Induction in primary culture of 'gluconeogenic' and 'glycolytic' hepatocytes resembling periportal and perivenous cells

Adult rat hepatocytes were kept in primary culture for 48 h under different hormonal conditions to induce an enzyme pattern which with respect to carbohydrate metabolism approximated that of periportal and perivenous hepatocytes in vivo. 1. Glucagon-treated cells compared with control cells possessed a lower activity of glucokinase, a 4.5-fold higher activity of phosphoenolpyruvate carboxykinase and unchanged levels of glucose-6-phosphatase, phosphofructokinase, fructose-bisphosphatase and pyruvate kinase; they resembled in a first approximation the periportal cell type and are called for simplicity 'periportal'. Inversely, insulin-treated cells compared with control cells contained a 2.2-fold higher activity of glucokinase, a slightly decreased activity of phosphoenolpyruvate carboxykinase, increased activities of phosphofructokinase and pyruvate kinase and unaltered levels of glucose-6-phosphatase and fructose-bisphosphatase; they resembled perivenous cells and are called simply 'perivenous'. Gluconeogenesis and glycolysis were studied under various substrate and hormone concentrations. 2. Physiological concentrations of glucose (5 mM) and lactate (2 mM) gave about 80% saturation of gluconeogenesis from lactate and less than 15% saturation of glycolysis at a simultaneous 40% inhibition of the glycolytic rate by lactate. 3. Comparison of the two cell types showed that under identical assay conditions (5 mM glucose, 2 mM lactate, 0.5 nM insulin, 0.1 muM dexamethasone) gluconeogenesis was 1.5-fold faster in the 'periportal' cells and glycolysis was 2.4-fold faster in the 'perivenous' cells. 4. Metabolic rates were under short-term hormonal control. Insulin increased glycolysis three fold in both cell types with a half-maximal effect at about 0.4 nM, but did not influence the gluconeogenic rate. Glucagon inhibited glycolysis by 70% with a half-maximal effect at about 0.1 nM. Gluconeogenesis was stimulated by glucagon (half-maximal dose: 0.5 nM) 1.8-fold only in 'periportal' cells containing high phosphoenolpyruvate carboxykinase activity, not in the 'perivenous' cells with a low level of this enzyme. 5. A comparison of the two cell types showed that with maximally stimulating hormone concentrations gluconeogenesis was threefold faster in 'periportal' cells and glycolysis was eightfold faster in 'perivenous' cells. The results support the view that periportal and perivenous hepatocytes in vivo catalyse gluconeogenesis and glycolysis at inverse rates.     

Permissive action of triiodothyronine on the long-term increase of glycolysis by insulin in cultured rat hepatocytes

The long-term influence of triiodothyronine (T3) and insulin on glycolysis, some glycolytic/gluconeogenic enzymes and insulin responsiveness and sensitivity was investigated in rat hepatocytes cultured for 48 h without T3, with 10 microM T3, with 10nM insulin and with insulin plus T3. From 48 h-51 h basal glycolysis ([14C]lactate formation from [14C]glucose) was measured in the absence and short-term insulin-stimulated glycolysis in the presence of 100 nM insulin. 1) T3 addition for 48 h had no significant influence on basal or on insulin-stimulated glycolysis. 2) Insulin addition for 48 h increased basal glycolysis to 300%, and insulin-stimulated glycolysis to 160%. 3) T3 plus insulin addition for 48 h elevated basal glycolysis to 560% and insulin-stimulated glycolysis to 230%. 4) The 48-h treatment with T3 did not change glucokinase (GK) and pyruvate kinase (PK) activity, yet it increased phosphoenol-pyruvate carboxykinase (PEPCK) activity to 150%. 5) The 48-h treatment with insulin as well as T3 plus insulin enhanced GK to 200% and PK to 140% and decreased PEPCK to 65%. 6) The long-term effect of T3 on glycolysis was maximal at initial concentrations of 100 nM. 7) The long-term treatment with T3 did not alter the short-term responsiveness or sensitivity of glycolysis for insulin, neither in cells from euthyroid nor from hypothyroid rats. The present results allow the conclusion that T3 had a permissive effect on the long-term increase of glycolysis by insulin, and that T3 exerted this function by altering neither the cellular content of key enzymes nor the short-term insulin responsiveness and sensitivity.     

