Development of pig blastocysts in vitro is altered by serum, bovine serum albumin and amino acids and vitamins

We tested the effects of the amino acids and vitamins in minimum essential medium (MEM) and Eagle's medium (BME) on pig blastocyst development and nuclei number. Embryos were recovered either 5 or 6 d after first detected estrus and were cultured for 96 h in U-bottomed wells (0.2 ml). In Experiment 1, addition of MEM amino acids and vitamins to modified Krebs-Ringer bicarbonate (MKRB) medium containing either bovine serum albumin (BSA, 4 mg/ml) or lamb serum (10%, v/v) resulted in fewer (P<0.001) nuclei and smaller (P<0.05) embryo volumes at the end of culture as compared to embryos cultured in MKRB without MEM-supplements. Addition of MEM-amino acids without glutamine (Experiment II) depressed blastocyst volume and rate of hatching, but glutamine (2 mM) had no effect on embryo development. Dialysis (molecular weight > 12,000 retained) of fetal bovine serum (Experiment III) did not affect blastocyst expansion but reduced (P<0.05) the number of nuclei/blastocyst at the end of the culture. Embryos cultured in MKRB with dialyzed serum and the amino acids and vitamins in BME were smaller (P<0.05) and had fewer (P<0.05) nuclei than embryos cultured in MKRB with dialyzed serum but without the BME-supplements. We conclude that, under our culture conditions, MEM and BME amino acids and vitamins are detrimental to the development of early pig blastocysts and that this effect is not due to glutamine. Also, dialysis of fetal bovine serum removes some component(s) that are important for cell division by pig embryos, but it does not affect blastocyst expansion.     

In vitro development of bovine one-cell embryos: Influence of glucose, lactate, pyruvate, amino acids and vitamins

To elucidate the effect of nutrient substrates on embryo development, in vitro fertilized bovine one-cell embryos were cultured in a medium similar to synthetic oviduct fluid (SOF) but without glucose and containing 3.3 mM lactate, 0.3 mM pyruvate and 3 mg/ml bovine serum albumin (BSA) at 39 degrees C in 5% CO(2) in air. Results indicated that addition of glucose was not only unnecessary, but it also had a deleterious effect on embryo development to the morula stage. Lactate supported embryo development up to the morula stage as well as pyruvate. Supplementation with 20 amino acids contained in basal medium Eagle's (BME) and minimum essential medium (MEM) improved development to the morula stage dramatically and increased the cell number compared with that of the controls. Addition of the vitamins from MEM to SOF had no beneficial effect. The SOF with amino acids did not increase the frequency of blastocysts 7 days after in-vitro fertilization but did increase the total number of cells compared with that of the controls. Frequency of blastocysts at Day 7 in SOF with amino acids was equivalent to that of co-culture although the total cell number was lower. These results demonstrate that a semi-chemically defined medium can successfully support the development of bovine embryos to the morula stage to a limited extent, but the medium lacks some nutrients or growth factors to fully support development through the blastocyst stage.     

Role of the vacuolar apparatus in augmented protein degradation in cultured fibroblasts.

Rat embryo fibroblasts, grown in Eagle's MEM with 10% serum, showed a rapid increase in autophagic vacuoles when placed in MEM with 0-1% serum. Concurrent with this response, degradation of cellular proteins showed a 2-fold increase. We did not find any increases in cathepsin D, beta-glucuronidase, beta-galactosidase, and beta-glucosidase, or proteolytic activity of cell homogenates at pH 3.7 towards endogenous substrates. Homogenates prepared in 250 mM sucrose at pH 7.0 showed a 40% increase in protein breakdown. These data support the hypothesis that the induced increase in proteolysis, characteristic of cells placed in a nutritionally deficient medium, is effected by an activated vacuolar apparatus (lysosomes and autophagic vacuoles). We suggest, however, that this mechanism is distinct from normal protein turnover in the cell, but can be rapidly induced by appropriate alterations in the cellular environment. Finally, this induced proteolytic mechanism is not dependent upon an increase in lysosomal enzymes, but rather a structural alteration within the cell which effects a transfer of cellular proteins into the vacuolar apparatus.     

