Modulation of heparan sulfate biosynthesis by sodium butyrate in recombinant CHO cells

Sodium butyrate, a histone deacetylase inhibitor, has been used to improve transgene expression in Chinese hamster ovary (CHO) cells. The current study explores the impact of butyrate treatment on heparan sulfate (HS) biosynthesis and structural composition in a recombinant CHO-S cell line expressing enzymes in the heparin (HP)/(HS) biosynthetic pathway (Dual-10 stably expressing NDST2 and HS3st1). Flow cytometric analysis showed that antithrombin binding was increased in Dual-10 cells and basic fibroblast growth factor binding was decreased in response to sodium butyrate treatment. The results were in agreement with the AMAC-LCMS (2-aminoacridine-tagged HS/HP analysis by liquid chromatography mass spectrometry) data that showed that there was an increase in heparan sulfate tri-sulfated disaccharides and a decrease in N-sulfated disaccharides in the butyrate-treated cells. However, we could not detect any changes in the chondroitin sulfate pathway in Dual-10 cells treated with butyrate. The current study is the first to report the effect of butyrate on glycosaminoglycan profiles.

Electronic supplementary material

The online version of this article (doi:10.1007/s10616-013-9677-9) contains supplementary material, which is available to authorized users.     

Expression of recombinant human plasminogen in mammalian cells is augmented by suppression of plasmin activity.

We present evidence that over-expression of human plasminogen, the precursor to the serine protease plasmin, can be cytotoxic to mammalian cells. When an expression vector containing plasminogen cDNA is transfected into baby hamster kidney cells, the number of drug-resistant colonies as well as the levels of plasminogen secreted by those colonies is lower than observed in similar transfections of other protease precursor genes. The recombinant plasminogen accumulates intracellularly as degraded NH2-terminal fragments. In contrast, a mutant of plasminogen that produces inactive plasmin (active site Ser740 changed to Ala) is synthesized by these cells as a full-length plasminogen molecule, and the colony numbers and expression levels are normal. Thus, the generation of plasmin activity is responsible for the cytotoxic phenomena and the degradation associated with plasminogen expression. In addition, experiments using a plasminogen mutant that cannot be activated to plasmin (activation cleavage site Arg560 to Gly) or using coexpression of antisense urokinase RNA indicate that an endogenous plasminogen activator is responsible for converting newly synthesized plasminogen to plasmin. Finally, coexpression of plasminogen with alpha 2-plasmin inhibitor, a serpin which is the physiologic inhibitor of plasmin, prevents the toxic effects of intracellular plasmin activity and allows the synthesis and secretion of native human plasminogen.     

Effect of sodium butyrate on mammalian cells in culture: a review.

Sodium butyrate produces reversible changes in morphology, growth rate, and enzyme activities of several mammalian cell types in culture. Some of these changes are similar to those produced by agents which increase the intracellular level of adenosine 3',5'-cyclic monophosphate (cAMP) or by analogs of cAMP. Sodium butyrate increases the intracellular level of cAMP by about two fold in neuroblastoma cells; therefore, some of the effects of sodium butyrate on these cells may in part be mediated by cAMP. Sodium butyrate appears to have properties of a good chemotherapeutic agent for neuroblastoma tumors because the treatment of neuroblastoma cells in culture causes cell death and "differentiation"; however, it is either innocuous or produces reversible morphological and biochemical alterations in other cell types.     

Effect of sodium butyrate on mammalian cells in culture: A review

Summary Sodium butyrate produces reversible changes in morphology, growth rate, and enzyme activities of several mammalian cell types in culture. Some of these changes are similar to those produced by agents which increase the intracellular level of adenosine 3′,5′-cyclic monophosphate (cAMP) or by analogs of cAMP. Sodium butyrate increases the intracellular level of cAMP by about two fold in neuroblastoma cells; therefore, some of the effects of sodium butyrate on these cells may in part be mediated by cAMP. Sodium butyrate appears to have properties of a good chemotherapeutic agent for neuroblastoma tumors because the treatment of neuroblastoma cells in culture causes cell death and “differentiation”; however, it is either innocuous or produces reversible morphological and biochemical alterations in other cell types.     

