Growth and interferon-γ production in batch culture of CHO cells

The relationship between growth and interferon- (IFN-) production in the recombinant cell line CHO 320 was studied by varying the foetal calf serum (FCS) concentration. The specific growth rate varied with the initial FCS concentration in a manner which could be well fitted by the Monod model. TheK _s and _max values were found to be 0.771% (v/v) serum and 0.031 h^–1 respectively. The average specific IFN- production rates during the exponential phase increased with increasing FCS concentration. A good correlation between specific production rate and specific growth rate was found in all phases of the culture except the lag phase and it was clearly demonstrated that IFN- production was growth associated. Specific glucose and glutamine utilisation rates were inversely related to specific growth rates.     

The expression of glucose regulated protein—94 in colorectal carcinoma cells treated by sodium butyrate

The expression of glucose regulated protein 94 (GPR94) during the treatment of human colorectal carcinoma cell lineClone A cells with codium butyrate was studied.Dodium butyrate (SB) can cause functional and morphological effects on Clone A cells including growth arrest at G0/G1 stage and cell differentiation as observed by morphological changes,MTT and flow cytometry assays,as well as reduced Grp94 gene expression as shown by Northern blot and Western blot assays.The possible mechanism of the correlation between Grp94 gene expression and tumor growth inhibition and cell differentiation is briefly discussed.     

Localization of 5′-nucleotidase activity in the parotid acinar cells of a rat treated with isoproterenol

Summary Cytochemical localization of 5- nucleotidase (AMPase) has been investigated in the parotid acinar cells of rats at various stages of exocytic secretion induced by an administration of isoproterenol (IPR).In the resting stage, the acinar cells show AMPase activity located on the baso-lateral and luminal plasmalemma, and in the earliest secretory stage the luminal plasma membranes are devoid of the enzymatic activity. However, these particular regions exhibit AMPase activity during the advanced stages of secretion, and the AMPase positive membranes become absorbed into the cytoplasm by endocytic activity. The absorbed membrane components then seem to be degraded by the action of lysosomes.The intracellular fate of the endocytic vacuoles has been examined by the aid of ferritin particles introduced retrogradely through ductal lumina. Ferritin containing vacuoles are distributed in the cytoplasm, and these droplets change into secondary lysosomes. No tracer particles are recognized in the internal space of the Golgi lamella and its associated vesicles.The results suggested that in the exocytic secretion of parotid acinar cells, AMPase originating from plasma membrane intermingles with the membranes derived from secretion granules, and is translocated into cytoplasm by an endocytic mechanism. The internalized membrane components are, at least partly, degraded by lysosome action.     

Production of α2,6-sialylated IgG1 in CHO cells

The presence of α2,6-sialic acids on the Fc N-glycan provides anti-inflammatory properties to the IgGs through a mechanism that remains unclear. Fc-sialylated IgGs are rare in humans as well as in industrial host cell lines such as Chinese hamster ovary (CHO) cells. Facilitated access to well-characterized α2,6-sialylated IgGs would help elucidate the mechanism of this intriguing IgG's effector function. This study presents a method for the efficient Fc glycan α2,6-sialylation of a wild-type and a F243A IgG1 mutant by transient co-expression with the human α2,6-sialyltransferase 1 (ST6) and β1,4-galactosyltransferase 1 (GT) in CHO cells. Overexpression of ST6 alone only had a moderate effect on the glycoprofiles, whereas GT alone greatly enhanced Fc-galactosylation, but not sialylation. Overexpression of both GT and ST6 was necessary to obtain a glycoprofile dominated by α2,6-sialylated glycans in both antibodies. The wild-type was composed of the G2FS(6)1 glycan (38%) with remaining unsialylated glycans, while the mutant glycoprofile was essentially composed of G2FS(6)1 (25%), G2FS(3,6)2 (16%) and G2FS(6,6)2 (37%). The α2,6-linked sialic acids represented over 85% of all sialic acids in both antibodies. We discuss how the limited sialylation level in the wild-type IgG1 expressed alone or with GT results from the glycan interaction with Fc's amino acid residues or from intrinsic galactosyl- and sialyl-transferases substrate specificities.     

