Determination of liposome size distribution by flow cytometry.

BACKGROUND: An essential parameter that describes the quality of liposome suspensions is the mean size, respectively the size distribution. Currently several analytical methods including laser light scattering techniques (LLST) are being employed. METHODS: Here we present an alternative technique using flow cytometry (FCM) to characterize uni- and polydisperse suspensions. As model liposomes preparations containing dipalmitoylphosphatidylcholine (DPPC) were used. A constant number of particles (1,500/s) in the fluid stream and a representative number of 10,000 particles of each sample was measured. Fluorescence-labeled latex beads were measured identically, and their side scatter signals were calibrated and correlated to the results obtained with liposome vesicles. RESULTS: Evaluation of the measurement and validation of the FCM results in comparison to LLST confirm the reliability of results obtained with our method. Latex beads in the range of 100-1000 nm were used for calibration to classify liposomes. Although measurement characteristics and calculation in both methods are basically different, very good agreement of the results was achieved. CONCLUSIONS: Demonstration of stability, reproducibility, and reliability of results make the employment of this method acceptable for an adequate routine analysis technique.

Efficient selection of high-producing subclones during gene amplification of recombinant Chinese hamster ovary cells by flow cytometry and cell sorting.

The screening procedure for high-producing cell lines is extremely time- and labor-intensive and costly, and is at present guided by an empirical approach based on individual experience. Flow cytometry and cell sorting, with its ability to analyze and separate single cells, an ideal method in the selection of such rare cells. The isolation of recombinant cell lines is especially difficult due to repeated gene amplification, which introduces high mutational variation into the population. We have established and evaluated a modification of a previous method that traps secreted product on the surface of the secreting cell, thus allowing direct analysis of single cell specific production rates. This method was used to select for high-producing subclones of a recombinant Chinese hamster ovary (CHO) cell line producing a human antibody against HIV-1 by repeated rounds of gene amplification and cell sorting. This cell line has been amplified in previous investigations, so that the amount of work and testing required by traditional methods can be compared with the protocol described herein. Forty-five 96-well plates were necessary to obtain a high-producing subclone by limited dilution methods, whereas only five plates were required when cell sorting was used. The specific production rate of the best clone obtained by sorting, however, was five times that of the clone obtained by traditional methods. In contrast to the clones obtained by limited dilution, which consisted of several populations of low- and high-producing cells even at high methotrexate concentrations (6.4 microM), the clones isolated by sorting were already homogeneous at 0.8 microM methotrexate.

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.

Changes during subclone development and ageing of human antibody-producing recombinant CHO cells.

Some of the problems encountered with human or human-mouse heterohybridomas, such as low growth rates and high serum requirements, have led to the increased use of recombinant cell lines for production of human antibodies. To evaluate the suitability of such alternative cell lines for the production of human antibodies we have analysed several subclones with differing specific production rates of a recombinant CHO cell line. Gene copy number and site of chromosomal integration for the light and heavy chain and the dhfr gene were determined by in-situ hybridisation. Specific mRNA content was analysed by Northern blot. In addition the intracellular content in light and heavy chain was measured by flow cytometry and the specific secretion rates were determined. The stability of gene expression was followed in the highest producing subclone for over a year. As previously seen in heterohybridoma cells a high expression rate of light chain is beneficial in speeding up secretion rates of whole antibody. When grown in the presence of G418 and methotrexate the amplified gene copies in the genome of recombinant CHO cells were stable over more than 100 passages. However, the expression of light chain, and with it the secretion rate, decreased with time. The low intracellular concentration of light chain resulted in accumulation of heavy chain in the endoplasmic reticulum due to retention by chaperones. The specific secretion rate decreased by 50% after 100 passages. When no G418 or methotrexate were present 75% of the gene copies were lost after 100 passages.

Analysis of changes during subclone development and ageing of human antibody-producing heterohybridoma cells by northern blot and flow cytometry.

The economic importance of obtaining high-producing subclones for large scale production of pharmaceutical proteins is self-evident. However, few papers have studied the changes that occur during subclone development. This information would be important for further improvement of screening and subcloning protocols. We have therefore compared subclones of a human-mouse heterohybridoma cell line producing a human antibody againt HIV-1. Three subclones with low, medium and high specific production rates were selected for this study and their light and heavy chain mRNA content, the intracellular content of light and heavy chain and the specific secretion rates compared. In addition the long time stability of antibody expression in the highest producing subclone was analysed for one year. For the three subclones a correlation between the intracellular content in light chain and the secretion rate was found, while the intracellular content in heavy chain was the same for all three subclones. These results indicate that the assembly in the endoplasmic reticulum (ER) is one of the major rate limiting factors in antibody production. During long time cultivation of the heterohybridoma cell line a continuous decrease in light and heavy chain production was seen without the appearance of a non producing sub-population.

