Parenchymal cells purified from Xenopus liver and maintained in primary culture synthesize vitellogenin in response to estradiol-17 beta and serum albumin in response to dexamethasone.

Xenopus liver was disaggregated by perfusion with collagenase. The released cells were separated according to their equilibrium densities on gradients of Metrizamide. Highly purified populations of parenchymal cells, sinusoidal cells, and melanocytes were obtained. All the parenchymal cells in an animal, before, during, and after hormone stimulation, are contained within a single density peak and subpopulations are not observed. Normal female parenchymal cells are less dense than normal male cells and estrogen stimulation causes a decrease in the peak density of the parenchymal cell population. Electron microscopic examination revealed the appearance and disappearance of lipid vacuoles in parenchymal cells following estrogen treatment. We hypothesize that the changing lipid content of these cells accounts for the shift in cell density. Immunofluorescent staining revealed that all liver parenchymal cells contain either vitellogenin or serum albumin, depending upon the prior treatment with hormones in vivo. Primary cultures of purified parenchymal and sinusoidal cells were established and were found to secrete different sets of proteins. The addition of estradiol-17β to cultures of parenchymal cells from either male or female frogs induces the synthesis and secretion of vitellogenin and two other polypeptides. Furthermore, the synthesis and secretion of polypeptides normally produced by parenchymal cells are curtailed as a result of estrogen treatment. Addition of glucocorticoids to a similar population of cells produces an increase in the synthesis and secretion of polypeptides, one of which is serum albumin. These results demonstrate that every parenchymal cell is responsive to two different classes of steroid hormones, estrogens and glucocorticoids, and in response to these hormones the same cells can synthesize and secrete alternate sets of polypeptides.     

Thyroid hormones are corequisites for estradiol-17β in vitro induction of Xenopus vitellogenin synthesis and secretion

Estradiol-17β administered to male frogs induces liver synthesis and secretion of vitellogenin, the precursor protein of the major egg yolk proteins. Estradiol-17β alone failed to induce this protein in cultures of liver tissue maintained for 1–2 weeks prior to addition of the hormone. If a “complex” defined culture medium, such as Coon's modified Ham's F12 medium, is used, efficient primary and secondary induction of vitellogenin synthesis and secretion occurs in the presence of estradiol-17β, triiodothyronine, and dexamethasone. Using Coon's medium we investigated the role of both triiodothyronine and dexamethasone as corequisites of estradiol-17β induction of secreted vitellogenin. Control cultures given no hormones showed a gradual decrease in the level of secreted albumin and fibrinogen. Addition of dexamethasone, alone, induced increased synthesis of secreted albumin and fibrinogen as well as other proteins. Cultures given thyroid hormones, alone, showed an increased level of secreted albumin and fibrinogen at early time points in the culture period. Thus, at early times thyroid hormones appear to enhance the activity of endogenous glucocorticoids. Independent of their interaction with glucocorticoids, thyroid hormones also enhance the activity of estrogens. Long-term cultures given estradiol-17β, alone, failed to synthesize and secrete vitellogenin. In contrast, cultures given the estrogen together with thyroid hormones showed vitellogenin synthesis. These results imply that similar interactions of several hormones occur in vivo in adult animals treated with estrogens. In the accompanying paper the interaction of dexamethasone with estradiol-17β and triiodothyronine is described (L. J. Wangh, 1982, Develop. Biol.89, 294–298).     