Effects of sugars on melanogenesis in cultured melanoma cells.

A permanent cell line C2M of mouse melanoma B16 was highly melanized in a modified Eagle's MEM supplemented with 10% calf serum, when the medium contained 1 mM galactose and 10 mM pyruvate instead of 5.5 mM glucose. The activity of the key anzyme for melanogenesis, tyrosinase (EC 1.14.18.1), of living cells cultured in the galactose-pyruvate medium was consistently 27 times higher than that of cells in normal MEM. This high level of tyrosinase activity was maintained in the stationary phase, in contrast to the activity of cells in normal medium, which decreased sharply in the stationary phase. It seems likely that tyrosinase activity is suppressed by the presence of glucose rather than stimulated by galactose. This modified medium should be useful obtaining a high level of tyrosinase activity in living cells in culture and in cell-free extracts.     

Requirement of serum components for the preservation of primordial germ cells in testis cords during early stages of testicular differentiation in vitro in the mouse

Mouse gonadal primordia were isolated from embryos on the 11th day of gestation and cultured in vitro. They developed into either testes or ovaries after 7 days of culture in Eagle's minimum essential medium (MEM) supplemented with horse serum, whereas they did not differentiate in MEM alone. We studied how serum components are required for testicular development in vitro. When gonadal primordia were cultured in MEM alone for the first 1-3 days and subsequently in MEM supplemented with serum, testis cords developed while germ cells disappeared or only a few remained in the testis cords. In contrast, when serum was present in the medium during the first day of culture and omitted thereafter, germ cells were retained within testis cords. These results suggested that some serum component(s) is specifically required by germ cells independent of testis cord organization. Of more than 10 serum components tested, low and very low density lipoprotein fractions increased the number of germ cells in testicular explants.     

Effect of growth factors on the differentiation of chick precardiac mesoderm in vitro

We have found that precardiac mesoderm extirpated from chicken blastoderm at stage 5 fails to differentiate into beating tissue when cultured in Eagle's minimum essential medium (MEM), while it can pulsate provided either the endoderm is present or serum is added to the MEM. To identify the factor(s) which influence early myocardial differentiation, we examined the effect of insulin-like growth factor 1 (IGF-1), activin A and basic fibroblast growth factor (bFGF). All these growth factors showed a stimulating effect on myocardial differentiation and it is conceivable that these factors exhibit the same effect in vivo. Correspondence to: Y. Yamazaki     

Effects of dibutyryl cyclic AMP and prostaglandin E1 on cultured human glioma cells

Dibutyryl cyclic AMP (db-cAMP) and prostaglandin E₁ (PGE₁) induced morphological alterations in cultured human glioma cells (138 MG). Cells in serum-free medium, treated with db-cAMP (1 mM) or PGE₁ (10μg/ml), within 1–3 h showed multiple thin processes resembling those of normal glial cells. These processes increased in size during a 24 h incubation. In serum-containing medium the appearance of cells with multiple processes was delayed. The induced morphological alterations were reversible upon exchange with fresh serum-containing but not with serum-deprived medium. Actinomycin D (5 μg/ml) did not prevent the changes induced by PGE₁ or db-cAMP. Inhibition of protein synthesis with cycloheximide (10 μg/ml) did not arrest the initial (1–3 h) changes in morphology but blocked further growth of the processes on prolonged incubation. Vinblastine sulphate (0.1 μg/ml) completely inhibited the alterations induced by PGE₁ or db-cAMP.     

