Hormonal regulation of some steps of thyroglobulin synthesis and secretion in bicameral cell culture

Porcine thyroid cells were cultured for 15 days on porous bottom chambers with or without different mixtures of hormones added to serum-free basal medium. Assays with 10% serum were also performed for comparison with previously published results. The effects of the hormones, particularly insulin, TSH and hydrocortisone, were studied on total RNA content, thyroglobulin mRNA level, the amount of thyroglobulin secreted into the apical medium and on glycosylation. Insulin and TSH similarly increased the total RNA content, and their effects were additive. Thyroglobulin mRNA content was increased twofold by insulin and threefold by TSH. When they were added simultaneously, the maximal level of thyroglobulin mRNA was reached, showing that TSH and insulin effects on thyroglobulin gene expression were additive. Hydrocortisone alone did not modify total RNA or thyroglobulin mRNA content but the hormone amplified total RNA when insulin and TSH were present together. The basal level of thyroglobulin secreted into the apical medium was increased threefold by insulin and fourfold by TSH. The effects of these two hormones added together appeared to be additive. Hydrocortisone had no effect alone or even when combined with insulin or TSH. However, when the three hormones were added together, the hormonal response was amplified. TSH effect and insulin effect on the incorporation of ³H-mannose into thyroglobulin as well as on the anionic residue content of the molecule were additive. © 1994 Wiley-Liss, Inc.     

Comparative effects of somatomedin C and insulin on the metabolism and growth of cultured human fibroblasts

At concentrations of 25 ng/ml in serum-free medium, somatomedin C (SM-C) and insulin stimulated 3H-thymidine incorporation in adult human fibroblasts 4- and 1.5-fold, respectively. The presence of 0.25% human hypopituitary serum (HHS), which by itself had little effect, enhanced the mitogenicity of both SM-C and insulin. Furthermore, 10(-7)M dexamethasone dramatically potentiated SM-C stimulation (70-fold) and insulin stimulation (28-fold) of 3H-thymidine incorporation. With dexamethasone and 0.25% HHS, significant stimulation of DNA synthesis was seen at 2.5 ng/ml for both SM-C and insulin. The effects of SM-C and insulin on 3H-thymidine incorporation were additive. These 3H-thymidine incorporation results were clearly supported by cell replication studies. On the other hand, SM-C and insulin had equivalent, nonadditive effects on RNA and protein synthesis and protein degradation. Half-maximal effects were seen for both peptides on all three metabolic processes at 2-5 ng/ml. In contrast to their synergism with SM-C in the stimulation of DNA synthesis and cell replication, HHS and dexamethasone did not enhance SM-C stimulation of RNA or protein synthesis or protein degradation. These data indicate that SM-C and insulin stimulate DNA, RNA, and protein synthesis, protein degradation, and cell replication in adult human fibroblasts at nanomolar concentrations, suggesting that each peptide is capable of acting through its own receptor. Both SM-C and insulin are also capable of synergism with low concentrations of serum and dexamethasone in the stimulation of DNA synthesis and cell replication. It is proposed that SM-C and insulin both participate in the regulation of cell growth and metabolism in vivo.     

Neural and hormonal stimulation of DNA and protein synthesis in cultured regeneration blastemata in the newt Notophthalmus viridescens

Distal portions of cone-stage newt forelimb blastemata were cultured transfilter to spinal ganglia for 36 or 72 hr. Addition of insulin to the medium consistently resulted in a significant increase (250% in ganglionated and 238% in nonganglionated blastemata) in the incorporation of [³H]thymidine into DNA, as compared to nontreated controls. When blastemata were cultured without ganglia for 36 or 72 hr, DNA synthesis decreased to 73 and 71%, respectively, of that achieved by ganglionated explants. When insulin was excluded from the medium, DNA synthesis decreased to 40% of insulin-treated explants, and, in the absence of both nerves and insulin, it declined to 31% of insulin-treated, innervated explants. The presence of insulin in the medium also resulted in an augmentation of (¹⁴C)-labeled amino acid incorporation into proteins; the average increase was 168%, as compared to untreated controls. l-thyroxine, growth hormone and hydrocortisone in combination with insulin, did not enhance the effects on DNA or protein synthesis of insulin alone. Also, exogenous cyclic nucleotides (cAMP, cGMP) and alterations of their endogenous levels with acetylcholine, sodium azide, theophylline or prostaglandins failed to elicit significant changes in DNA or protein synthesis. The existence of a synergistic action on DNA synthesis between nerves and insulin is suggested.     