Albumin synthesis and secretion by isolated morphologically characterized avian hepatic parenchymal cells

Cell suspensions were prepared from rooster liver by sequential perfusion with EGTA (ethyleneglycol-bis-(β-aminoethyl ether) N,N′-tetraacetic acid) and collagenase. Tissue morphology during disaggregation showed the appearance of discrete intercellular spaces in response to EGTA perfusion. This effect apparently permits the collagenase greater access to the liver cells and accounts for the greater cell yields obtained with the sequential procedure. The cell suspensions contained 95% parenchymal cells, and the enrichment for parenchymal cells was found to occur at two stages in the disaggregation procedure. Parenchymal cells remain viable in suspension culture for several hours and continue to synthesize and secrete serum albumin. Analysis of albumin secretion shows a minimum processing time of 30 min. between synthesis and secretion while intracellular albumin attains an apparent steady state after approximately 100 min. of labeling with [³H]-leucine. These studies indicate that rooster parenchymal cells can be used to examine the processing and secretion of proteins by a cell committed to the constitutive secretion of multiple protein products.     

Cultured trout liver cells: Utilization of substrates and response to hormones

Summary The characterization of a recently established system for the short-term culture of rainbow trout (Oncorhynchus mykiss) liver cells in chemically defined medium has been extended to studies on the metabolic competence of the cells and the characterization of their response to hormones. Three areas of metabolism have been addressed: a) the utilization of the exogenously added substrates fructose, lactate, glucose, dihydroxyacetone, and glycerol for glucose and lactate formation; b) the effects of the pancreatic hormones insulin and glucagon on cellular glucose formation, lactate formation, and fatty acid synthesis; and c) the effects of insulin and dexamethasone on the estradiol-dependent production of vitellogenin. Incubation of trout liver cells with fructose, lactate, glucose, dihydroxyacetone, or glycerol resulted in enhanced rates of cellular glucose and lactate production. Substrate-induced effects usually were more clearly expressed after extended (20 h) than after acute (5 h) culture periods. Addition of the hormones insulin or glucagon caused dose-dependent alterations in the flux of substrates to glucose and lactate. Rates of de novo synthesis of fatty acids from [¹⁴C]acetate were stimulated by insulin and inhibited by glucagon during acute and extended incubation periods. Treatment of liver cells isolated from male trout for 72 h with estradiol induced vitellogenin production and secretion into the medium. However, the addition of insulin or dexamethasone drastically reduced this estrogen-induced vitellogenesis. These results indicate that trout liver cells cultured in defined medium maintain central metabolic pathways, including glycolysis, gluconeogenesis, lipogenesis, and vitellogenesis as well as their responsiveness to various hormones, for at least 72 h. This cell culture system should provide an excellent model to further characterize metabolic processes in fish liver.     

Identification of novel, stage-specific polypeptides associated with the differentiation of mammary epithelial stem cells to alveolar-like cells in culture

A linear pathway of morphologically intermediate cells has been identified between the cuboidal epithelial stem cells and the doming alveolar-like cultures of the cell line Rat Mammary (Rama) 25 in the order: cuboidal----grey----dark----dark droplet cell----doming cultures. The overall process can be accelerated by dimethyl sulfoxide (DMSO) or retinoic acid (RA) in the presence of mammotrophic hormones. From 400-450 [35S]methionine-labeled polypeptides that are routinely separated by two-dimensional gel electrophoresis approximately only 3% change during this process. As the Rama 25 cultures become confluent, three polypeptides of molecular weights (MW) 35 kD (pl = 7.7), 45 kD (pl = 7.5) and 33 kD (pl = 7.7) increase dramatically in radioactive abundance. These increases correspond to increases in numbers of grey cells for the 35 kD polypeptide, to increases in numbers of dark cells together with increases in peanut lectin-binding-ability for the 45 kD polypeptide, and to increases in the numbers of dark cells and in the numbers of droplet cells for the 33 kD polypeptide. After treatment with DMSO, RA or in spontaneously doming cultures, a second set of four polypeptides of MW 26 kD (pl = 5.9), 27 kD (pl = 6.2), 30 kD (pl = 7.2), and the same 33 kD polypeptide as above increase with the increase in numbers of droplet cells, domes, and increase in casein secretion. A variant of Rama 25, Rama 259, which fails to produce droplet cells, domes, or to secrete casein with DMSO and hormones also shows the same changes in the first set but not in the second set of polypeptides. The elongated, myoepithelial-like cell line derived from Rama 25, Rama 29, which cannot undergo any of the above intercellular conversions, fails to show changes in any of these polypeptides. Major changes in radioactive polypeptides have been confirmed for nonradioactive polypeptides and for polypeptides labeled for 4 hr with [35S]methionine. The synthesis of these novel polypeptides thus marks specific morphological stages of the differentiation of mammary epithelial stem to alveolar-like cells in culture, and as such may mark similar differentiation stages in vivo.     