Qualitative and quantitative analysis of erythrocyte surface membrane sialyl residues using affinity cytochemistry with special reference to diabetic patients

The adenocarcinoma produced by transplantation into nude mice of a neoplastic human salivary intercalated duct cell line was treated with 0.1 ml of minimal essential medium (MEM) containing dibutyryl cyclic AMP (dB-cAMP) at a final concentration of 1 mM daily for 28 days and examined morphologically and immunohistochemically. The dB-cAMP treatment resulted in a marked suppression of tumor growth. In addition, tumor nests with a myoepithelial cell phenotype characterized by the presence of microfilament systems reactive with antimyosin and anti-S-100 protein sera were often observed in the treated tumors, but not in untreated controls. These findings lead us to suggest that neoplastic intercalated duct cells can be induced to differentiate into myoepithelial cells and that levels of cAMP within the cells may regulate this cytodifferentiation.     

Insulin and glucose-dependent regulation of the glucose transport system in the rat L6 skeletal muscle cell line

Differentiated rat L6 skeletal muscle cell cultures maintained in glucose-deficient medium containing 25 mM xylose displayed a rapid, reversible, time- and concentration-dependent 3-5-fold increase in glucose transport activity. Glucose deprivation in the continuous presence of insulin (24 h) resulted in an overall 9-10-fold stimulation of glucose transport activity. In contrast, acute (30 min) and chronic (24 h) insulin treatment of L6 cells maintained in high glucose (25 mM)-containing medium resulted in a 1.5- and 4-fold induction of glucose transport activity, respectively. Acute glucose deprivation and/or insulin treatment had no significant effect on the total amount of glucose transporter protein, whereas the long-term insulin- and glucose-dependent regulation of glucose transport activity directly correlated with an increase in the cellular expression of the glucose transporter protein. In situ hybridization of the L6 cells demonstrated a 3-, 4-, and 6-fold increase in glucose transporter mRNA induced by glucose deprivation, insulin, and glucose deprivation plus insulin treatments, respectively. Similarly, Northern blot analysis of total RNA isolated from glucose-deprived, insulin, and glucose-deprived plus insulin-treated cells resulted in a 4-, 3-, and 9-fold induction of glucose transporter mRNA, respectively. The continuous presence of insulin in the medium, either in the presence or absence of glucose, resulted in a transient alteration of the glucose transporter mRNA. The relative amount of the glucose transporter mRNA was maximally increased at 6-12 h which subsequently returned to the basal steady-state level within 48 h. These data demonstrate a role for insulin and glucose in the overall regulation of glucose transporter gene expression which may account for the alteration of glucose transporter activity of muscle tissue observed in pathophysiological states such as type II diabetes mellitus.     

Growth factors and hyperthermia. II. Viability of Chinese hamster ovary HA-1 cells during serum starvation and hyperthermia

We tested the possibility that hyperthermia kills HA-1 cells in a manner analogous to growth factor deprivation. HA-1 cells were inactivated by serum starvation when incubated in Eagle's MEM at a density of 40 cells/cm2 or less. Cells became resistant to the absence of serum when the cell density was greater than 400 cells/cm2 or when lethally irradiated HA-1 feeder cells were present. The feeder cells exerted their effect through a diffusible factor. In addition, a 1:1 mixture of Eagle's MEM and Ham's F-12 enabled HA-1 cells to remain viable without serum. Ten days growth in Eagle's MEM + Ham's F-12 without serum resulted in the formation of microcolonies of cells. This indicated that growth factor deprivation was not lethal to HA-1 cells, and it suggested that they may have been partially transformed. The presence of the growth factors insulin, transferrin, and fibroblast growth factor (FGF) reduced cell killing by a small amount during conditions of serum starvation. After hyperthermia, the presence of growth factors again diminished cell killing by a modest amount (approximately twofold). Feeder cells also improved cell survival after hyperthermia. The effect of feeder cells was greatest when cells were trypsinized immediately after hyperthermia. When cells were not trypsinized after heating, feeder cells increased survival less than twofold. In summary, the absence of growth factors was not lethal to HA-1 cells, and therefore the cytotoxic effects of hyperthermia could not be explained fully by the failure to bind growth factors. HA-1 feeder cells secreted undefined, growth-promoting substances, but feeder cells exerted only a small positive effect on cell survival after hyperthermia when cells were not trypsinized after heating.     

Effects of pH and type of sugar in the medium on tyrosinase activity in cultured melanoma cells.