Influence of hormones and growth factors on viability,DNA, and protein content of adult hepatocytes in primary culture

Summary The survival of adult rat hepatocytes in monolayer culture was studied in the presence of different hormones (neurotensin, oxytocin, thyrotropin releasing hormone, luteinizing hormone releasing hormone, cholecalciferol, bradykinin, substance P, aldosterone, melanocyte stimulating hormone, 3,3′,5-triiodo-1-thyronine, corticosterone, human growth hormone, glucagon, insulin, progesterone, testosterone, estradiol, and dexamethasone phosphate) or growth factors (fetal bovine serum). For this purpose trypan blue exclusion, lactate dehydrogenase, and DNA and protein content were measured at 24 and 72 h of culture. 10⁻⁷ M Dexamethasone, a mixture of eight hormones, 10% fetal bovine serum, and a combination of the latter two supplements caused a more than 64% higher DNA content at 72 h when compared to control cultures. A striking agreement of these results with changes of lactate dehydrogenase leakage was observed, whereas trypan blue exclusion gave erratic results. Considerable changes of cell arrangement apparently specific for each supplement were ovserved by low magnification microscopy. It is concluded that glucocorticoids and fetal bovine serum have an outstanding effect on cell viability and that DNA or protein content or both are reliable indicators of cell viability in amitotic cultures.     

Recombinant Human erythropoietin reduces viability of MCF-7 breast cancer cells from 3D culture without caspase activation

Recombinant human erythropoietin (rHuEPO) is the erythropoiesis-stimulating hormone that is being used concurrently with chemotherapeutic drugs in the treatment of anemia of cancer. The effect of rHuEPO on cancer cells in 3-dimensional (3D) cultures is not known. The objective of the study was to determine the effect of rHuEPO on the viability of MCF-7 breast cancer cells from 2-dimensional (2D) and 3D cell cultures. The monolayer MCF-7 cells from 2D culture and MCF-7 cell from 3D culture generated by ultra-low adhesive microplate technique, were treated with 0, 0.1, 10, 100 or 200 IU/mL rHuEPO for 24, 48 or 72 h. The effects of rHuEPO on MCF-7 cell viability and proliferation were determined using the (4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide assay (MTT), neutral red retention time (NRRT), trypan blue exclusion assay (TBE), DNA fragmentation, acridine orange/propidium iodide staining (AO/PI) assays. The MCF-7 cells for 3D culture were also subjected to caspase assays and cell cycle analysis using flow cytometry. rHuEPO appeared to have greater effect at lowering the viability of MCF-7 cells from 3D than 2D cultures.rHuEPO significantly (p < 0.05) decreased viability and down-regulated the caspase activities of 3D MCF-7 cells in dose- and time-dependent manner. The cell cycle analysis showed that rHuEPO caused MCF-7 cells to enter the subG0/G1 phase. Thus, the study suggests that rHuEPO has a cytostatic effect on the MCF-7 breast cancer cells from 3D culture.     

Short-term primary culture of mouse interstitial cells: effects of culture conditions of androgen production

This study examined the effects of culture conditions and hormone treatment on androgen production by mouse interstitial cells in short-term primary culture. Testicular interstitial cells (18-25% 3 beta-hydroxysteriod dehydrogenase-positive) were maintained in serum-free hormone supplemented medium. Basal (nonstimulated) androgen production was found to be plating-density dependent. Androgen production per cell increased dramatically in a time- and cell concentration-dependent manner. This effect was reproduced in low density cultures by addition of charcoal-stripped conditioned medium from high density cultures. The cell anchorage factors, fibronectin and poly-l-lysine, similarly enhanced basal androgen production but did not augment responsiveness to luteinizing hormone (LH). Coating of the culture surface with serum inhibited androgen production. Cultured cells remained responsive to LH for 4 to 5 days and both insulin (5 micrograms/ml) and epidermal growth factor (EGF) (3 ng/ml) augmented LH-stimulated androgen production. There was a transient increase in LH sensitivity and maximum LH-stimulated androgen production for 5 to 72 h in culture followed by a decline in androgen production to low levels after 4 to 5 days in culture. This loss of activity was partially prevented by addition of antioxidants to the medium or by reduction of the ambient O2 concentration to 1%.     