Persistent biologic actions of insulin on cultured fetal human fibroblasts

Summary Monolayer cultures of fetal human fibroblasts, preincubated in serum-free culture medium overnight (about 18 hr), were incubated with insulin (0.1 to 100 mU per ml), then washed and incubated in an insulin-free medium. The effect of insulin on glucose utilization, uridine incorporation into RNA and leucine incorporation into protein was maintained after removal of insulin and washing. For both glucose utilization and uridine incorporation into RNA, this effect was demonstrated at physiologic levels of insulin (0.1 mU per ml). When anti-insulin serum was added to the cultures after the cell preincubated with insulin were washed, this effect was greatly attenuated. This lasting effect of insulin was probably not due to nonspecifically bound insulin becoming available to the cells. Binding of¹²⁵I-monoiodoinsulin was examined in monolayer cultures of fetal human fibroblasts. When unlabeled insulin was present at about 1 mU per ml concentration, 50% displacement of monoiodoinsulin occured. When fibroblasts were incubated with monoiodoinsulin and then removed from the radioactive medium, initial dissociation of the bound hormone occurred rapidly but then reached a plateau. This prolonged insulin effect appears to result from persistent binding of insulin to its receptor. Supported in part by PHS Grants AM-02456, AM-05020 and AM-15312, by the Kroc Foundation and by the Diabetes Center (AM-17047). Supported in part by Research Career Development Award AM-47142 from NIAMDD.     

Several Cell Responses to Insulin of Cultured Cells Derived from Micromeres, Isolated from Sea Urchin Embryos at the 16 Cell Stage

In micromere-derived cells of sea urchin embryos, treatment with insulin started for up to 24 h during culture at 20°C resulted in augmentation of ³²P incorporation into protein (protein phosphorylation) followed by activation of ³²P incorporation into RNA (RNA synthesis) and then induced pseudopodial cable growth, accompanied by considerable decreases in the rates of protein phosphorylation and RNA synthesis. This augmentation of RNA synthesis and cable growth induced by insulin were blocked by H-7, which inhibited protein phosphorylation, and were also inhibited by actinomycin D without any inhibition of protein phosphorylation. Similar results were obtained on treatment with horse serum, found to contain insulin-like compounds. In cells treated with horse serum treated cells, high rates of protein phosphorylation and RNA synthesis were maintained even after the initiation of cable growth and about 5 h later, spicule rods were produced. Insulin treatment did not induce spicule rod formation. In cells treated with horse serum, actinomycin D treatment started at the time of initiation of cable growth, cables were formed but formation of spicule rods was blocked. These results suggest that horse serum contains some other substance besides insulin-like ones, which induces expression of genes that are indispensable for spicule rod formation.     

Polyamine requirement for prolactin action on macromolecular synthesis in the MCF-7 human mammary epithelial cell line

The actions of insulin, hydrocortisone, prolactin and growth hormone on the synthesis of macromolecules in MCF-7 cells was determined in a serum-free defined medium. The inclusion of the polyamine spermidine in the medium was shown to enhance the insulin stimulation of the rate of [3H]uridine incorporation into RNA in a manner similar to that demonstrated for hydrocortisone. Spermidine, in addition to insulin and hydrocortisone, was also essential for prolactin to manifest a stimulation of the rate of [3H]uridine incorporation; this effect of spermidine was optimal with spermidine concentrations between 1 and 5 mM. Prolactin also stimulated the rate of [3H]leucine incorporation into total cellular protein and into an isoelectrically precipitable (pH 4.6) phosphoprotein fraction. The actions of prolactin on total protein and phosphoprotein synthesis were only expressed if spermidine, in addition to insulin and hydrocortisone, was contained in the culture medium. All of the prolactin responses were observed employing physiological concentrations of prolactin. Specificity of the prolactin responses was established by demonstrating that porcine growth hormone had no effects on RNA or phosphoprotein synthesis in the MCF-7 cells.     