The tyrosinase (EC 1.14.18.1) activity of cultured mouse melanoma cells B16 in the stationary phase of growth, depends greatly on the pH of the medium and the kind of sugar present. The enzyme activity of a homogenate of cells grown at pH 7.2 in Eagles's MEM supplemented with 10% new born calf serum and con taining galactose in place of glucose, was about ten times that of a homogenate of cells cultured at pH 6.3 in the same medium. The tyrosinase activity changed reversibly on changing the pH of the culture medium. When cultured at a constant pH of 7.2, cells grown with 1 mM galactose had about five times higher tyrosinase activity than cells grown with 1 mM glucose. Only a small amount of lactate accumulated in cultures with glucose and it had little effect on the enzyme activity. These two findings explain the very low tyrosinase activity of cells cultured in medium with 5 mM glucose: the low activity is due to the presence of glucose and to the low pH resulting from conversion of glucose to lactic acid.     

Apoptosis of serum-free C2.8 mouse embryo hepatocytic cells caused by hepatocyte growth factor deprivation

C2.8 mouse embryo hepatocytic cells, acutely required exogenous hepatocyte growth factor (HGF) to survive and proliferate in serum-free Dulbecco's modified Eagle's medium supplemented with insulin, transferrin and Na-selenite. Greater than 90% of cultured C2.8 cells died within 48 hours from plating in the absence of HGF. Conversely, HGF prolonged maintenance of life and stimulated cell proliferation. Removal of HGF from the medium of cultures that had grown to confluency, also resulted in a rapid decreased cell survival. In the last circumstance, light microscopic observations revealed, with high frequency, morphological features characteristic of apoptosis. DNA within the affected cells underwent rapid fragmentation, revealed as a ladder of DNA fragments in multiples of about 200 base pairs. HGF prevented loss of cell viability, morphological damages and retarded DNA fragmentation in confluent C2.8 cells. Cycloheximide delayed cell death caused by HGF deprivation.     

Cell cycle progression delay in conditioned medium does not play a role in the repair of X-ray damage in Chinese hamster V79 cells

We tested our hypothesis that the lower survival of X-irradiated cells in growth medium (GM) relative to that in conditioned medium (CM) is due to differences in nutrient concentration levels rather than to differential effects on cell progression and growth. Chinese hamster V79 cells in log and unfed plateau phase, grown in Eagle's minimal essential medium (MEM) with 15% serum (100% GM), were irradiated. Before plating, cells were incubated in situ in various concentrations of MEM with serum (GM, normal cell progression) or MEM without serum or in CM (no cell progression). Cell survival was the lowest in 100% MEM with or without serum and increased with the decrease in MEM and serum concentrations, reaching a plateau in 40% MEM or 40% growth medium (40% MEM with 6% serum), similar to that in conditioned medium. Growth kinetics was the same in 40 and 100% growth medium, but the D0 of cells in 40% growth medium was higher than that of cells in 100% GM. Similarly, the D0 of cells in 40% MEM was higher than that of cells in 100% MEM, although cell progression was absent in both media. The radiation sensitivity of cells was the same in 40% GM with progression and in 40% MEM and CM with no progression. Cells in low-nutrient media were flatter than those in 100% MEM or GM. There was a correlation between the nutrient concentration in the medium postirradiation and the D0. This correlation was independent of the presence or absence of serum and thus independent of cell cycle progression. The cell morphology which is dependent on the nutrient concentration appears to influence the ability of a fraction of cells to repair their radiation damage.     