Immunohistochemical evidence that culture in the high aspect rotating vessel can up-regulate hormone expression in growth dedifferentiated PHHI-derived islet cells

Islet cells derived from patients with persistent hyperinsulinemic hypoglycemia of infancy (PHHI) have the ability to grow readily in simple culture media. However, as with primary islets and cell lines, they lose hormone expression upon growth. In this study, we have investigated the role of three-dimensional cell-to-cell contact in the reinitiation of hormone expression in growth dedifferentiated PHHI-derived cells. Two main methods of cell aggregation were studied; the promotion of pseudoislets through petri dish culture and the creation of cell aggregates in the microgravity environment of the high aspect ratio vessel (HARV). Immunohistochemical analysis and ELISA assay showed that petri dish culture did not re-establish endocrine expression in any of the five cultures tested. However, through HARV technology, we have demonstrated that it is possible to reactivate insulin, glucagon, somatostatin, and GAD expression in PHHI-derived cells that had previously stopped expressing these markers. These results indicate that the unique environment of the HARV can be conducive to the upregulation of endocrine expression of islet-derived cells and optimization of culture conditions may prove useful in the sphere of β cell proliferation.     

Serum-free organ culture of suckling rat jejunum: Effect of regulatory hormones

Summary To facilitate the study of regulators of differentiation and proliferation of small intestinal epithelium in the suckling rat we have developed a serum-free organ culture system and used it to examine epithelial responsiveness to various regulatory hormones. These hormones included the insulin-like growth factors (IGFs) whose action can be blocked by binding proteins in serum. Jejunal explants from 5-day-old suckling rats maintained better brush border enzyme activity and better histology when cultured under hyperbaric conditions for 24 h in serum-free Dulbecco’s modified Eagle’s medium/F12 medium than in RPMI 1640 plus 10% fetal bovine serum. Tissue responsiveness to various regulatory hormones was then tested in the serum-free medium. Insulin had no significant effect on morphology, proliferation rate, or enzyme activity in 5-day explants after 24 h in culture. However, insulin did increase lactase activity and induce the early appearance of sucrase in 10- and 12-day explants after 48 h culture. Dexamethasone increased specific activities of alkaline phosphatase (30%,P<0.001) and lactase (15%,P<0.001), and reduced shedding of alkaline phosphatase into the medium (P<0.001), in explants of 5-day-old rats cultured over 24 h. Dexamethasone combined with insulin had no obvious effect on the rate of protein or DNA synthesis but did increase villus height (P=0.04) and crypt depth (P=0.001) and acted synergistically to further increase lactase activity above levels obtained by either alone. IGF-I and IGF-II, des-(1–3)IGF-I, fibroblast growth factor (FGF), and growth hormone (GH) had no effect on morphology or biochemical activity of explants after 24 or 48 h culture. In conclusion, histology, enzyme activity, protein, and DNA synthesis of suckling rat jejunal explants were equivalent or better in serum-free than in serum-containing organ culture systems. Furthermore, biological responsiveness was demonstrated by dexamethasone and insulin altering the explants morphologically or biochemically. None of the IGFs or GH had any biological effects, raising doubts about their direct biological action on the developing intestinal epithelium.     