An estrogen responsive primary amphibian liver cell culture system

Amphibian hepatocytes have been prepared in both high yield and purity using a collagenase perfusion technique. The isolated cells attach efficiently in serum-free medium to collagen-coated culture dishes and subsequently form monolayers. These cultures can be maintained in an appropriate medium for over one week with minimal cell loss. The nuclear labelling index of cells exposed to [³H]thymidine indicates a very low level of cell growth. Twenty-four hour exposure to dexamethasone induces tyrosine aminotransferase activity throughout the culture period. Monolayers incorporate [³H]leucine linearly into acid-insoluble material with approx. 40% of all synthesis devoted to secreted protein. Polyacrylamide gel electrophoresis of proteins in the presence of sodium dodecyl sulfate shows the majority of proteins present in whole serum are synthesized and secreted by the cultured hepatocytes. The absolute rate of protein secretion on the first day of culture is approx. 73 μg/day/mg cell protein which subsequently declines and plateaus at 30% of this level by the 4th–5th day of culture. However, when hepatocytes are cultured in the continued presence of insulin, the drop in protein secretion is completely inhibited.Cultures of hepatocytes isolated from female frogs and subsequently exposed to 17-B estradiol in culture, synthesize and secrete the egg-yolk protein precursor vitellogenin. The protein initially appears as a minor component in the medium 1–2 days after hormone addition. Its rate of synthesis, relative to other secreted proteins, increases with time so that it ultimately constitutes the majority of protein being exported after 6 days of treatment. Parallel with vitellogenin induction is an increase in rate of total protein secretion reaching a 2-fold increase at maximal stimulation.The results show that viable, monolayer cultures of amphibian hepatocytes can be prepared which retain the ability to respond directly to added estrogen by synthesizing vitellogenin.     

Regulation of the synthesis and secretion of transferrin and cyclic protein-2/cathepsin L by mature rat Sertoli cells in culture.

While numerous studies have examined the response of immature rat Sertoli cells to specific hormones and growth factors, the regulation of mature cells in vitro has not been well examined because highly purified cells have been difficult to isolate. We now describe a detailed method for isolating Sertoli cells from mature (> 60 days of age) rats and generating primary cultures of these cells greater than 90% in purity. We demonstrate that cell density, hormones, and growth factors regulate the synthesis or secretion of two Sertoli cell products, transferrin and Cyclic Protein-2 (CP-2)/cathepsin L. Cell density modulated the response of mature Sertoli cells to some hormones; insulin (at 10 micrograms/ml) and epidermal growth factor (EGF) acted synergistically to stimulate transferrin synthesis by 80% when cells were cultured at a density of 1.65 x 10(5) cells/cm2 but had no effect on transferrin synthesis by cells cultured at 1.46 x 10(5) cells/cm2. A mixture of FSH, retinol, and testosterone increased transferrin synthesis by 30% at both cell densities, and this stimulation was independent of the effect of EGF and insulin. CP-2/cathepsin L synthesis was significantly stimulated by increased cell density. FSH, retinol, and testosterone also stimulated CP-2/cathepsin L synthesis by 30%; however, this stimulation just missed being statistically significant. Finally, we demonstrated that secretion of transferrin and CP-2 was reduced when cells were cultured in the presence of interleukin-1 alpha, a cytokine synthesized by Sertoli cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of ethanol, alone and in combination with the glucocorticoids and insulin, on glucose-6-phosphate dehydrogenase synthesis and mRNA in primary cultures of hepatocytes.