UDP-galactose inhibition of BALB/3T12-3 cell growth : Requirement for medium galactosyltransferase activity

Incubation of BALB/3T12-3 cells with uridine diphosphate galactose (UDP-gal) resulted in a concentration-dependent inhibition of cell growth when cells were cultured in calf serum-supplemented Dulbecco's modified Eagle medium (CS-DMEM). Cell growth was completely inhibited by 5 mM UDP-gal with an ID₅₀ of 0.75 mM. This inhibitory effect was reversible. Other nucleotide-sugars, as well as galactose, glucose, and galactose-1-phosphate had no effect on cell growth. UDP-gal had no effect on cell growth when cells were cultured in heat-inactivated calf serum containing DMEM (HICS-DMEM) suggesting that a serum enzyme activity was responsible for the inhibition observed in CS-DMEM. No significant difference could be detected by descending chromatography in the degradation of UDP-gal during 96 h of incubation in CS-DMEM and in HICS-DMEM. Furthermore, the potential breakdown products of UDP-gal had no effect on cell growth when added directly to 3T12 cultures. When cells were incubated with 5 mM UDP-gal+5 mM CDP-choline (a potent inhibitor of pyrophosphatase activity), complete inhibition of cell growth was still observed. However, if cells were incubated with 5 mM UDP-gal+UDP (which inhibited calf serum galactosyltransferase activity), no inhibition of cell growth was observed over that found for UDP alone, suggesting that galactosyltransferase and not pyrophosphatase activity mediated the effect of UDP-gal on cell growth. A direct effect of UDP-gal on cells was suggested by (a) normal growth of cells in UDP-gal-conditioned medium (preincubated with UDP-gal for 24 h followed by dialysis to remove UDP-gal); (b) 3-fold greater incorporation of [³H]galactose from UDP-[³H]gal into cells grown in CS-DMEM than in HICS-DMEM. These studies suggest that the inhibition of 3T12 cell growth by exogenous UDP-gal may be due to alteration of cell surface glycoconjugates by extracellular galactosyltransferase activity.     

Chinese hamster ovary cells cultured in low concentrations of fetal bovine serum: cloning efficiency, growth in suspension, and selection of drug-resistant mutant phenotypes

Reducing serum concentrations in media provides a potential cost advantage. To determine whether such media could be used for applied mutagenesis assays, we measured cloning efficiency and growth parameters in suspension of Chinese hamster ovary cells cultured in reduced serum with or without additives (1 microgram/ml insulin, 3 X 10(-7) M linoleic acid, 1 X 10(-8) M H2SeO3) or bovine serum albumin (BSA, 1% wt/vol). With the additives and less than or equal to 0.5% fetal bovine serum (FBS), Ham's F12 medium (without hypoxanthine and thymidine) was more optimal than alpha Eagle's minimum essential medium (MEM) (without ribosides and deoxyribosides) for low density cloning and high density suspension growth. Acceptable cloning efficiencies were obtained with 2% FBS plus BSA without additives in either medium; the addition of BSA resulted in improved colony size and more compact colony morphology. In alpha MEM, satisfactory growth rates and maximum saturation densities in suspension culture were obtained only with 5% FBS; in Ham's F12, 1% FBS + deoxycytidine + BSA yielded satisfactory suspension growth. Spontaneous mutant frequencies were compared for each medium containing 10% dialyzed FBS (DFBS), 1% FBS plus BSA, or 2% FBS plus BSA. The spontaneous frequency of azaadenine-resistant phenotypes (mutant at the aprt locus) in 1% FBS plus BSA was significantly lower than the frequency observed in 2% FBS plus BSA or 10% DFBS. Frequencies of spontaneous mutants resistant to thioguanine (hgprt locus) or fluorodeoxyuridine (tk locus) were similar with 10% DFBS, 1% FBS plus BSA, or 2% FBS plus BSA. Compared to alpha MEM with 10% DFBS, frequencies of drug-resistant mutants induced by ethyl methanesulfonate or mitomycin C (MMC) were not significantly lower in alpha MEM with 2% FBS plus BSA; observed mutant frequencies induced by dimethylnitrosamine or benzo(a)pyrene seemed to be decreased at lower survival levels.     