Pseudoislets in stirred-suspension culture exhibit enhanced cell survival, propagation and insulin secretion

Cells from primary islets and beta-cell lines form pseudoislets (PIs) in static cultures. Interestingly, MIN6 beta-cells with aberrant regulation of proliferation form PIs which cease to grow after a week in culture. This growth arrest is attributed to a pro-apoptotic and anti-proliferative PI environment. We hypothesized that cell necrosis due to poor nutrient transport in dishes rather than apoptosis effects the observed PI size restriction. Formation of beta-cell PIs was explored in stirred-suspension bioreactors with enhanced mass transfer. Cells in stirred-suspension proliferated continuously and the PI size increased for two weeks. Bioreactor PIs displayed regulated basal insulin secretion and enhanced responsivity to glucose and incretins. Compared to dishes, cell viability in the bioreactor was higher with lower released lactate dehydrogenase activity. Similar expression of p21 and p27 in monolayers and PIs did not suggest an anti-proliferative PI milieu. Caspase-2, -8 and -9 activities were comparable in dish and bioreactor PIs, and the latter continued to grow after one week of culture. Thus, apoptosis is not sufficient to explain the differences in PI size between dishes and bioreactor. Moreover, the bioreactor method described here may be used to generate PIs with increased cell viability and function for research and clinical applications.     

Effect of sinusoidal 50 Hz magnetic field on the testosterone production of mouse primary Leydig cell culture

This study evaluated the effect of sinusoidal 50 Hz magnetic field on the basal and human chorionic gonadotropin (hCG)-stimulated testosterone (T) production of 48-h mouse Leydig cell culture. The luteinizing hormone (LH) analog hCG was used to check the T response of the controls and to evaluate the possible effect of the applied magnetic field on the steroidogenic capacity of the exposed cells. Leydig cells were obtained from the testes of 35- to 45-g CFLP mice and isolated by mechanical dissociation without enzyme treatment. The cell cultures were exposed to sinusoidal 50 Hz 100 μT (root mean square) AC magnetic field during the entire time of a 48-h incubation. Testosterone content of the culture media was measured by radioimmunoassay. In cultures exposed to the magnetic field, a marked increase of basal T production was found (P < .05), compared with the unexposed controls, whereas no significant difference was seen between the exposed or unexposed cultures in the presence of maximally stimulating concentration of hCG. These findings demonstrate that sinusoidal 50 Hz 100 μT magnetic fields are able to stimulate the basal T production of primary mouse Leydig cell culture, leaving the steroidogenic responsiveness to hCG unaltered. Bioelectromagnetics 19:429–431, 1998. © 1998 Wiley-Liss, Inc.     

Effect of hypotonic treatment on sertoli cell purity and function in culture

Summary Commonly used enzymic methods for the isolation of rat Seroli cells yield populations containing ∼15% germ cells. Although the germ cells become eliminated after several media changes, they could interferen with the use of Sertoli cells for critical studies during the first several days of culture. A brief treatment of Sertoli cell monolayer cultures with 20 mM Tris-HCl (pH 7.4) was found to eliminate most of the residual contaiminating germ cells. The duration of this treatment varied from 1.0 to 10 min, depending on cell denisty in the culture, the degree of germ cell contamination, and the age of animals used for Sertoli cell isolation. In a study of 95% pure 7-d Sertoli cell cultures, the hypotonic treatment did not alter the DNA or RNA content per dish or the incorporation of [³H]uridine into total and poly A+RNA. Also, the hypotonic treatment did not alter specific Sertoli cell functions, i. e., secretion of Sertoli cell factor (inhibin) and stimulation of cAMP levels by follicle stimuting hormone in 2-d cultures. Androgen receptor concentration per dish was also not changed. Changes in several general metabolic parameters observed after hypotonic treatment of 2-d cultures were attributed primarily to loss of contaiminating germ cells. Consequently, hypotonic treatment can be used to eliminate contaminating germ cells from the Sertoli cell cultures without apparent detrimental effects on a number of Sertoli cell biochemical parameters. This may be of considerable importance when the purity of Sertoli cells is critical for the interpretation of experimental data. This work was supported in part by grants HD-1-P50-08338, HD-17795 (BMS), and HD-18186 (JJH) from the National Institutes of Health, Bethesda, MD.     