Flow cytometric analysis of metabolic stress effects due to recombinant plasmids and proteins in Escherichia coli production strains.

Overexpression of recombinant proteins in Escherichia coli often leads to a severe growth retardation of the host cells. Using flow cytometry, we analyzed the temporal development of the cellular content of DNA, total protein, and the recombinant product (human superoxide dismutase) in different strains. In cells carrying plasmids utilizing the phage T7 promoter 10 (pET vectors), induction with IPTG leads to an increase in protein content and size, an increase and a wide spreading of DNA content distribution, and a termination of cell division. These effects occurred with pET plasmids with or without an insert, but not with another plasmid which utilizes the tac promoter.

Baculovirus surface display: construction and screening of a eukaryotic epitope library.

The baculovirus expression system was utilized to serve as a tool for ligand selection, demonstrating the applicability of the system to the generation and screening of eukaryotic expression libraries. The HIV-1-gp41 epitope 'ELDKWA', specific for the neutralizing human mAb 2F5, was inserted into the antigenic site B of influenza virus hemagglutinin and expressed on the surface of baculovirus infected insect cells. In order to improve the antigenicity of the epitope within the hemagglutinin, and therefore enhance the specific binding of 2F5, we inserted three additional, random amino acids adjacent to the epitope. This pool of hemagglutinin genes was directly cloned into the baculovirus Ac-omega. To identify distinct proteins displayed on the cellular surface, we developed a screening protocol to select for specific binding capacity of individual viral clones. Using fluorescence activated cell sorting (FACS) we isolated a baculovirus clone displaying the epitope with markedly increased binding capacity out of a pool of 8000 variants in only one sorting step. Binding properties of the identified ligand were examined by FACS performing a competition assay.

Interferon alpha primes early proliferative response of bone marrow cells in vivo.

Using colony-forming assays, a number of previous studies established that interferon alpha (IFN-alpha) could cause bone marrow cell (BMC) suppression. In this study, the suppressive effect of IFN-alpha is however shown to be time-dependent, occurring only 7-8 days after transfer of BMC obtained from IFN-alpha-treated mice to growth factor-containing culture medium. In contrast, in the interval before suppression is observed, BMC obtained from IFN-alpha-treated mice initially proliferated more rapidly than BMC from placebo-treated mice. These findings suggest that IFN-alpha acts in vivo to prime the proliferative responses of BMC, a hitherto unexpected action which may have clinical relevance.

Flow cytometric analysis of bacterial physiology during induction of foreign protein synthesis in recombinant Escherichia coli cells.

The production of foreign proteins at high yields represents a severe metabolic stress for Escherichia coli cells. In many cases, induction of protein synthesis results in rapid exhaustion of the cellular energy and metabolic precursors and thus in cell death. Therefore, sustained production of foreign proteins requires some fine tuning of the specific production rate to meet the capabilities of the cell. This has stimulated us to analyze by flow cytometry the physiological behaviour of recombinant E. coli cells producing human superoxide dismutase (SOD). Two strains that produce SOD under the control of either a combined T7/lac promoter or the phi10 promoter were compared by using the following parameters: (a) total DNA content as an indicator of cell division, (b) total RNA content as a measure for protein synthesis activity, (c) total protein content representing cell size, and (d) intracellular SOD content as a measure for productivity. Results show that those cells that continue to increase their biomass after induction of foreign protein synthesis also have the highest specific production rate. Cells, however, do not divide to a measureable degree but rather increase their size. The results confirm the importance of fine-tuning expression systems to prolong the lifetime of cells after induction. This will result in an increased yield.

Comparison of the production of a human monoclonal antibody against HIV-1 by heterohybridoma cells and recombinant CHO cells: A flow cytometric study.