The hormonal regulation of the relative rate of synthesis and mRNA of glucose-6-phosphate dehydrogenase (G6PDH; EC 1.1.1.49) was studied in primary cultures of adult-rat liver parenchymal cells maintained in a chemically defined medium. Maintenance of hepatocytes from starved animals in a culture medium devoid of any hormones resulted in a 4-fold increase in the relative rate of G6PDH synthesis in 48 h. Parallel cultures treated with glucocorticoids alone exhibited a rate of G6PDH synthesis comparable with that in the control cultures, whereas insulin alone caused a 6.5-fold increase in the rate of synthesis in 48 h. However, if the cultures were treated with glucocorticoids and insulin simultaneously, a 13-fold increase in the rate of synthesis was observed. The effect of ethanol, alone and in combination with the hormones, on the relative rate of G6PDH synthesis was studied also. Ethanol alone caused an 8-fold increase in the rate of synthesis in 48 h, whereas the combination of ethanol, glucocorticoid and insulin caused a 25-fold increase. The amount of functional mRNA encoding G6PDH, as measured in a cell-free translation system, was compared with enzyme activity and relative rate of enzyme synthesis. The increases in G6PDH activity and relative rate of synthesis in primary cultures of hepatocytes treated with ethanol, alone and in combination with the glucocorticoids and insulin, were paralleled by comparable increases in G6PDH mRNA. The results of this study show that the glucocorticoids acted in a permissive manner to amplify the insulin stimulation of G6PDH synthesis and that insulin, glucocorticoids and ethanol interact to stimulate synthesis of G6PDH primarily by increasing the concentration of functional G6PDH mRNA.     

The Relationship of the Estrogen Receptor to the Induction of Vitellogenin in Chicken and Xenopus Liver

The mechanisms involved in the regulation of gene expression in eukaryote cells, although an area of active research, are still largely unknown. This is at least partly due to the lack of good experimental model systems. One type of system which is being exploited with some considerable success is the induction of proteins by steroid hormones. Studies on the effects of estrogen and progesterone on the synthesis of the egg white proteins in the chick oviduct, for instance, have yielded substantial insight into both the regulation of protein synthesis by steroid hormones [1] and the arrangement of the DNA sequences coding for these proteins [2, 3].
The need for other good inducible systems clearly exists and the induction of vitellogenin, the precursor of the major egg yolk proteins, by estrogen in the livers of the chicken and frog ( Xenopus laevis ) is one that is attracting increasing interest. In common with the chick oviduct, large amounts of a specific protein are synthesised in response to a well defined hormonal stimulus. However, the induction of vitellogenin also has the advantage that the response is not complicated by the extensive hyperplasia that follows estrogen treatment in the chick oviduct [4, 5] and that vitellogenin may be induced in vitro [6–11].
The aims of this review are first to discuss recent data on the induction of vitellogenin and vitellogenin mRNA both in vivo and in vitro and then to relate this data to the properties of the estrogen receptor, present in chicken and Xenopus liver, which is thought to mediate the induction of vitellogenin by estrogen.     

Localization of vitellogenin and serum albumin in hepatic parenchymal cells of normal and estradiol-treated immature chickens

The localization of albumin and vitellogenin was determined in liver sections from control and estradiol-treated chickens by two different immunocytochemical techniques: (1) The sandwich technique with rabbit anti-lipovitellin or rabbit anti-albumin IgG and fluorescent goat anti-rabbit IgG and (2) the mixed aggregation immunocytochemical technique with anti-lipovitellin IgG and fluorescent lipovitellin.The results show that the antibody against albumin bound only to all liver parenchymal cells. Furthermore, the fluorescence intensity was equally strong in the portal, intermediate and central zones of the lobules.The fluorescent stain for vittelogenin was not above background in livers of control chicks but was far above background in estradiol-treated chicks. As with albumin the fluorescent stain was distributed equally among the parenchymal cells.The results were quantitatively the same 2 and 4 days after estradiol treatment. The relative rates of synthesis and the concentrations of albumin and vitellogenin correlate well with values obtained for tissue sections by immunocytochemical techniques.     

