliliter. This medium also promoted the rapid growth of cells following their transfer from liquid nitrogen storage. WRC 935 medium is especially useful for high density cell culture production methods using hollow-fiber bioreactors. Hollow-fiber bioreactors using this medium produced antibody at an average rate of 11 mg/day, and the antibody concentration ranged from 10 to 40 mg/ml.     

Novel Interaction of Ornithine Decarboxylase with Sepiapterin Reductase Regulates Neuroblastoma Cell Proliferation

Ornithine decarboxylase (ODC) is the sentinel enzyme in polyamine biosynthesis. Both ODC and polyamines regulate cell division, proliferation, and apoptosis. Sepiapterin reductase (SPR) catalyzes the last step in the biosynthesis of tetrahydrobiopterin (BH₄), an essential cofactor of nitric oxide synthase, and has been implicated in neurological diseases but not yet in cancer. In this study, we present compelling evidence that native ODC and SPR physically interact, and we defined the individual amino acid residues involved in both enzymes using in silico protein–protein docking simulations. The resulting heterocomplex is a surprisingly compact structure, featuring two energetically and structurally equivalent binding modes both in monomer and in dimer conformations. The novel interaction between ODC and SPR proteins was confirmed under physiological conditions by co-immunoprecipitation and co-localization in neuroblastoma (NB) cells. Importantly, we showed that siRNA (small interfering RNA)-mediated knockdown of SPR expression significantly reduced endogenous ODC enzyme activity in NB cells, thus demonstrating the biological relevance of the ODC–SPR interaction. Finally, in a cohort of 88 human NB tumors, we found that high SPR mRNA expression correlated significantly with poor survival prognosis using a Kaplan–Meier analysis (log-rank test, P = 5 × 10^− 4), suggesting an oncogenic role for SPR in NB tumorigenesis. In conclusion, we showed that ODC binds SPR and thus propose a new concept in which two well-characterized biochemical pathways converge via the interaction of two enzymes. We identified SPR as a novel regulator of ODC enzyme activity and, based on clinical evidence, present a model in which SPR drives ODC-mediated malignant progression in NB.     

Nine surface plasmon resonance assays for specific protein quantitation during cell culture and process development

Quantitation of protein is essential during pharmaceutical development, and a variety of methods and technologies for determination of total and specific protein concentration are available. Here we describe the development of a streamlined assay platform for specific quantitation assays using surface plasmon resonance (SPR) technology. A total of nine different assays were developed using similar conditions, of which eight assays were for quantitation of different human blood plasma proteins (IgG, IgG1–4 subclasses, IgA, transferrin, and albumin) from a chromatography-based IgG plasma process. Lastly, an assay for monitoring the concentration of a recombinant monoclonal antibody during 13 days of CHO cell culturing was developed. Assay performances were compared with enzyme-linked immunosorbent assay (ELISA), nephelometry, ARCHITECT, and Cobas c501. SPR assays were shown to have higher sensitivity than analysis using nephelometry, ARCHITECT, and Cobas and to have significantly lower analysis and hands-on time compared with ELISA. Furthermore, the SPR assays were robust enough to be used for up to 12 days, allowing specific protein concentration measurement of a sample to be completed at line within 10 min. Using the same platform with only few varied parameters between different assays has saved time in the lab as well as for evaluation and presentation of results.     

DMSO抑制杂交瘤增殖促进抗体的分泌

利用DMSO促进杂交瘤细胞分泌单克隆抗体,并对其作用机制进行了研究。结果表明在杂交瘤细胞对数生长后期添加0.6%浓度的DMSO与对照相比可提高抗体的产量2倍;流式细胞仪检测细胞周期表明此时837%的细胞处于G1期;免疫印记结果显示在有DMSO作用下杂交瘤细胞P27 蛋白表达显著升高。因此,DMSO 可通过促进P27蛋白的表达,抑制杂交瘤细胞的增殖,从而提高杂交瘤细胞分泌抗体的能力。对DMSO进一步在高密度大规模培养杂交瘤细胞中的应用具有重要意义。     

Neospora caninum: Early immune response of rat mixed glial cultures after tachyzoites infection

Neospora caninum causes neurologic disease in dogs and abortion in cattle. Little is known about the immune response of the CNS against this protozoan. The aim of this study was to evaluate production of IL-6, IL-10, TNF-α, IFN-γ, and NO in rat mixed glial cell cultures infected by N. caninum. IFN-γ was not observed. The mean cytokine released after 24 and 72 h of infection were 3.8 ± 0.6 and 3.7 ± 0.6 pg TNF-α/mg protein and 2.7 ± 0.69 and 4.1 ± 0.64 pg IL-10/mg protein, respectively, and more than 8.0 pg IL-6/mg protein for both time points. NO levels increased 24 h post-infection (2.3 ± 0.8 pg/mg protein) until 72 h (4.2 ± 1.1 pg/mg protein) and the number of tachyzoites reduced with the time. Our results show high levels of regulatory cytokines that may suppress the harmful effects of IFN-γ; high levels of TNF-α and NO may represent an effective response by infected glial cells against N. caninum.     

At-line quantification of bioactive antibody in bioreactor by surface plasmon resonance using epitope detection

We report an innovative at-line method to monitor concentration of bioactive antibody (i.e., antibody with conserved antigen-binding activity) secreted during bioreactor culture by the use of surface plasmon resonance (SPR)-based biosensor technology. In a first series of experiments, conditions for SPR-based measurements were validated off-line by monitoring bioactive antibody concentration in conditioned medium from 500-ml baffled flask hybridoma cell cultures. A fully automated experimental setup in which the SPR-based biosensor was harnessed to a bioreactor was then used at-line to monitor the concentration of bioactive antibody produced in a 3.5-L bioreactor. Quantitative SPR measurements performed both at-line and off-line were in excellent agreement with quantitative Western blotting followed by densitometry analyses. Thus, our experimental study confirms that SPR biosensors can be applied to at-line quantification of correctly folded proteins that are secreted by cells cultured in a bioreactor. Our experimental approach represents a novel and robust analytical strategy to be applied to the control and optimization of the production of bioactive secreted proteins.     

Optimization of monoclonal antibody production: combined effects of potassium acetate and perfusion in a stirred tank bioreactor

To increase the yield of monoclonal antibody in a hybridoma culture, it is important to optimize the combination of several factors including cell density, antibody productivity per cell, and the duration of the culture. Potassium acetate enhances the production of antibodies by cells but sometimes depresses cell density. The production of anti-(human B-type red blood cell surface antigen) antibody by Cp9B hybridoma was studied. In batch cultures, potassium acetate inhibited Cp9B cells growth and decreased the maximal cell density but the productivity of antibody per cell was increased. The balance of the two effects resulted in a slight decline of antibody production. In a stirred tank bioreactor, the inhibitory effect of potassium acetate on cell density was overcome by applying the perfusion technique with the attachment of a cell-recycling apparatus to the bioreactor. In such a reactor, potassium acetate at 1 g l^-1 did not cause a decrease in the cell density, and the antibody concentration in the culture supernatant was increased from 28 μg ml^-1 to 38 μg ml^-1. Potassium acetate also suppressed the consumption of glucose and the accumulation of lactate in batch cultures, but the glucose and lactate levels were kept stable by applying the perfusion technique in the stirred tank bioreactor. This revised version was published online in July 2006 with corrections to the Cover Date.