The cyclo-oxygenase inhibitors indomethacin and ibuprofen inhibit the insulin-induced stimulation of ribosomal RNA synthesis in L6 myoblasts.

Insulin stimulated total RNA accretion and the incorporation of [3H]uridine into RNA in L6 skeletal-muscle myoblasts. Incorporation of uridine into the rRNA was measured after either separation of 18 S and 28 S rRNA species by agarose-gel electrophoresis or separation of dissociated 40 S and 60 S ribosomal subunits on sucrose density gradients. Both methods showed a stimulation by insulin of uridine incorporation into the RNA of the two subunits. Two non-steroidal anti-inflammatory drugs, indomethacin and ibuprofen, which inhibit the metabolism of arachidonic acid by the cyclo-oxygenase pathway, inhibited the insulin-induced accretion of total cellular RNA and the incorporation of uridine into the RNA of both ribosomal subunits. The effect of insulin was observed both by using a tracer dose of [3H]uridine (5 microM) and in the presence of a high concentration (1 mM) of uridine to minimize possible changes in intracellular precursor pools. Neither insulin nor indomethacin was found to affect the incorporation of uridine into the total intracellular nucleotide pool, or the conversion of uridine into UTP. The ability of inhibitors of arachidonic acid metabolism to prevent insulin-induced increases in RNA metabolism suggests that a prostaglandin or other eicosanoid is involved in the signal mechanism whereby insulin stimulates RNA synthesis.     

Effect of Endotoxin and Cortisone on Synthesis of Ribonucleic Acid and Protein in Livers of Mice

The effect of cortisone and endotoxin, singly and in combination, on ribonucleic acid (RNA) synthesis in livers of adrenalectomized mice was determined. This was accomplished by measuring the incorporation either of inorganic (32)P or of (14)C-orotic acid into the RNA. Under similar conditions, the effect of these agents on the rate of protein synthesis was examined with the use of (14)C-leucine. Bacterial endotoxin was found to augment the uptake of isotope in the RNA and in the protein of the liver. These reactions did not appear to be mediated via the pancreatic hormone insulin, which was found to depress the incorporation of the radioactive compounds into RNA. Cortisone increased the uptake of isotope in liver RNA but depressed the incorporation of leucine into hepatic protein. These results indicate that the previously observed ability of endotoxin to prevent the hormone induction of hepatic enzymes, such as tryptophan oxygenase, is not associated with impaired synthesis of liver RNA or protein.     

Sterol-like compound from sensory ganglia. Effect of a nerve growth factor and insulin on its biosynthesis

1. Sensory ganglia from 8-day-old chick embryos were incubated with a specific nerve growth factor and with insulin. 2. From the total lipid extract of the ganglia a compound with steroid characteristics was isolated. 3. The synthesis of this compound, measured spectrophotometrically, diminished after addition of the nerve growth factor and insulin to the incubation medium. 4. The incorporation of sodium [2-(14)C]acetate and dl-[2-(14)C]mevalonic acid into total lipids of the sensory ganglia was stimulated by the nerve growth factor and insulin, but the radioactivity of the sterol-like compound was slightly lower. The incorporation of labelled mevalonic acid either into total lipids or into the sterol-like compound was about 25% lower. 5. About 20% of the acetate incorporated into total lipids and about 87% of the mevalonic acid were recovered in the sterol-like compound.     

