Fractionation of yeast extract by nanofiltration process to assess key compounds involved in CHO cell culture improvement

Yeast extract (YE) is known to greatly enhance mammalian cell culture performances, but its undefined composition decreases process reliability. Accordingly, in the present study, the nature of YE compounds involved in the improvement of recombinant CHO cell growth and IgG production was investigated. First, the benefits of YE were verified, revealing that it increased maximal concentrations of viable cells and IgG up to 73 and 60%, respectively compared to a reference culture. Then, the analyses of YE composition highlighted the presence of molecules such as amino acids, vitamins, salts, nucleobase, and glucose that were contained in reference medium, while others including peptides, trehalose, polysaccharides, and nucleic acids were not. Consequently, YE was fractionated by a nanofiltration process to deeper evaluate its effects on CHO cell cultures. The YE molecules already contained in reference medium were mainly isolated in the permeate fraction together with trehalose and short peptides, while other molecules were concentrated in the retentate. Permeate, which was free of macromolecules, exhibited a similar positive effect than raw YE on maximal concentrations. Additional studies on cell energetic metabolism underlined that dipeptides and tripeptides in permeate were used as an efficient source of nitrogenous substrates. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:875–882, 2015     

Combination of yeast hydrolysates to improve CHO cell growth and IgG production

Many studies underlined the great benefits of hydrolysates used as additives in animal free media on cell culture performances. However, to precisely define hydrolysate supplementation strategies, a deeper understanding of their effect on cell growth and protein production is required. In the present study, the effect of addition of one yeast extract (YE) and two yeast peptones (named YP.A and YP.B) in a chemically defined medium was first assessed on cell culture performances. Interestingly, specific effects were found depending on the degree of degradation of yeast hydrolysates. The YE at 1 g L⁻¹ increased the maximal cell density by 70 %, while a mixture of YE (1 g L⁻¹) and YP.A (4 g L⁻¹) increased IgG production by 180 %. These conditions were then evaluated on the CHO cell kinetics all over cultures. Hydrolysates extended the cell growth phase in Erlenmeyer flask and increased the maximal growth rate in bioreactor up to 20 %. Cell growth stimulation induced by hydrolysates addition was linked with energetic metabolism improvement suggesting that they promote oxidative pathway. Furthermore, hydrolysates provided an additional source of substrate that supported cell growth despite glutamine limitation.     

Use of pancreatic beta cells in culture to identify diabetogenic N-nitroso compounds

Epidemiological observations suggest that environmental factors play a role in the pathogenesis of insulin dependent diabetes mellitus (1). Several chemicals have been identified as specific beta cell toxins (2-4). We report here studies to determine the feasibility of using monolayer cultures of pancreatic beta cells from neonatal rat to screen potential diabetogenic chemicals. Cytotoxicity was monitored both by phase microscopy and the release of insulin into the culture medium. In comparative studies, cellular protein and release of 51chromium (51Cr) were measured after addition of test compounds to cultures of fibroblasts derived from pancreatic tissue. The nitrosoamides 1 methyl-l-nitrosourea (MNU), 1,3 bis (2-choroethyl) nitrosourea (BCNU), chlorozotocin (CLZ), and the beta cell toxin, streptozotocin (SZ), were examined. CLZ and SZ were more toxic to pancreatic beta cells than to fibroblasts. In contrast, MNU and BCNU damaged both beta cells and fibroblasts at identical concentrations. These results suggest that in vitro techniques can be used to identify chemicals that selectively injure beta cells. Although SZ-induced toxicity was ameliorated with addition of nicotinamide to cultures of beta cells, nicotinamide did not prevent damage caused by CLZ. This observation indicates different mechanisms of drug-induced cytotoxicity.     