Maintenance of glucokinase activity in primary hepatocyte cultures

When primary cultures of hepatocytes are maintained for 2 weeks from the time of perfusion, the activity of the enzyme glucokinase decreases rapidly, so that the activity can no longer be detected after the fourth day in culture. Concomitantly, there occurs an increase in the activity of hexokinases, the low-K_M isozymes, which predominate in fetal liver. We have made several modifications of the culture medium in an attempt to prevent the decrease in glucokinase activity. When the medium was supplemented with a mixture of insulin, thyroxine, glucagon, dexamethasone, testosterone, and estradiol, the activity of the enzyme in the hepatocytes was present at approximately 15% of in vivo levels after 2 weeks in culture. When this hormone mixture was present during the first 4 hrs of culture and when the hepatocytes were allowed to attach to the collagen support and were maintained thereafter in medium supplemented with fetal bovine serum, insulin, and dexamethasone, the activity of glucokinase increased after an initial decrease for 3 days and was maintained thereafter at levels comparable to those observed in vivo. This effect of the hormone mixture was found to be the result of the presence of glucagon in the mixture, since the presence of glucagon with no other hormones added, except insulin, during the attachment period produced the same pattern of increased glucokinase activity. Immunoprecipitation of glucokinase from the hepatocytes, using monospecific antibody, indicated that the increase in enzyme activity was the result of increased glucokinase enzyme protein and not an increased synthesis of the other hexokinase isozymes. These studies demonstrate the specific hormonal requirements for the maintenance of glucokinase levels in primary hepatocyte culture at those seen in vivo and lends support to the hypothesis that fetal gene expression in primary hepatocyte cultures is selectively regulated rather than being a general effect with a common regulatory mechanism.     

Major metabolic pathways and hormone production in unstimulated monolayer cultures of the rat anterior pituitary

In cell cultures derived from anterior pituitary glands of rats, enzyme activities of cell homogenates and hormone (GH, PRL, LH, and FSH) content of the culture media were measured. Sex differences in enzyme activities representing major metabolic pathways (citrate cycles, pentose cycles, and glycolysis) were demonstrated both in freshly dispersed cells and in 8-day-old cultures; in cultures of both sexes enzyme activities increased during cultivation. In cultures derived from female rats, cell protein doubled by the 12th day and remained constant for up to the 24th day in culture, whereas enzyme activities showed changes suggesting that cell metabolism shifted to anaerobic glycolysis during cultivation. In the culture media the presence of four pituitary hormones was demonstrated for as long as 3 weeks of cultivation with variable secretion dynamics; the release of gonadotropic hormones diminished gradually whereas that of GH remained constant and PRL levels increased with time. These results indicate that under strictly defined culture conditions pituitary cells may function in spite of profound metabolic changes.     

Major metabolic pathways and hormone production in unstimulated monolayer cultures of the rat anterior pituitary

Summary In cell cultures derived from anterior pituitary glands of rats, enzyme activities of cell homogenates and hormone (GH, PRL, LH, and FSH) content of the culture media were measured. Sex differences in enzyme activities representing major metabolic pathways (citrate cycles, pentose cycles, and glycolysis) were demonstrated both in freshly dispersed cells and in 8-day-old cultures; in cultures of both sexes enzyme activities increased during cultivation. In cultures derived from female rats, cell protein doubled by the 12th day and remained constant for up to the 24th day in culture, whereas enzyme activities showed changes suggesting that cell metabolism shifted to anaerobic glycolysis during cultivation. In the culture media the presence of four pituitary hormones was demonstrated for as long as 3 weeks of cultivation with variable secretion dynamics; the release of gonadotropic hormones diminished gradually whereas that of GH remained constant and PRL levels increased with time. These results indicate that under strictly defined culture conditions pituitary cells may function in spite of profound metabolic changes.     

Identification of two forms of glutamine synthetase in barley (Hordeum vulgare).