Calnexin overexpression sensitizes recombinant CHO cells to apoptosis induced by sodium butyrate treatment

Sodium butyrate (NaBu) can enhance the expression of foreign genes in recombinant Chinese hamster ovary (rCHO) cells, but it can also inhibit cell growth and induce cellular apoptosis. In this study, the potential role of calnexin (Cnx) expression in rCHO cells treated with 5 mM NaBu was investigated for rCHO cells producing tumor necrosis factor receptor FC. To regulate the Cnx expression level, a tetracycline-inducible system was used. Clones with different Cnx expression levels were selected and investigated. With regard to productivity per cell (q_p), NaBu enhanced the q_p by over twofold. Under NaBu treatment, Cnx overexpression further enhanced the q_p by about 1.7-fold. However, under NaBu stress, the cells overexpressing Cnx showed a poorer viability profile with a consistent difference of over 25% in the viability when compared to the Cnx-repressed condition. This drop in the viability was attributed to increased apoptosis seen in these cells as evidenced by enhanced poly (ADP-ribose) polymerase cleavage and cytochrome C release. Ca²⁺ localization staining and subsequent confocal imaging revealed elevated cytosolic Ca²⁺ ([Ca²⁺]_c) in the Cnx-overexpressing cells when compared to the Cnx-repressed condition, thus endorsing the increased apoptosis observed in these cells. Taken together, Cnx overexpression not only improved the q_p of cells treated with NaBu, but it also sensitized cells to apoptosis.     

High-yield production of recombinant antibody fragments in HEK-293 cells using sodium butyrate

To develop new recombinant monoclonal antibody fragments for therapy and imaging, it is indispensable to have a simple and easy procedure to handle the eukaryotic expression system for production of proteins in high amounts. Gene amplification techniques such as the dehydrofolate reductase (DHFR) system in Chinese hamster ovary cells or the glutamine synthase system in myeloma cells have a couple of disadvantages. The selection procedure is complex, time-consuming, and not fruitful in all cases. The toxic drug methotrexate (for the DHFR system) can increase the production rate but decreases the specific growth rate of the cells. The production rate is not always stable over a long-term cultivation period. To overcome these problems, we are using stably transfected human embryonic kidney (HEK-293) cells in combination with an efficient screening method. Sodium butyrate can increase the expression of recombinant antibody fragments in the transfectomas up to 500 micrograms/4.2 x 10(7) cells/24 h corresponding to 175 micrograms/mL culture medium. This strategy allows a rapid development of new recombinant monoclonal antibody fragments and allows one to proceed rapidly to in vivo testing.     

Expression of recombinant human cathepsin K is enhanced by codon optimization

A synthetic codon-optimized gene encoding human procathepsin K has been cloned in Escherichia coli using pET28a+ vector. The recombinant His-tagged fusion protein was expressed as inclusion body, solubilized in urea and purified by metal affinity chromatography. The purified protein was refolded by dilution technique, concentrated and finally purified by gel-filtration chromatography. The expressed protein was confirmed by Western blot analysis with human cathepsin K specific antibody. We have obtained 140 mg purified and refolded protein from 1 L bacterial culture which is the highest (nearly three times higher) yield reported so far for a recombinant human procathepsin K. The protease could be autocatalytically activated to mature protease at lower pH in presence of cysteine protease specific activators. The recombinant protease showed gelatinolytic and collagenolytic activities as well as activity against synthetic substrate Z-FR-AMC with a K_m value of 5 ± 2.7 μM and the proteolytic activity of the enzyme could be blocked by cysteine protease inhibitors E-64, leupeptin and MMTS.     

Induction of alkaline phosphatase activity in HeLa cells by sodium butyrate.