Effects of a nerve-growth factor, embryo age and metabolic inhibitors on growth of fibres and on synthesis of ribonucleic acid and protein in embryonic sympathetic ganglia

Incorporation of labelled precursors into RNA and protein was measured in lumbar sympathetic ganglia from chicken embryos (usually 13-14 days old) in the presence . or absence of nerve-growth factor. The ganglia were incubated with labelled precursors while embedded in plasma clots, so that the outgrowth of nerve fibres could be measured in the same ganglia as the incorporation. Fibre outgrowth was estimated quantitatively by the use of a newly-devised objective measure of mean halo width. In controls without the nerve-growth factor, there was an abrupt slowing of labelling of both RNA and protein after 6-12 h. This slowing was greatly delayed or prevented by addition of the growth factor. At earlier times, small increases in incorporation of both labels accompanied addition of the growth factor, but were not always statistically significant. When ganglia were incubated for 28 h with labelled precursors in the presence of the growth factor, 11 per cent of both the labelled protein and the labelled RNA were found in the halos of outgrowing fibres and 89 per cent in the bodies of the ganglia. In ganglia from embryos of different ages, there was a maximum of labelling per unit volume of ganglion in both RNA and protein at 10 days and a minimum at 12 days of embryonic age. The growth factor increased the labelling during 22 h of incubation at most ages, regardless of whether outgrowth of fibres was great (13-14 days) or minimal (9-10 days). Almost total inhibition of RNA labelling by actinomycin-D caused only moderate impairment of fibre outgrowth. Actinomycin-D also somewhat reduced protein labelling. Cyclo-heximide, in concentrations which produced degrees of inhibition of protein labelling identical to those of actinomycin-D, caused similar impairment of fibre outgrowth. We conclude that RNA synthesis is not essential to the initiation of fibre outgrowth by the nerve-growth factor.     

Survival,morphology, and catecholamine storage of chromaffin cells in serum-free culture: Evidence for a survival and differentiation promoting activity in medium conditioned by purified chromaffin cells

Adult bovine and young rat chromaffin cells cultured in serum-free medium were examined for their survival and differentiation following exposure to various additives, trophic agents and conditioned media. Adrenal chromaffin cells dissociated from 8 day old rats were maintained by dexamethasone, NGF and CNTF or without any additives in an N1-supplemented medium in similar numbers as in serum-containing medium for up to 6 days. Neuritic growth elicited by NGF or CNTF was enhanced in the absence of serum. Medium conditioned by purified bovine chromaffin cells improved cell survival and caused neurite outgrowth in a dose-dependent manner. The activiti(es) was sensitive to heat and trypsin and not blocked by the addition of anti-NGF antibodies. Bovine chromaffin cell survival was reduced by 30% when cells were maintained for one week in the absence as compared to the presence of serum. Addition of insulin, the N1 supplement, dexamethasone or dbcAMP single or in combinations improved the survival to different extents. A combination of insulin (5 g/ml) and dexamethasone (5×10^–6M) proved to be optimal in this respect. However, these supplements failed to restore the cellular catecholamine, noradrenaline and adrenaline contents to levels seen in the presence of serum. This was also true for a chromaffin cell-conditioned medium, which improved survival without elevating the catecholamine contents. Conditioned medium, however, partly restored a more physiological adrenaline-noradrenaline-ratio.Dedicated to Dr. E. M. Shooter and Dr. S. Varon as part of a special issue (Neurochemical Research, Vol. 12, No. 10, 1987).     

Some biochemical effects of insulin and steroid hormones on the rat prostate in organ culture

The effect of various steroids and insulin on expiants of the ventral prostate of adult rats in organ culture was investigated. Testosterone activated the incorporation of labeled precursors into RNA and protein and the formation of ¹⁴CO₂ from ¹⁴C-glucose by expiants. All these effects were mimiced by insulin. The testosterone action was suppressed by cyproterone in vitro. In addition to androgens, glucocorticoids activated the incorporation of ³H-uridine into RNA. Simultaneous addition of testosterone with hydrocortisone or insulin produced an augmented effect on the incorporation of ³H-uridine into RNA which exceeded that resulting from a simple summation of the individual hormone responses. Insulin facilitated likewise the action of testosterone on the incorporation of ¹⁴C-amino acids into protein. When all three hormones were added simultaneously to the culture medium the stimulation of the three biochemical parameters was maximal. It was therefore concluded that all three hormones are necessary for an adequate maintenance of the ventral prostate of the rat.     