The relative contribution of somatomedin to the serum-stimulated growth of human fibroblasts

Culture conditions were defined allowing to demonstrate a stimulatory effect of both serum-contained and purified Somatomedin activity on incorporation of [3H]thymidine and replication of cultured normal human fibroblasts. The use of dialyzed human serum in MEM medium supplemented by 0.2 mM serine offered the necessary and sufficient culture conditions. A significant difference between normal and hypopituitary patients sera was found in their effect on the rate of [3H]thymidine incorporation (p < 0.0001) and on cell replication (p < 0.01). Purified Somatomedin-C, in MEM without serum, is a poor mitogen. Its activity was strongly enhanced by the addition of 0.1 % dialyzed serum and 0.2 mM serine without, however, exceeding the stimulatory level of 1 % whole normal serum. The requirement of concomitant presence, for optimal $\text{in}\text{vitro}$ cell growth, of different low and high MW serum components is discussed.     

Apoptosis induced by hydrogen peroxide under serum deprivation and its inhibition by antisense c-jun in F-MEL cells

Under serum deprivation F-MEL cells die by apoptosis. We previously showed that apoptosis induced by serum deprivation was suppressed by inhibition of c-jun expression using antisense c-jun transfected cell line, c-junAS. To elucidate the underlying mechanisms we examined the species which is responsible for apoptosis under serum deprivation. When catalase and N-acetyl-L-cysteine (NAC) were included in the medium, cell death under serum deprivation was effectively suppressed in F-MEL cells. Intracellular generation of hydrogen peroxide (H(2)O(2)) was also detected under serum deprivation in parental F-MEL cells, but it was suppressed in c-junAS (+) cells, in which antisense c-jun was expressed and c-Jun protein expression was inhibited as shown by Western blot. When H(2)O(2) was directly applied to F-MEL cells at 3 mM, apoptotic cell death was induced, whereas it was suppressed in c-junAS (+) cells. Induction of apoptosis by H(2)O(2) and its inhibition by antisense c-jun was confirmed by detection of internucleosomal fragmentation of DNA, TdT-mediated dUTP nick end labeling (TUNEL)-positive cells and morphological alteration of nuclei. These results indicate that apoptosis induced by serum deprivation in F-MEL cells is mediated by H(2)O(2) and c-jun expression is essential to apoptosis induced by H(2)O(2) in F-MEL cells.     

Insulin release from BK virus-induced and in vitro maintained insulinoma cells of Syrian golden hamster

The pancreatic tumor cells (In 111) derived from BK virus-induced insulinoma of Syrian golden hamsters were maintained in culture for several passages and were studied for their insulin secretory ability under various stimulatory conditions. Insulin release was not increased by D-glucose stimulation (27.8 mM), while dibutyryl cyclic AMP (1 mM), theophylline (1 mM), 3-isobutyl-l-methylxanthine (0.1 mM) and elevation of medium calcium from 0.5 to 2.7 mM stimulated insulin release 2.5- to 4-fold. There was a concomitant increase of medium cyclic AMP with addition of theophylline. Streptozotocin (2 mM) treatment for 48 hours significantly reduced insulin release, while alloxan (2 mM), had no inhibitory effect on insulin release. The results indicate that while in vitro-maintained islet tumor cells, In 111, have a cyclic AMP-mediated process involved in insulin secretion analogous to normal beta cells, these cells lack the ability to recognize glucose as an insulin secretagogue probably due to a defect in the cell membrane, though the possibility of alteration in glucose metabolism cannot be fully excluded.     

Effect of insulin, thyroxine and oestradiol on growth of normal human diploid cells and human heteroploid HeLa cells

Insulin (5 micrograms/ml), thyroxine (1 microgram/ml) and beta-oestradiol (0.1 microgram/ml), if added separately to the medium, did not significantly influence the growth of normal human diploid LEP 19 cells cultivated in Eagle's MEM medium with 1% foetal calf serum. Combined, they did not influence the growth of LEP 19 cells in serum-free MEM medium either. Under the same cultivation conditions, insulin caused 37%, thyroxine 24% and a mixture of insulin, thyroxine and beta-oestradiol 325% (without serum) or 15% (with 1% foetal calf serum) stimulation of the growth of human heteroploid HeLa cells. Isolated beta-oestradiol significantly inhibited the growth of HeLa cells.