Mechanism of resistance of non-cycling mammalian cells to 4′-[9-acridinylamino]methanesulphon-m-anisidide: Role of DNA topoisomerase II in log- and plateau-phase CHO cells

CHO-AA8 cells were used as a model system to study the role of DNA topoisomerase II in the resistance of non-cycling cells to amsacrine. Plateau-phase AA8 cells have previously been shown to be resistant to amsacrine and to contain fewer DNA breaks than log-phase cells after drug treatment (Robbie, M.A., Baguley, B.C., Denny, W.A., Gavin, J.R. and Wilson, W.R. (1988) Cancer Res., in press). The phage P4-unknotting activity of nuclear extracts decreased 2-fold when AA8 cells entered into the non-cycling state, but there was no difference in sensitivity to amsacrine between log- and plateau-phase nuclear extracts. Drug stimulation of protein-DNA complex formation was similar in whole cells, isolated nuclei and nuclear extracts from either log- or plateau-phase cells. However, stimulation of complex formation in cells, nuclei or nuclear extracts was approx. 4-fold lower in plateau-phase than in log-phase. The data presented suggested that drug-enzyme interaction was altered in plateau-phase cells.     

Production of α2,6-sialylated IgG1 in CHO cells

The presence of α2,6-sialic acids on the Fc N-glycan provides anti-inflammatory properties to the IgGs through a mechanism that remains unclear. Fc-sialylated IgGs are rare in humans as well as in industrial host cell lines such as Chinese hamster ovary (CHO) cells. Facilitated access to well-characterized α2,6-sialylated IgGs would help elucidate the mechanism of this intriguing IgG''s effector function. This study presents a method for the efficient Fc glycan α2,6-sialylation of a wild-type and a F243A IgG1 mutant by transient co-expression with the human α2,6-sialyltransferase 1 (ST6) and β1,4-galactosyltransferase 1 (GT) in CHO cells. Overexpression of ST6 alone only had a moderate effect on the glycoprofiles, whereas GT alone greatly enhanced Fc-galactosylation, but not sialylation. Overexpression of both GT and ST6 was necessary to obtain a glycoprofile dominated by α2,6-sialylated glycans in both antibodies. The wild-type was composed of the G2FS(6)1 glycan (38%) with remaining unsialylated glycans, while the mutant glycoprofile was essentially composed of G2FS(6)1 (25%), G2FS(3,6)2 (16%) and G2FS(6,6)2 (37%). The α2,6-linked sialic acids represented over 85% of all sialic acids in both antibodies. We discuss how the limited sialylation level in the wild-type IgG1 expressed alone or with GT results from the glycan interaction with Fc''s amino acid residues or from intrinsic galactosyl- and sialyl-transferases substrate specificities.     

Ratio of 3′ → 5′-exonuclease and DNA polymerase activities in normal and cancer cells of rodents and human

Mutations in genes of DNA polymerases or corrective 3′ → 5′-exonucleases lead to a decrease in the fidelity of DNA biosynthesis throughout the genome, which is accompanied by an increase in the probability of mutagenesis and carcinogenesis. In the present work, activities of 3′ → 5′-exonucleases and DNA polymerases are studied in extracts of rodents and human normal and cancer cells and, for the first time, their integral ratios are measured to elucidate the role of correcting exonucleases in carcinogenesis. Thus, in experiments on cells growing in culture, it has been found that in adult human dermal fibroblasts the value of ratio of activity of 3′ → 5′-exonucleases to the DNA polymerase activity (3′-exo/pol) exceeds this ratio for HeLa cells. A similar situation is also observed in a comparison of normal rat embryo fibroblasts and Syrian hamster A238 transformed fibroblasts. Experiments with extracts of the cells some organs of healthy rats of different ages have shown that in norm the proliferating cells are characterized by higher activities of 3′ → 5′-exonucleases and higher 3′-exo/pol values than in quiescent cells. A comparison of these data allows us to conlude that a disturbance in the functions of corrective 3′ → 5′-exonucleases occurs in pathologically growing cancer cells.     

Inhibition of the synthesis of polyamines and macromolecules by 5′-methylthioadenosine and 5′-alkylthiotubercidins in BHK21 cells