Stimulation by insulin of the formation of ribonucleic acid and protein by mammary tissues in vitro

1. Insulin is one of the hormones that are essential for successful tissue culture of explants of the mammary glands of pregnant mice. We report here effects of insulin on RNA and protein formation by mammary tissue from pregnant mice and rats incubated in tissue-culture medium 199. 2. The incorporation of [(14)C]adenine over 3hr. into the RNA of explants of the mammary glands of pregnant mice was increased by an average of 68% when the medium contained 5mug. of insulin/ml. Under similar conditions the incorporation into the RNA of slices of the glands of pregnant rats was increased by an average of 61%. Incorporation into the RNA of slices from lactating rats was stimulated to a smaller extent. 3. Adipose tissue was separated from the glands of pregnant mice and the effect of insulin on the incorporation of adenine into its RNA was studied. In whole explants the incorporation of adenine, both with and without insulin, is almost entirely into the RNA of the mammary parenchyma and not of the adipose tissue. 4. Insulin also stimulated by 38% the incorporation of [(14)C]leucine over 3hr. into the proteins of slices of the glands of pregnant rats. It had no significant effect on slices from lactating rats. 5. Actinomycin D (10mug./ml.) decreased the incorporation of [(14)C]adenine into the RNA of slices of the glands of pregnant rats by an average of 97%. Though it also decreased the incorporation of [(14)C]leucine into the proteins by an average of 25%, the percentage stimulation by insulin of this incorporation remained unchanged.     

Regulation of endothelial cell DNA synthesis and adherence

Summary A defined medium has been developed for primary culture of cells from human umbilical vein that will support maximal levels of cell division. The role of medium components in regulating the amount of thymidine incorporation has been assessed; insulin and to a lesser extent fibroblast growth factor (FGF) both increased the rate of incorporation when hydro-cortisone (HC) was present in the medium. Although these hormones in nonserum medium can stimulate incorporation, plating and maintenance of cells in serum medium for 12 h is necessary before transfer to defined medium. Without serum for this period, cells placed in defined medium, though well attached, did not divide. From the pulse: chase experiments it appears that more than one round of replication was supported by the 12-h period in serum. The role of various agents in regulating cell adhesion also was assessed. Factors precent in serum but not in platelets appear active. Cold insoluble globulin (CIG) is an active serum component inasmuch as it caused adherence when added to defined medium. However, other serum components were highly effective in promoting adhesion in the absence of CIG. Insulin also induced adhesion in nonserum medium though to a smaller extent; its effect was enhanced by plating cells on collagen. Hydrocortisone potentiated the effect of insulin and caused enhanced cell spreading in serum or CIG containing medium but not other medium. All well-spread cells were capable of fibronectin (FN) synthesis whether in serum or nonserum medium. Neither insulin nor HC stimulated fibronectin synthesis. This research was supported by a grant from the American Diabetes Association.     

Effects of serum deprivation, insulin and dexamethasone on polysome percentages in C2C12 myoblasts and differentiating myoblasts.

An increase in the rate of protein synthesis in living cells can be achieved by regulating the quantity of mRNA, ribosomes, and enzymes available for translation or by regulating the efficiency at which existing components are used. Efficiency can be measured by comparing the number of ribosomes actively engaged in the synthesis of protein (polysomes) to the pool of free ribosomes. The objective of this study was to determine the percentage of ribosomes found as polysomes in C2C12 cells deprived of serum or exposed to insulin or dexamethasone 24 h before and after being stimulated to differentiate. Individual 60 mm culture dishes were exposed to serum-free control medium, medium containing serum, insulin, or dexamethasone for a period of 1 h or 2 h and then quickly frozen. The ribosomes and polysomes from these cells were separated by ultracentrifugation on 15 to 60% sucrose gradients and the absorbance across the gradient at 254 nm was recorded. Polysome percentages were determined as the area under the polysome peak divided by the total area under the curve. Serum deprivation caused a 12% decline in the percentage of ribosomes found as polysomes (P < 0.01). Dexamethasone caused a quadratic decline (P < 0.05) in polysome percentage, while insulin yielded a quadratic increase (P < 0.05). Protein synthesis assays measuring 3H-tyrosine uptake showed similar responses. These changes occurred in the absence of any differences in total RNA concentration. It was concluded that differentiation and the absence of serum in the media reduced the rate of recruitment of ribosomes for protein synthesis. Insulin increased ribosome recruitment which was also observed by a similar increase in incorporation of radio-labeled tyrosine.     