Estrogen-dependent DNA synthesis and parenchymal cell proliferation in the liver of adult male Xenopus frogs

Estradiol-17 beta treatment of adult male Xenopus laevis induces liver parenchymal cells to synthesize DNA and proliferate. DNA synthesis begins 3 to 4 days after estrogen treatment and continues for approximately 10 days. Over this 2-week period, the total number of liver parenchymal cells increases fourfold, the wet weight of the liver remains constant, and there is a 50% reduction in cell volume. The elevated number of cells persists for several months and then returns to the control value. The extent of proliferation is hormone dose dependent. Pulse-chase experiments demonstrate that as a result of hormone treatment a minority of the parenchymal cells in the initial population enter the cell cycle, and via repeated divisions become the majority (79%) of the population by Day 14. The implications of this phenomenon for estrogen-induced liver cell differentiation and vitellogenin gene function are discussed.     

Hormonal regulation of vitellogenin genes: an estrogen-responsive element in the Xenopus A2 gene and a multihormonal regulatory region in the chicken II gene

Expression of the vitellogenin genes in avian and amphibian liver is regulated by estrogens. The DNA elements mediating estrogen induction of the various vitellogenin genes of chicken and Xenopus encompass one or more copies of a 13-mer palindromic sequence called the estrogen-responsive element (ERE). Here we show that upon incubation with the purified estrogen receptor (ER) from calf uterus the Xenopus vitellogenin A2 gene yields a DNase-I footprint over the ERE between -331 and -319. This element does not mediate the response to glucocorticoids or progestins in T47D cells. The three guanine residues in each half of the palindrome are protected against methylation by dimethylsulfate after incubation with ER, but not with glucocorticoid (GR) or progesterone (PR) receptors. In contrast, the chicken vitellogenin II gene exhibits multihormonal regulation by estrogens, progestins, and glucocorticoids in T47D and MCF7 cells. Regulation is mediated by the DNA region between -721 and -591 that contains four binding sites for hormone receptors, as demonstrated by DNase-I footprints and methylation protection experiments. The two distal and most proximal binding sites are recognized by ER, GR, and PR, whereas the central binding site is only bound by ER and GR. At suboptimal concentrations, estrogens and progestins or glucocorticoids act synergistically. In experiments using a DNA fragment containing an ERE adjacent to a glucocorticoid-responsive element/progesterone-responsive element, ER and PR bind synergistically to their corresponding sites, perhaps explaining the functional synergism of both hormones. Thus, two very different regulatory elements are used to mediate estrogen induction of related genes in chickens and amphibians.     

Inhibition of synthesis of alpha-fetoprotein by glucocorticoids in cultured hepatoma cells

alpha-Fetoprotein (AFP) synthesis was studied in the presence and absence of glucocorticoids in rat hepatoma Mc-A-RH-7777 cells. Radioimmunoassay of media from cell cultures grown in the presence of glucocorticoid (dexamethasone or cortisol) showed a reduction in AFP, an increase in albumin, and no significant change in transferrin accumulation, as compared to controls. Labeling experiments with L-[35S]methionine indicated that in both cells and media of dexamethasone-treated cultures there was a 50--80% reduction in polypeptide precipitated by anti-AFP serum, as compared with controls; no change was seen in polypeptide precipitated by anti-transferrin serum. Pulse and pulse-chase experiments demonstrated that dexamethasone inhibited the synthesis of AFP but not its secretion. The half-time for secretion of AFP in the presence and absence of dexamethasone was 43 min.     