5′-Methylthioadenosine and four 5′-alkylthiotubercidins were tested for their ability to inhibit polyamine synthesis in vitro and to decrease polyamine concentration and prevent growth of baby-hamster-kidney (BHK21) cells. 5′-Methylthioadenosine and 5′-methylthiotubercidin decreased the activity of spermidine synthase from brain to roughly the same extent, whereas brain spermine synthase was much more strongly inhibited by 5′-methylthioadenosine compared with 5′-methylthiotubercidin. These nucleoside derivatives also inhibited the growth of BHK21 cells and increased the concentration of putrescine. 5′-Methylthioadenosine decreased cellular spermine concentration, whereas 5′-methylthiotubercidin lowered the concentration of spermidine. The activities of ornithine decarboxylase and S-adenosylmethionine decarboxylase were enhanced in cells grown in the presence of 5′-methylthiotubercidin. The growth inhibition produced by these nucleoside derivatives was not reversed by exogenous spermidine or spermine. 5′-Ethylthiotubercidin, 5′-propylthiotubercidin and 5′-isopropylthiotubercidin did not appreciably inhibit spermidine or spermine synthase in vitro or decrease the cellular polyamine content, but effectively prevented the growth of BHK21 cells. All nucleoside derivatives at concentrations of 0.2–1 mm caused a rapid inhibition of protein synthesis. It is concluded that the growth inhibition produced by 5′-methylthioadenosine and 5′-alkylthiotubercidins was not primarily due to polyamine depletion but other target sites, for instance the cellular nucleotide pool, cell membranes etc. must be considered.     

Effect of lipid supplements on the production and glycosylation of recombinant interferon-γ expressed in CHO cells

The effects of lipids on the glycosylation of recombinant human interferon- expressed in a Chinese Hamster Ovary cell line were investigated in batch culture. Lipids form an essential part of the N-glycosylation pathway, and have been shown to improve cell viability. In control (serum-free) medium the proportion of fully-glycosylated interferon- deteriorated reproducibly with time in batch culture, but the lipoprotein supplement ExCyte was shown to minimise this trend. Partially substituting the bovine serum albumin content of the medium with a fatty-acid free preparation also improved interferon- glycosylation, possibly indicating that oxidised lipids carried on Cohn fraction V albumin may damage the glycosylation process.Abbreviations BSA bovine serum albumin - CHO chinese hamster ovary - DHFR dihydrofolate reductase - FCS foetal calf serum - IFN- human interferon-gamma - q _IFN specific interferon production rate - specific growth rate - 2N doubly-gycosylated - 1N singly-glycosylated - ON non-glycosylated     

Epithelial Na⁺ sodium channels in magnocellular cells of the rat supraoptic and paraventricular nuclei

The epithelial Na? channels (ENaCs) are present in kidney and contribute to Na? and water homeostasis. All three ENaC subunits (α, β, and γ) were demonstrated in the cardiovascular regulatory centers of the rat brain, including the magnocellular neurons (MNCs) in the supraoptic nucleus (SON) and the paraventricular nucleus (PVN). However, the functional significance of ENaCs in vasopressin (VP) and oxytocin (OT) synthesizing MNCs is completely unknown. In this study, we show with immunocytochemical double-labeling that the α-ENaC is colocalized with either VP or OT in MNCs in the SON and PVN. In addition, parvocellular neurons in the dorsal, ventrolateral, and posterior subregions of the PVN (not immunoreactive to VP or OT) are also immunoreactive for α-ENaC. In contrast, immunoreactivity to β- and γ-ENaC is colocalized with VP alone within the MNCs. Furthermore, immunoreactivity for a known target for ENaC expression, the mineralcorticoid receptor (MR), is colocalized with both VP and OT in MNCs. Using single-cell RT-PCR, we detected mRNA for all three ENaC subunits and MR in cDNA libraries derived from single MNCs. In whole cell voltage clamp recordings, application of the ENaC blocker benzamil reversibly reduced a steady-state inward current and decreased cell membrane conductance approximately twofold. Finally, benzamil caused membrane hyperpolarization in a majority of VP and about one-half of OT neurons in both spontaneously firing and quiet cells. These results strongly suggest the presence of functional ENaCs that may affect the firing patterns of MNCs, which ultimately control the secretion of VP and OT.     

IFN-λ1 in CHO cells: its expression and biological activity

Background

Many studies have investigated the characteristics and biological activities of type III interferon (IFN), finding that it has similar features to type I IFN but also unique actions because it is recognized by a different receptor.

Results

A full-length recombinant human IFN-λ1 (rhIFN-λ1) cDNA was cloned into the pDF expression vector and stably expressed in Flp-In-CHO cells. After four purification steps (ammonium sulfate precipitation, SP Sepharose chromatography, Blue Sepharose 6 fast flow affinity chromatography and molecular sieve chromatography), the rhIFN-λ1 had a purity of about 90% and was found to have the predicted biological activities. The anti-viral activity of rhIFN-λ1 was determined as 10⁶ IU/mg using the vesicular stomatitis virus (WISH-VSV) assay system. The anti-proliferation activity of rhIFN-λ1 was measured using the MTS method and the growth inhibition ratio was 57% higher than that for recombinant human IFN-α2b (rhIFN-α2b) when the rhIFN-λ1 concentration was 1000 IU/ml. rhIFN-λ1 had lower natural killer cell cytotoxicity than rhIFN-α2b.