Stabilization of yeast hexokinase A by polyol osmolytes: correlation with the physicochemical properties of aqueous solutions

Osmolytes of the polyol series are known to accumulate in biological systems under stress and stabilize the structures of a wide variety of proteins. While increased surface tension of aqueous solutions has been considered an important factor in protein stabilization effect, glycerol is an exception, lowering the surface tension of water. To clarify this anomalous effect, the effect of a series of polyols on the thermal stability of a highly thermolabile two domain protein yeast hexokinase A has been investigated by differential scanning calorimetry and by monitoring loss in the biological activity of the enzyme as a function of time. A larger increase in the T(m) of domain 1 compared with that of domain 2, varying linearly with the number of hydroxyl groups in polyols, has been observed, sorbitol being the best stabilizer against both thermal as well as urea denaturation. Polyols help retain the activity of the enzyme considerably and a good correlation of the increase in T(m) (DeltaT(m)) and the retention of activity with the increase in the surface tension of polyol solutions, except glycerol, which breaks this trend, has been observed. However, the DeltaT(m) values show a linear correlation with apparent molal heat capacity and volume of aqueous polyol solutions including glycerol. These results suggest that while bulk solution properties contribute significantly to protein stabilization, interfacial properties are not always a good indicator of the stabilizing effect. A subtle balance of various weak binding and exclusion effects of the osmolytes mediated by water further regulates the stabilizing effect. Understanding these aspects is critical in the rational design of stable protein formulations.     

A simple and sensitive method to extract bacterial, yeast and fungal DNA from blood culture material

This study investigated the various commercially available kits and 'in-house' methods to extract DNA from Gram-negative and Gram-positive bacteria, yeast and fungal agents in commonly employed blood culture material. The main methods investigated were as follows; Qiagen QIAmp Blood kit, Roche high PCR template preparation kit, Puregene DNA extraction kit, boiling, glass beads/sonication and wash/alkali/heat lysis. The results indicated that a simple wash/alkali/heat lysis method was the most sensitive, reproducible, simple and cost-effective extraction method. This was the only method which removed any PCR inhibitors and inherent DNA which existed in virgin BacT/Alert aerobic, anaerobic and paediatric blood culture material. Contaminating microbial DNA from Lactococcus lactis or Bacillus coagulans was identified in all batches of BacT/Alert FAN aerobic blood culture material examined.     

A comparison of chromosome aberration induction by 25 compounds tested by two Chinese hamster cell (CHL and CHO) systems in culture

Twenty-five chemicals were tested for the induction of chromosomal aberrations in 2 cultured mammalian cell systems, Chinese hamster lung cells (CHL) and Chinese hamster ovary cells (CHO). This study was carried out to provide a data set that would permit an assessment of the extent to which the 2 systems agree in the results produced. Results presented for the 2 systems in this paper are not based on the same criteria but rather on the criteria standardly used in each of the systems. In tests conducted in the absence of S9 mix, 7 chemicals gave positive results in both systems and 12 were negative in both. In tests with S9 mix, 5 were positive in both systems and 9 were negative in both. When the overall results including tests both with and without S9 mix were considered, the 2 systems agreed on 15 results, 11 positives and 4 negatives. A review of the test conditions and data suggests that disagreements in test results were more often due to differences in the protocols used in these 2 systems than to a difference in the sensitivities of the 2 cell lines.     

A strategy to identify genes associated with circulating solid tumor cell survival in peripheral blood.

Efforts in metastasis research have centered on the phenotypic and genetic differences between primary site and metastatic site tumors. However, genes that may be used as molecular markers of metastasis in circulating tumor cells remain unidentified. Genes regulating the dissemination and survival of solid tumor cells in the blood, as well as their adaptation to new environments, could be candidates for unique metastatic tumor markers. Differential display (DD) was conducted to compare the blood of tumor-free individuals with the blood of patients with lung, breast, and colon cancers. Twenty-one up-expressed genes in the tumor patient blood samples but none in the tumor-free donor blood samples were identified. Nine of these samples were isolated, amplified, and directly sequenced. A gene AB-1 homologous to a Bcl-2 family member, which might function as an apoptosis inhibitor, was identified. The overexpression of an apoptosis inhibitor in blood from patients with metastatic tumors might be correlated with the capability of solid tumor cells to survive in peripheral blood. This is the first demonstration of the usefulness of comparing control and patient blood samples by DD to find novel potential genetic markers identifying metastasis in the blood. http://link.springer-ny. com/link/service/journals/00020/bibs/5n5p313.html     

Improvement of CHO cell culture medium formulation: simultaneous substitution of glucose and glutamine

The formulation of the culture medium for a Chinese hamster ovary (CHO) cell line has been investigated in terms of the simultaneous replacement of glucose and glutamine, the most commonly employed carbon and nitrogen sources, pursuing the objective of achieving a more efficient use of these compounds, simultaneously avoiding the accumulation of lactate and ammonium in the medium. The key factor in this process is the selection of compounds that are slowly metabolized. Among the different compounds studied, galactose and glutamate provide the best results, allowing support of cell growth with an optimal balance between nutrient uptake and cell requirements and the generation of minimal quantities of lactate and ammonium. The attained results also highlight the capacity of the cells to redistribute their metabolism as a response to the changes in medium composition.     