The production of human monoclonal antibodies for therapeutic use is of increasing importance for treatment of viral infections such as AIDS. As human x mouse heterohybridomas rarely reach the growth rates and cell specific production rates of mouse hybridomas the transfection of standard cell lines, such as CHO or BHK, is a promising alternative. This has the additional advantage that the IgG subtype can be changed to suit the desired application. However, the use of a cell line that has not originally developed to produce antibodies, as lymphocytes and myeloma cells have, might have unrecognised drawbacks. This will be especially significant in the case of antibodies as each molecule consists of 4 chains linked by disulphide bonds which require specific intracellular factors to be properly folded and processed (Heavy chain binding protein, Protein Disulfide Isomerase a.o.). In this study we have therefore compared two cell lines: a human x mouse heterohybridoma producing IAM-2F5, a human IgG(3) antibody specific for HIV-1 with neutralising properties and a Chinese Hamster Ovary cell transfected with dihydrofolate reductase and with the heavy and light chain genes of IAM-2F5 modified to IgG(1). From each cell line three subclones were selected with low, medium and high specific production rates. Batch cultures were performed and the following cellular parameters analysed by flow cytometry; 1) total RNA content (translational activity); 2) total protein content; 3) cell cycle phase distribution; 4) concentration of light and heavy chains; 5) concentration of helper proteins such as BiP and PDI. The production rate of heterohybridoma cells was best reflected in the intracellular concentration of kappa chain, while the gamma chain concentration was comparable for all three subclones. In the CHO cells the gamma chain expression and thus gene copy number appeared to be the limiting factor. The GRP78/BiP concentration in CHO remained unchanged in spite of a 5-fold higher concentration of gamma chain in the high producing subclone. The PDI concentration in CHO cells was much lower compared to the heterohybridoma cells, irrespective of production rates.

Rhodamine 123 fluorescence of immortal hybridoma cell lines as a function of glucose concentration.

The fluorescence of rhodamine 123 stained cells has been described to specifically reflect the activity of mitochondria. Changes in the intensity of fluorescence observed in stimulated lymphocytes were attributed to an increased glycolytic activity of cells due to increased growth rates. Previously reported changes in mitochondrial activity observed in batch cultures were likewise attributed to changed growth rates. In this study we report that the Rh123 fluorescence of hybridoma cell lines in batch culture more closely correlates to the glucose concentration in the culture supernatant than to growth rates. When cells are transferred into glutamine free medium with defined glucose concentrations ranging from 0 to 3,000 mg/L the mean Rh123 fluorescence adapts to the respective glucose concentration within 6 hours and gives a linear correlation. This can be explained by the previously described dependence of specific glucose consumption rates on glucose availability in the medium. The importance of controlling glucose availability, especially in large scale fermentations, is discussed.

Growth and production kinetics of human x mouse and mouse hybridoma cells at reduced temperature and serum content.

The growth and production kinetics of a mouse hybridoma cell line and a human-mouse heterohybridoma were analyzed under conditions of reduced temperature and serum content. The mouse hybridoma P24 had a constant cell specific production rate and RNA content, while the heterohybridoma 3D6-LC4 showed growth associated production kinetics and an increased RNA content at higher growth rates. This behaviour of 3D6-LC4 cells can be explained by the unusual cell cycle kinetics of this line, which can be arrested in any phase under growth limiting conditions, so that a low growth rate does not result in a greater portion of high producing G1-phase cells. Substrate limitation changes the cell cycle distribution of this cell line to a greater extent than low temperature or serum content, which indicates that this stress factor exerts a greater physiological control than assumed.

Flow cytometry and two-dimensional electrophoresis (2-DE) for system evaluation of long term continuous perfused animal cell cultures in macroporous beads.

Immobilization of r-CHO cells at high density using macroporous polyethylene carriers in a modular fluidized bed reactor is demonstrated. Specific growth rates of the cells are measured by incorporation of BrdU. At a cell density of about 10(8) cells/ml a stable growth rate of 0.004 h-1 was established. Total release of proteins into the culture supernatant during protein-free perfusion was analyzed by 2-DE in various phases of the long-term culture showing very similar patterns indicating a constant pattern of gene expression.

Determination of division rates of rCHO cells in high density and immobilized fermentation systems by flow cytometry.

As most high density and immobilized fermentation systems do not allow the direct quantitative determination of cell density, two flow cytometric methods (the determination of incorporation of bromodeoxyuridine into newly synthesized DNA and the increase in mitotic cells by colchicine blockage) were evaluated as to their suitability to measure true division rates of cells in bioreactors. The BrdU method gave division rates identical to the growth rates measured by cell count, while the colchicine block method gave values that were lower and varied with the cell line. This is due to the cytotoxicity of colchicine and makes a calibration of the method for each cell line necessary. Both methods have been successfully used to measure division rates of rCHO cells immobilized in an alginate matrix as well as in macroporous carriers in a fluidised bed system and in dialysis culture.

A continuous multistage roller reactor for animal cell culture: 1. Patterns of growth, production and catabolism of a murine hybridoma.

A Tubular Liquid Film Reactor was designed as a model system to transfer a batch culture kinetic to a continuous cascade. Cell density, product formation and substrate consumption rates were followed during fermentation at two dilution rates. In spite of the high dilution rates effective in each segment by itself high cell densities of up to 10(7) cells/ml were achieved due to cell sedimentation. The model character of the reactor was taken to determine critical values of substrate concentrations that influence production rates and result in an adaptation of metabolism.