Hepatocytes of 14-day-old rats have no detectable glucokinase activity $\text{in}$$\text{vivo}$, but it was induced by insulin (10^?8M) in primary cultures of these hepatocytes. The glucokinase induced by insulin was separated by electrophoresis on a cellulose acetate membrane and identified by its low affinity for glucose. This precocious induction of glucokinase was completely prevented by the presence of either actinomycin D or cycloheximide. Glucagon also inhibited its induction by insulin. Dexamethasone and testosterone, which alone had no inductive effect, strongly enhanced the induction by insulin. When hepatocytes of 14-day-old rats were cultured with 10^?7M insulin, 10^?6M dexamethasone and 10^?7M testosterone for 48 hr, their glucokinase activity increased to the non-induced level in hepatocytes of adult rats. Estrogen, thyroxine or growth hormone did not induce glucokinase precociously. Testosterone did not enhance induction of glucokinase by insulin in cultured hepatocytes of adult rats.     

Viability and differential function of rainbow trout liver cells in primary culture: Coculture with two permanent fish cells

Summary The study investigates the influence of different culture conditions on attachment, viability and functional status of rainbow trout (Oncorhynchus mykiss) liver cells in primary culture. Cells were isolated by a two-step collagenase perfusion and incubated in serum-free, chemically defined minimal essential medium (MEM), (a) as a monolayer on uncoated PRI-MARIA? dishes, (b) as a monolayer on culture dishes coated with calf collagen type 1, and (c) in coculture with the established fish cell lines RTH-149 or RTG-2. Cell attachment was assessed from DNA and protein concentrations per dish, viability was estimated from cellular lactate dehydrogenase release, and the metabolic status was investigated by measuring activities of the phosphoenolpyruvate carboxykinase and biotransformation enzymes as well as the total cytochrome P450 contents. Seeding of hepatocytes on collagen-coated dishes did not alter cell attachment or detachment from the culture substrate, but had a small, but not significant effect on cell viability and metabolic parameters. Coculture of liver cells and RTG-2 cells reduced hepatocyte detachment from the culture substrate, and it was associated with a significant elevation of 7-ethoxyresorufin-O-deethylase activities in the hepatic cells. Cytochrome P450 contents, however, were not altered. The coculture effect on liver cell physiology clearly depended on the type of cell line, because coculture with RTH-149 cells led to similar, but much weaker effects than obtained in cocultures with RTG-2 cells. Electron microscopical observations revealed the existence of gap junctions and possible exocytosis-like transport between cell lines and hepatocytes. The results point to the potential of coculture systems to improve physiological parameters of trout liver cells in primary culture.     

A Thin‐Layer Liquid Culture Technique for the Growth of Helicobacter pylori

Background and Aims: Several attempts have been successful in liquid cultivation of Helicobaccter pylori. However, there is a need to improve the growth of H. pylori in liquid media in order to get affluent growth and a simple approach for examining bacterial properties. We introduce here a thin‐layer liquid culture technique for the growth of H. pylori. Methods: A thin‐layer liquid culture system was established by adding liquid media to a 90‐mm diameter Petri dish. Optimal conditions for bacterial growth were investigated and then viability, growth curve, and released proteins were examined. Results: Maximal growth of H. pylori was obtained by adding 3 mL of brucella broth supplemented with 10% horse to a Petri dish. H. pylori grew in both DMEM and RPMI‐1640 supplemented with 10% fetal bovine serum and 0.5% yeast extract. Serum‐free RPMI‐1640 supported the growth of H. pylori when supplemented with dimethyl‐β‐cyclodextrin (200 μg/mL) and 1% yeast extract. Under optimal growth, H. pylori grew exponentially for 28 hours, reaching a density of 3.4 OD₆₀₀ with a generation time of 3.3 hours. After 24 hours, cultures at a cell density of 1.0 OD₆₀₀ contained 1.3 ± 0.1 × 10⁹ CFU/mL. γ‐Glutamyl transpeptidase, nuclease, superoxide dismutase, and urease were not detected in culture supernatants at 24 hours in thin‐layer liquid culture, but were present at 48 hours, whereas alcohol dehydrogenase, alkylhydroperoxide reductase, catalase, and vacuolating cytotoxin were detected at 24 hours. Conclusions: Thin‐layer liquid culture technique is feasible, and can serve as a versatile liquid culture technique for investigating bacterial properties of H. pylori.     