Sponge cell culture: a comparative evaluation of adhesion to a native tissue extract and other culture substrates

Hexactinellids are deep water sponges that possess syncytial rather than cellular tissues. In order to investigate the syncytial character of the tissue of these unusual sponges, primary cultures were developed using a substrate of acellular tissue extract (ATE) that promotes the adhesion and spreading of sponge tissues. Primary cultures of the hexactinellid sponge Rhabdocalyptus dawsoni, grown on this substrate, form thinly spread, multinucleate, confluent tissue masses which exhibit active cytoplasmic streaming. Sponge tissue adhered equally well to commercial substrates of concanavalin A and poly-l-lysine, but did not adhere to chicken collagen. Acellular tissue extracts prepared from demosponges, which are known to be cellular, also promoted adhesion and spreading of cells from those sponges. Scanning electron microscopy showed adherent Rhabdocalyptus tissue to have an uninterrupted, smooth membrane covering the entire culture, unlike primary cultures of the cellular demosponge, Haliclona sp., which consisted of numerous individual cells. Tissue from freshly collected sponges adhered preferentially to ATE from a conspecific. However, after continued wounding, tissue adhered indescriminately to any substrate. The tissue extract congealed if added to sea water or 10 mM CaCl(2), forming a white, cloudy solid, which could be fixed and sectioned for transmission electron microscopy. Thin sections of the congealed extract showed it to contain membranes but no visible collagen fibrils.     

A coupled yeast signal sequence trap and transient plant expression strategy to identify genes encoding secreted proteins from peach pistils

Many developmental processes and induced plant responses have been identified that are directly or indirectly influenced by wall-localized, or apoplastic, molecular interactions and signalling pathways. The yeast-based signal sequence trap (YSST) is a potentially valuable experimental tool to characterize the proteome of the wall and apoplast, or 'secretome', although few studies have been performed with plants and to date this strategy has not been coupled with a subsequent analysis to confirm extracellular localization of candidate proteins in planta. This current report describes the use of the YSST, together with transient expression of a selection of identified proteins as fusions with the reporter GFP, focusing on the complex extracellular interactions between peach (Prunus persica) pollen and pistil tissues. The coupled YSST and GFP localization assay was also used to confirm the extracellular localization of a recently identified pistil-specific basic RNase protein (PA1), as has been observed with S-RNases that are involved in self-incompatibility. This pilot YSST screen of pollinated and unpollinated pistil cDNAs revealed a diverse set of predicted cell wall-localized or plasma membrane-bound proteins, several of which have not previously been described. Transient GFP-fusion assays and RNA gel blot analyses were used to confirm their subcellular localization and to provide further insights into their expression or regulation, respectively. These results demonstrated that the YSST strategy represents an effective means either to confirm the extracellular localization of a specific candidate secreted protein, as demonstrated here with PA1, or to conduct a screen for new extracellular proteins.     

Effects of yeast extract and glucose on xanthan production and cell growth in batch culture of Xanthomonas campestris

Although available kinetic data provide a useful insight into the effects of medium composition on xanthan production by Xanthomonas campestris, they cannot account for the synergetic effects of carbon (glucose) and nitrogen (yeast extract) substrates on cell growth and xanthan production. In this work, we studied the effects of the glucose/yeast-extract ratio (G/YE) in the medium on cell growth and xanthan production in various operating modes, including batch, two-stage batch, and fed-batch fermentations. In general, both the xanthan yield and specific production rate increased with increasing G/YE in the medium, but the cell yield and specific growth rate decreased as G/YE increased. A two-stage batch fermentation with a G/YE shift from an initial low level (2.5% glucose/0.3% yeast extract) to a high level (5.0% glucose/0.3% yeast extract) at the end of the exponential growth phase was found to be preferable for xanthan production. This two-stage fermentation design both provided fast cell growth and gave a high xanthan yield and xanthan production rate. In contrast, fed-batch fermentation with intermittent additions of glucose to the fermentor during the stationary phase was not favorable for xanthan production because of the relatively low G/YE resulting in low xanthan production rate and yield. It is also important to use a moderately high yeast extract concentration in the medium in order to reach a high cell density before the culture enters the stationary phase. A high cell density is also important to the overall xanthan production rate. Received: 30 September 1996 / Received revision: 21 January 1997 / Accepted: 10 February 1997     