The induction of HeLa cell alkaline phosphatase activity by sodium butyrate could be inhibited by the coadministration of caffeine or theophylline. The inhibitions were dose dependent, and at any given concentration the potency was theophylline greater than caffeine. Although the induction by sodium butyrate was more sensitive to the inhibition by the xanthines than was that produced by 5-iodo-2'-deoxyuridine, the magnitudes of the increases in cyclic AMP concentrations after treatment with the xanthines were similar in the inhibition of both types of induction. The induction of alkaline phosphatase activity by sodium butyrate also produced a shift in the thermostability pattern of the enzyme, with a proportionately greater increase in the heat-labile, rather than heat-stable, form of the activity.     

Transient gene expression from yeast artificial chromosome DNA in mammalian cells is enhanced by adenovirus.

The introduction of high molecular weight DNA into mammalian cells is useful for gene expression studies. However, current transfection strategies are inefficient, necessitating propagation of stable DNA transformants prior to analysis of gene expression. Here we demonstrate that transient lipid-mediated DNA transfection can be used to assess gene expression from yeast artificial chromosomes (YACs) containing the 230 kb cystic fibrosis transmembrane conductance regulator gene ( CFTR ) and Escherichia coli lacZ . We also show that psoralen-UV inactivated adenovirus significantly enhances transfection efficiency. The ability to deliver high molecular weight DNA using lipid-mediated transfection should expedite the analysis of large human genes contained within artificial chromosome vectors.     

Cytochalasin B-induced multinucleation of murine sarcoma virus-transformed cells. Inhibition by sodium butyrate.

Human neutrophils aggregate after exposure to the bivalent cation ionophore A23187, the synthetic chemotactic tripeptide formyl-methionyl-leucyl-phenylalanine, and the chemotactic fragment of human C5. Cells preincubated with cytochalasin B (CB) (0.5 μg/ml) showed an enhanced aggregation response to each of these three agents. By itself, CB did not aggregate the cells. The enhancing effect of CB on the aggregation response developed immediately after exposure to the drug and was readily reversible. Since A23187 and chemotactic factors stimulate the transmembrane flow of Ca²⁺, Na⁺, and K⁺ in the neutrophil, and since CB enhances this effect, CB may influence neutrophil aggregation through its influence on transmembrane cationic movements. It was also found that the enhancing effect of CB on neutrophil aggregation was abrogated by high (i.e., greater than 1.7 μg/ml) concentrations of the drug or by adding it to the neutrophils after the cells were exposed to a chemotactic factor.     

Expression of an anti apoptotic recombinant short peptide in mammalian cells

Understanding the mechanisms of the apoptotic and anti apoptotic processes may lead to a better way to control these cascades. Here we demonstrated for the first time the feasibility to express a short functional peptide in mammalian cells that abrogates the apoptosis cascade through interference with the proteolytic activity of the initiator caspase 9 and the executing caspase 3 enzymes. The expression of a short peptide that includes the pseudo-substrate motif of the apoptosis inhibitor protein P35 (Asp-Gln-Met-Asp) leads to the abrogation of cell death induced through either the mitochondrial or the death receptors pathways.Short open reading frames have been detected in several mammalian mRNAs, primarily upstream of the main long reading frame (uORFs), however, direct evidence for de-novo peptides translation has not been provided. Utilizing biochemical and imaging techniques we demonstrate here that the functional recombinant peptide was localized to the cytpoplasmic fraction of the cell.In conclusion, this work demonstrates that ribosomes recognize short ORFs to translate stable short recombinant peptides in mammalian cells. Expression of these intracellular peptides results in the knock down of apoptotic processes to generate apoptosis resistant stable cells.     

Induction of alkaline phosphatase activity in HeLa cells by sodium butyrate

Summary The induction of HeLa cell alkaline phosphatase activity by sodium butyrate could be inhibited by the coadministration of caffeine or theophylline. The inhibitions were dose dependent, and at any given concentration the potency was theophylline > caffeine. Although the induction by sodium butyrate was more sensitive to the inhibition by the xanthines than was that produced by 5-iodo-2′-deoxyuridine, the magnitudes of the increases in cyclic AMP concentrations after treatment with the xanthines were similar in the inhibition of both types of induction. The induction of alkaline phosphatase activity by sodium butyrate also produced a shift in the thermostability pattern of the enzyme, with a proportionately greater increase in the heat-labile, rather than heat-stable, from of the activity. Supported by National Cancer Institute Grant CA16460.     