Regulation of Cerebroside and Sulfatide Metabolism in Glia Cells

Mouse oligodendroglioma cells, G-26 clone 20 and 24, contain galactosylceramide (cerebroside) and sulfogalactosylceramide (sulfatide) as determined by an HPLC technique. The synthesis of both these lipids was stimulated by 10(-6) M hydrocortisone (cortisol) and also by the removal of serum from the culture medium. Forty-eight hours after the addition of cortisol the incorporation of H235SO4 into sulfatide, the level of sulfatide and the specific activity of the enzyme 3'-phosphoadenosine 5'-phosphosulfate:galactosylceramide sulfotransferase in the cells increased three- to fourfold. The level of cerebroside and the specific activity of UDP-galactose:hydroxyacyl sphingosine galactosyltransferase also increased threefold in the cells on treatment with cortisol. The effect of the hormone on the synthesis of cerebroside preceded the increase in sulfatide synthesis. Experiments with cycloheximide and actinomycin D showed that the effect of the hormone on glycolipid synthesis in these cells were mediated through de novo messenger RNA and protein synthesis. Removal of serum from the culture medium resulted in an approximately twofold enhancement of H235SO4 incorporation into sulfatide within 24 h. The levels of sulfatide and cerebroside and the specific activity of the galactosyltransferase and sulfotransferase also increased significantly after serum removal. However, in contrast to the effect of the steroid, the sulfotransferase activity and the level of sulfatide increased prior to elevations in galactosyltransferase and cerebroside. The effect of serum removal was also found to be mediated by de novo RNA and protein synthesis. The effects of cortisol and serum removal on the synthesis of cerebroside and sulfatide were strictly additive.     

Additive effect of oestradiol-17 beta and serum on synthesis of deoxyribonucleic acid in guinea-pig endometrial cells in culture.

Normal guinea-pig endometrial cells, grown in primary culture, were made quiescent by serum depletion. Quiescent cells cultured in the control medium (containing 1% fetal calf serum treated with dextran-coated charcoal, DCC-FCS) showed a steady and weak rate of [3H]thymidine incorporation, but the addition of 15% fetal calf serum (FCS) or 10% DCC-FCS to the control medium induced a significant increase of DNA synthesis, demonstrating the responsiveness of the quiescent cells to stimulation. A lower but significant increase in [3H]thymidine incorporation was elicited by epidermal growth factor (EGF, 100 ng/ml) or insulin (10 micrograms/ml) added to the basal medium. Oestradiol-17 beta added to the control medium at concentrations ranging from 10(-10) to 10(-5) mol/l not only failed to increase but even inhibited [3H]thymidine incorporation at the highest concentrations tested. An additive effect was noticed when quiescent cells were incubated with oestradiol-17 beta (10(-9) mol/l) in the presence of 10% DCC-FCS, but no synergistic effect occurred when 2 x 10(-9) mol oestradiol-17 beta/l was combined with either EGF (100 ng/ml) or insulin (10 micrograms/ml). Oestradiol-17 beta appears unable alone to stimulate DNA synthesis in normal endometrial cells, but requires factor(s) present in fetal calf serum.     

Hormonal effects on the biosynthesis of lactate dehydrogenase in rat hepatocytes.