植物细胞培养技术提高次生代谢物产量的方法(综述)

介绍植物细胞培养技术提高次生代谢物产量的方法。     

The cell cycle of the budding yeast Sterigmatomyces halophilus: culture fractionation by zonal centrifugation and the accumulation of DNA, RNA and protein

Sterigmatomyces halophilus is an unusual budding yeast in which daughter cells are formed, remote from the mother cell, on fine projections called sterigmata. Some fundamental properties of the cell cycle have been explored by separating cells from an exponentially growing culture into size, and thus age, classes by density-gradient centrifugation. Rate separations on high capacity, high resolution, equivolumetric gradients of sucrose, or, alternatively, isopycnic separations on gradients of Urografin revealed consistent and reproducible patterns of accumulation of DNA, RNA and protein through the cell cycle. Total DNA accumulation was stepwise, synthesis occurring late in the cycle, whilst protein accumulated continuously with no evidence for the discontinuities reported in some other lower eukaryotes. Total RNA accumulation, measured either colorimetrically or by long-term incorporation of radioactively-labelled uracil was transiently elevated early in the cycle and then accumulated continuously. A mathematical analysis of the volume distributions of the cells in fractions from the gradients showed that there is a hyperbolic relationship between cell age and size but that, to a first approximation, measurements of cell size (and density) are direct measures of age. The results are discussed with reference to (1) the unusually high buoyant density of this yeast, (2) the resolution of zonal cell separation methods and (3) macromolecular accumulation in the cell cycles of other eukaryotic micro-organisms.     

Dynamics of immature mAb glycoform secretion during CHO cell culture: An integrated modelling framework

Ensuring consistent glycosylation‐associated quality of therapeutic monoclonal antibodies (mAbs) has become a priority in pharmaceutical bioprocessing given that the distribution and composition of the carbohydrates (glycans) bound to these molecules determines their therapeutic efficacy and immunogenicity. However, the interaction between bioprocess conditions, cellular metabolism and the intracellular process of glycosylation remains to be fully understood. To gain further insight into these interactions, we present a novel integrated modelling platform that links dynamic variations in mAb glycosylation with cellular secretory capacity. Two alternative mechanistic representations of how mAb specific productivity (q_p) influences glycosylation are compared. In the first, mAb glycosylation is modulated by the linear velocity with which secretory cargo traverses the Golgi apparatus. In the second, glycosylation is influenced by variations in Golgi volume. Within our modelling framework, both mechanisms accurately reproduce experimentally‐observed dynamic changes in mAb glycosylation. In addition, an optimisation‐based strategy has been developed to estimate the concentration of glycosylation enzymes required to minimise mAb glycoform variability. Our results suggest that the availability of glycosylation machinery relative to cellular secretory capacity may play a crucial role in mAb glycosylation. In the future, the modelling framework presented here may aid in selecting and engineering cell lines that ensure consistent mAb glycosylatio.     

CGCDB: a web-based resource for the investigation of gene coexpression in CHO cell culture

Coexpression analysis is a powerful, widely used methodology for the investigation of underlying patterns in gene expression data. This "guilt-by-association" approach aims to find groups of genes with closely correlated expression profiles. Observation of consistent correlations across phenotypically diverse samples indicates that these genes have a shared function. We have recently described the application of weighted gene coexpression network analysis (WGCNA) to a 295 sample production CHO cell line microarray dataset and elucidated groups of genes related to growth rate and cell-specific productivity (Qp). In this study, we present the CHO gene coexpression database (CGCDB), a web-based system, designed specifically for researchers in the CHO community to provide user-friendly access to these gene-gene coexpression patterns. In addition to correlation between genes, the direct correlations between probesets and either growth rate or Qp are provided. Results are presented to the user via an interactive network diagram and in a downloadable tabular format. It is hoped that this resource will allow researchers to prioritize cell line engineering and/or biomarker candidates to enhance CHO-based cell culture for the production of biotherapeutics. Availability: www.cgcdb.org.