Production of analytical quantities of recombinant proteins in Chinese hamster ovary cells using sodium butyrate to elevate gene expression.

Sodium butyrate was used to enhance expression levels and thereby facilitate the generation of analytical quantities of nine different tissue plasminogen activator (tPA) analogues expressed under the control of the cytomegalovirus immediate early (CMV IE) promoter by the Chinese hamster ovary (CHO) mammalian expression system. Production involved growth in roller bottles, using serum free or low serum media formulations, together with repetitive, sodium butyrate inductions. Average inductions in the presence of sodium butyrate ranged from 2 to 9-fold relative to uninduced controls, using cell lines with no previous butyrate exposure. Retardation of growth rate by butyrate minimized the need to split cells during the production runs, extending longevity of roller bottles containing cells secreting at induced levels. SDS-PAGE analyses indicate a consistently high percentage of single-chain material. Measurements of specific activity and fibrinogen fragment enhancement for one of the analogues demonstrate that neither of these two critical parameters are affected by production in the presence of butyrate. Induction kinetic data and growth curves for the expression of sCD4 under control of the SV40 early promoter demonstrate that the benefits of butyrate can be realized with different promoters and heterologous genes, and are additive when used in conjunction with an amplified cell line constitutively expressing at elevated levels. This work demonstrates the practical application of sodium butyrate in the production of analytical quantities of protein from the CHO expression system, and suggests a role for sodium butyrate in commercial scale processes as well.     

Expression of recombinant calf prochymosin in mammalian cell culture.

The calf preprochymosin cDNA was cloned into an extrachromosomal mammalian cell expression vector containing Epstein-Barr virus sequences using polymerase chain reaction. Transfection of HeLa cells yielded Hygromycin B resistant cell clones, expressing immunoreactive prochymosin, which was quantitatively secreted into the culture medium. Based on Western blotting we estimated that selected cell clones produced about 10-20 mg prochymosin per liter in 20 h. The biological activity of the secreted chymosin was confirmed by milk clotting assay.     

The role of butyrate in the reverse transformation reaction in mammalian cells.

The reverse transformation reaction of Chinese hamster ovary cells from compact, epithelial-like, randomly growing, heavily knobbed, lectin reactive cells into stretched, tighly adherent, smooth-surfaced, lectin resistant, fibroblast-like cells normally elicited by dibutyryl cAMP can be produced to its complete extent by N6-monobutyryl cAMP or 8-bromo-cAMP, O2'-monobutyryl cAMP is ineffective as is cAMP itself in the absence of an inhibitor of phosphodiesterase activity. In the presence of a phosphodiesterase inhibitor, cAMP is fully effective. These results indicate that the role of the butyryl groups of dibutyryl cAMP and, especially, the N6-butyryl, in the reverse transformation reaction is protection of the cAMP analogue from degradation. Butyrate at concentrations of about 1 mM does produce a response which to some extent mimics that of cAMP analogues. The cells, however, fail to assume a fibroblastic-like shape, but rather become flattened. The butyrate effect is much slower and less readily reversible than that evoked by cAMP analogues. Butyrate produces an approximately 2-fold increase in intracellular cAMP levels. These results are consistent with the hypothesis that butyrate effects, in part, are mediated by AMP.     

Histone deacetylation in nuclei isolated from hepatoma tissue culture cells. Inhibition by sodium butyrate.

Nuclei from hepatoma tissue culture (HTC) cells were isolated by standard methods and incubated in media commonly used for nuclease digestions (DNAase I and micrococcal nuclease) and for in vitro RNA synthesis. During the incubation, histones can be deacetylated from both control cells and cells treated with 6 mM sodium butyrate to enhance the levels of histone acetylation. Deacetylation of histone is much more apparent in nuclei isolated from sodium butyrate-treated cells. Inclusion of 6 mM sodium butyrate in the incubation medium effectively inhibits the endogenous deacetylase activity acting on histones H3 and H4, whereas sodium acetate at the same concentration has very little inhibitory effect.