Rat hepatocytes have been studied in suspension culture for 10-h periods. Levels of extractable lactate dehydrogenase (LDH) have been measured in these hepatocytes at hourly intervals in order to note the balance between biosynthesis and degradation of this enzyme. Newly synthesized LDH has been measured by following the rate of incorporation of [3H]leucine into radiochemically pure LDH of high specific catalytic activity as isolated by a rapid affinity chromatographic procedure. The effects of the addition of physiological concentrations of the following hormones at the beginning of 10-h culture periods immediately following preparation of the hepatocytes by the collagen perfusion procedure have been recorded. The hormones triiodothyronine (T3), insulin, glucagon, and dexamethasone have been added singly or in combination. The culture medium has supplied variable amounts of these hormones in the 10% of fetal calf (or other) serum added, and the hepatocytes themselves have provided intracellular amounts of hormones. In addition to the added hormones, N6,O2'-dibutyryl cyclic AMP (Bt2cAMP) has also been studied. Control suspensions of hepatocytes show reproducible initial levels of extractable LDH which are maintained or slightly increased during 10 h. Such control systems also incorporate [3H]leucine into total protein and into highly purified LDH at reproducible rates during 10 h of incubation. The effects of added hormones on LDH lavels are as follows: (a) T3 causes about a 2-fold increase in LDH at 7 to 8 h in hepatocytes from young adult animals, an effect which is lowered in either younger or older animals or in thyroidectomized animals. (b) Insulin leads to a similar increase in LDH at 5 to 6 h and a falling off at 8 to 10 h. (c) Glucagon also causes an approximate doubling of the amount of extractable LDH during a 10-doubling of the amount of extractable LDH during a 10-h period. (d) Dexamethasone does not produce an increase. (e) Bt2-cAMP produces an effect indistinguishable from that of glucagon. Paired combinations of these hormones fail to produce an additive response in any case. The combinations of T3 plus dexamethaseon and insulin plus dexamethasone lead to significant reductions in levels of extractable LDH when compared to the single hormone effects cited above. With respect to rates of synthesis of total protein as measured by [3H]leucine incorporation, only glucagon, glucagon plus Bt2-cAMP, glucagon plus insulin, T3 plus Bt2cAMP, and T3 plus insulin produce significant increases during a 10-h period. However, when [3H]leucine incorporation into highly purified LDH is measured as an index of LDH biosynthesis, T3, insulin, and glucagon consistently increase the biosynthetic rates during a 10-h period. Bt2cAMP produces a smaller increase. Dexamethasone fails to produce any significant change when compared to controls. Paired combinations of hormones again do not produce any additive effect on LDH biosynthesis when the hormone producing the higher level is taken as the reference...     

The growth of mouse melanoma cells in hormone-supplemented, serum-free medium.

A mouse melanoma line, M2R, derived from the B₁₆ transplantable tumor can be grown in a hormone-supplemented serum-free medium. Cells grown in medium supplemented with insulin, transferrin, testosterone (or progesterone), follicle-stimulating hormone, nerve growth factor (NGF) and leutinizing releasing hormone show growth rates equivalent to that seen in medium supplemented with 5% fetal calf serum (FCS). This hormone-supplemented medium will support the growth of cells indefinitely. In cells grown in hormone-supplemented medium, insulin is shown to increase incorporation of glucose into glycogen and fatty acids. Transferrin is shown to act in part as an iron transport protein, although another role in growth stimulation cannot be eliminated. It is suggested that progesterone stimulates growth via an androgenic breakdown product and thus acts in a manner similar to testosterone.     

Growth requirements and long-term subcultivation of bovine granulosa cells cultured in a serum-free medium

Summary We have developed an improved serum-free medium to optimize the cell growth of bovine granulosa cells. The cells on collagen-coated culture plates proliferated extensively in a nutrient medium supplemented with insulin, heparin binding growth factor-2 (HBGF-2), lipoprotein, and bovine serum albumin (BSA). The cell doubling time at logarithmic phase and final cell density at confluent cultures were equal to those of cultures grown in the presence of medium supplemented with optimal concentration (10%) of fetal bovine serum (FBS). Whereas HBGF-2 or insulin alone had a small mitogenic effect of granulosa cells, lipoprotein or BSA did not. When lipoprotein, BSA, or insulin was added together with HBGF-2, synergistic cell proliferation was observed in all combinations. Insulin or lipoprotein had an additive mitogenic stimulation of these cells in the presence of BSA. After granulosa cells were subcultivated in a serum-containing medium until three generations [8.5 cumulative population doubling level (CPDL)], subsequent subcultivation of the cells in a complete serum-free medium could be achieved up to six generations (14.4 CPDL). These results demonstrate that this serum-free medium can support the optimal cell growth and long-term subcultivation of bovine granulosa cells.