Conclusion

The Flp-In-CHO system is suitable for stably expressing rhIFN-λ1 that possesses the predicted anti-viral, anti-proliferation and natural killer cell cytotoxicity-promoting activities.

     

Modulating effects of vanillic acid on circadian pattern of indices of redox homeostasis in N-Methly-N′-Nitro-N-Nitrosoguanidine induced endometrial carcinoma in rats

The circadian timing system controls drug metabolism and cellular proliferation over the 24-h period through molecular clocks in every cell. Accumulating epidemiological and genetic evidences indicate that the disruption of circadian rhythms might be directly linked to cancer. This study evaluates the effect of vanillic acid on the circadian rhythms of circulatory lipid peroxidation and antioxidant status during N-Methyl-N′-Nitro-N-Nitrosoguanidine (MNNG)-induced endometrial carcinoma in rats. The characteristics of circadian rhythms (acrophase, amplitude and mesor) of lipid peroxidation products – thiobarbituric acid reactive substances (TBARS), lipid hydroperoxides (LOOH) and enzymatic antioxidants like superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx) and non-enzymatic antioxidants such as reduced glutathione (GSH), vitamins C and E were markedly declined in MNNG-treated rats when compared to other groups. Pre and co-treatment of vanillic acid to MNNG-treated animals significantly increased the mesor and altered amplitudes of antioxidants and significantly decreased the mesor values of TBARS and LOOH. Further, delays in acrophase in MNNG-induced rats were reversed by vanllic acid administration. Thus, oral treatment of vanillic acid results in normalization of the altered rhythms of these indices of redox homeostasis (compared to controls) by its anticarcinogenic, cytoprotective and antioxidant effects.     

Use of cell cycle analysis to characterise growth and interferon-γ production in perfusion culture of CHO cells

The importance of cell cycle analysis in cell culture development has been widely recognised. Whether such analysis is useful in indicating future performance of high cell density culture is uncertain. Using flow cytometric approach to address this question, we utilised the fraction of cells in the S phase to control specific growth rate and productivity in spin filter perfusion cultures and found a significant increase in the accumulated interferon-γ over that obtained from the nutrient-based controlled fed culture. While a general decrease with time exists in both percentage of S phase cells and specific growth rate, a clear oscillatory behaviour of both parameters is found in perfusion cultures. This revised version was published online in July 2006 with corrections to the Cover Date.     

Regulation of RNA polymerase II activity in α-amanitin-resistant CHO hybrid cells

CHO hybrid cell lines obtained by fusing cells of wild-type sensitivity to α-amanitin with mutant cells containing RNA polymerase II activity resistant to α-amanitin have both sensitive (wild-type) and resistant forms of RNA polymerase II. When these hybrids were grown in medium containing α-amanitin, the sensitive form of polymerase II was inactivated, and the activity resistant to α-amanitin increased proportionally. The total polymerase II activity level therefore remained constant. This regulation of RNA polymerase II activity occurred independently of that of RNA polymerase I and was similar to that observed previously in the α-amanitin-resistant rat myoblast mutant clone Ama102 (Somers, Pearson, and Ingles, 1975).A sensitive radioimmunoassay was developed to quantitate the total mass of RNA polymerase II enzyme. Under conditions of regulation of the enzymatic activity when hybrids grown in α-amanitin exhibited a 2–3 fold increase in the activity of the α-amanitin-resistant enzyme, no major change in the enzyme mass was detected immunologically. However, quantitation of the α-amanitin-inactivated polymerase II of wild-type sensitivity by ³H-amanitin binding indicated that the loss of its enzymic activity was accompanied by a loss of ³H-amanitin binding capacity in the cell lysates. All these results taken together indicate that a mechanism for regulating the intracellular level of RNA polymerase II exists and that it involves changes in the concentration of enzyme.     

Cytochemical localization of 5′-nucleotidase in the enteric ganglia and in smooth muscle cells of the guinea-pig

Brain Cell Biology - Cytochemical techniques were used to study the localization of 5′-nucleotidase in the enteric ganglia and in smooth muscle cells of the guinea-pig ileum, iris and vas...