Characterization of the mouse liver cell line FL83B

The previously reported mouse liver cell line FL83B has been characterized more completely with respect to its light and electron microscopic appearance, chromosomal composition, and ability to secrete various serum proteins. These cells bear many striking morphological similarities to parenchymal liver cells. Chromosomal analysis showed that the cells were transformed. The ability of these cells to grow in a completely chemically defined medium permitted the unequivocal demonstration of the synthesis of at least 12 mouse serum proteins including albumin and high density lipoprotein.     

Effects of dexamethasone and insulin on the acute phase response of Morris hepatoma cells and of rat hepatocytes in culture

Dexamethasone and insulin stimulate production of several plasma proteins in primary cultures of adult rat hepatocytes but inhibit their production in primary cultures of Morris hepatoma cell line 7777W. The acute phase response elicited in cultured cells by crude cytokines from activated rat peritoneal macrophages is considerably higher in hepatocytes in the presence of hormones, and especially of dexamethasone. In hepatoma cells the hormones enhance the cytokine-induced formation of fibrinogen and cysteine proteinase inhibitor but are without significant effect on suppression of albumin and alpha-fetoprotein synthesis by macrophage supernatants.     

Colony isolation and secondary culture of fetal porcine hepatocytes on STO feeder cells

Summary The secondary culture of non-transformed parenchymal hepatocytes has not been possible. STO feeder cell-dependent secondary cultures of fetal pig hepatocytes were established by colony isolation from primary cultures of 26-d fetal livers. The liver cells had the typical polygonal morphology of parenchymal hepatocytes. They also spontaneously differentiated to form small biliary canaliculi between individual cells or progressed further to large multicellular duct-like structures or cells undergoing gross lipid accumulation and secretion. The secondary hepatocyte cultures expressed alpha-fetoprotein (AFP), albumin, and β-fibrinogen mRNA, and conditioned medium from the cells contained elevated levels of transferrin and albumin. STO feeder cell co-culture may be useful for the sustainable culture of hepatocytes from other species.     

Lipogenesis and the synthesis and secretion of very low density lipoprotein by avian liver cells in nonproliferating monolayer culture. Hormonal effects

The nonproliferating chicken liver cell culture system described yields cell monolayers with morphological and lipogenic properties characteristic of the physiological-nutritional state of donor animals. Synthesis and secretion of fatty acid, cholesterol, and very low density lipoprotein (VLDL) occur at in vivo rates and respond to hormones and agents which affect these processes in vivo. Cells derived from fed chickens maintain high rates of synthesis of fatty acid and cholesterol for several days if insulin is present in the medium. High rates of fatty acid synthesis are correlated with the appearance of membrane-enclosed triglyceride-rich vesicles in the cytoplasm; deletion of insulin causes a decrease (T1/2 = 22 h) in fatty acid synthetic activity. Addition of glucagon or cyclic AMP (cAMP) causes an immediate cessation of fatty acid synthesis and blocks the appearance of the triglyceride-rich vesicles. Fatty acid synthesis in liver cells prepared from fasted chickens is less than 5% that of cells from fed animals. After 2-3 days in culture with serum-free medium containing insulin +/- triiodothyronine, fatty acid synthesis is restored to normal; glucagon or dibutyryl cAMP blocks this recovery. Liver cells derived from estradiol-treated chickens synthesize and secrete VLDL for at least 48 h in culture. Electron micrographs of these cells reveal more extensive development of the rough endoplasmic reticulum and Golgi complex compared to cells from untreated chickens. Whereas [3H]leucine incorporation into total protein is unaffected by estrogen treatment, [3H]leucine incorporation into cellular and secreted immunoprecipitable VLDL is markedly increased indicating specific activation of VLDL apopeptide synthesis; 8-10% of the labeled protein synthesized and secreted is VLDL. Dodecyl sulfate-acrylamide gel electrophoresis of immunoprecipitated 3H-VLDL reveals three major apopepetides of 300,000, 11,000, and 8,000 daltons corresponding to those of purified chicken VLDL.