An In‐situ glucose‐stimulated insulin secretion assay under perfusion bioreactor conditions

Perfusion bioreactors, unlike traditional in vitro cell culture systems, offer stringent control of physiological parameters such as pH, flow, temperature, and dissolved oxygen concentration which have been shown to have an impact on cellular behaviour and viability. Due to the relative infancy and the growing interest in these in vitro culture systems, detection methods to monitor cell function under dynamic perfusion bioreactor conditions remains one of the main challenges. In this study, INS‐1 cells, a cell line which exhibit glucose‐stimulated insulin secretion, were embedded in fibrin and cultured under perfusion bioreactor conditions for 48 h and then exposed to either a high‐, or low‐glucose concentration for 24 h. These cultures were compared to non‐bioreacted controls. Bioreacted cultures exposed to a high‐glucose concentration showed the highest glucose‐stimulated insulin secretion when compared to those in a low‐glucose environment. The stimulation index, a marker for insulin secretion functionality, increased over time. A lower incidence of apoptotic cells was observed in the bioreacted cultures when compared to non‐bioreacted ones, as evaluated by a TUNEL assay. Immunofluorescence staining of Ki67 and insulin was performed and showed no differences in the incidence of proliferative cells between conditions (bioreacted and non‐bioreacted), where all cells stained positive for insulin. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:454–462, 2017     

Effect of culture temperature on follicle-stimulating hormone production by Chinese hamster ovary cells in a perfusion bioreactor

Follicle-stimulating hormone (FSH) was produced in Chinese hamster ovary (CHO) cells using a perfusion bioreactor. Perfusion culture at 37°C yielded a high cell density but a low FSH production. To investigate the effect of culture temperature in the range of 26–37°C on cell growth and FSH production, batch cultures were performed. Lowering culture temperature below 32°C resulted in growth suppression. However, specific productivity of FSH, q _FSH, increased as culture temperature decreased, and the maximum q _FSH of 43.4 ng/10⁶ cells/h was obtained at 28°C, which is 13-fold higher than that at 37°C. Based on the results obtained from batch cultures, we performed perfusion cultures with two consecutive temperatures. CHO cells were grown up to 3.2 × 10⁷ cells/ml at 37°C and culture temperature shifted down to 28°C to obtain a high FSH titer. Soon after the maximum FSH titer of 21 μg/ml was achieved, a rapid loss of not only viable cell concentration but also cell viability was observed, probably due to the low activities of enzymes related to cell growth. Thus, the extension of production period at 28°C is critical for the enhancement of FSH production, and the use of antiapoptotic genes seems to be promising.     

The development of hormonal responses of cultured embryonic chick limb mesenchymal cells

Cells obtained from stage 24 chick limb buds were cultured and assayed for their ability to respond to exogenously supplied parathyroid hormone (PTH) as monitored by analysis of cellular cyclic AMP (cAMP). After 3–4 days in culture, these cells developed a striking responsiveness to the hormone; 20 -to 50-fold elevations in cAMP were routinely observed upon exposure to 10^?8, M hormone for 2 min. This response was greatest in cells initially plated at low densities (1 × 10⁶ cells/35-mm dish) and was inversely correlated to the amount of cartilage which developed in such cultures. Cells obtained from limbs of stages 23–26 embryos developed a similar responsiveness to PTH after 3–4 days in culture, but cells obtained from limbs of stage 22 embryos showed no such responsiveness even after 6 days in culture. A response to calcitonin also was noted in cultures of stage 24 limb mesenchymal cells after 4–5 days in culture, but this was of much smaller magnitude than the PTH response. Of 12 other hormones tested, only β agonists elicited any cAMP response in the cultered stage 24 limb mesenchymal cells. Although cells initially plated at a high density and grown for 8 days in culture show no response to PTH, the presence of PTH-responsive cells in such cultures could be demonstrated by sequential digestion with collagenase and replating the extracellular matrix-free cells released by this treatment. Such replated cells then exhibited a responsiveness to PTH. Thus, the responsiveness of cultured limb mesenchymal cells depends on the developmental stage of the starting limb mesenchyme, the phenotypes which develop, and physical factors such as accessibility to exogenously supplied hormone.