Proto-oncogene expression in regenerating liver is simulated in cultures of primary adult rat hepatocytes

Proto-oncogene fos mRNA levels are rapidly and transiently elevated 12-fold in regenerating liver 10-60 min following partial hepatectomy. This response, and the induction of fos protein synthesis, has been simulated qualitatively and quantitatively in long term primary cultures of quiescent adult rat hepatocytes where proliferative transitions can be initiated directly in serum-free medium by known hepatocyte mitogens like epidermal growth factor. Expression of a second proto-oncogene, c-rasH, in proliferatively activated hepatocyte cultures between 6 and 24 h also simulates the delayed hepatic response that occurs in vivo following partial hepatectomy. These results suggest that sequential proto-oncogene expression during liver regeneration is caused directly by hepatocellular interactions with specific mitogens. In addition, a role for monovalent cations in the regulation of hepatocyte gene expression is implicated from findings that Na+ deprivation inhibits induction of fos expression in cultured hepatocytes by epidermal growth factor under chemically defined conditions.     

The effect of sodium butyrate on tyrosine aminotransferase induction in primary cultures of normal adult rat hepatocytes

Treatment of primary cultures of adult rat hepatocytes with 5 mM butyrate inhibited the spontaneous decrease in basal activity and mRNA levels of tyrosine aminotransferase (TAT) that occurred during culture (Staecker et al., submitted). We report here that butyrate treatment of primary cultures of rat hepatocytes initially inhibited the induction of TAT. This inhibition was followed by a period of accelerated TAT induction. TAT induction in butyrate-treated primary cultures of adult rat hepatocytes occurred only after metabolism of butyrate by the cultured hepatocytes. The accelerated induction of TAT in hepatocyte cultures treated with sodium butyrate was reflected by increased TAT activity and mRNA levels. Cultured hepatocytes rapidly metabolized butyrate, but the addition of more butyrate into cultures after its initial metabolism resulted in a rapid reduction in TAT activity. These findings indicate that butyrate treatment can affect the expression of TAT in primary hepatocyte cultures in both a positive (increased basal TAT expression) and a negative (inhibition of the induced expression of TAT) manner.     

Regulation of beta-adrenergic receptor expression in rat liver

To begin defining the factors regulating neurotransmitter receptor expression, we examined beta-adrenergic receptors in rat liver in vivo and in primary liver cultures under defined hormonal conditions. beta-receptors described a remarkable developmental profile in vivo, increasing fivefold between embryonic days 16 and 20, and decreasing tenfold by early adulthood. The developmental decrease reflected reduced receptor number without a change in receptor properties. The ontogenetic decrease appeared to be specific for beta-receptors; alpha-receptors developed in a hyperbolic fashion, reaching high plateau values by the third postnatal week. Adult rat liver cells plated into culture re-expressed high beta-receptor levels, exhibiting a 4-8-fold increase. A similar pattern of expression of the beta-receptors, having similar pharmacological properties, was observed in primary liver cultures maintained in serum-free medium, in a serum-supplemented medium or in several variations of a serum-free, hormonally defined medium designed for primary liver cultures. Thus, the degree of expression of the beta-receptors was not found affected by various hormones, by serum, or by any medium condition. By contrast, the degree of expression of the beta-receptors was markedly sensitive to cell density. High expression of the beta-receptors was observed at low cell densities (1-3 x 10(6) cells/150 mm dish), and low expression or no expression was observed in confluent cultures (10-20 x 10(6) cells/150 mm dish). Our experiments suggest that beta-receptor expression does not follow an immutable program, but may be regulated by density-dependent cell-cell interactions.     

Precocious development of uridine diphosphate glucuronosyltransferase activity during organ culture of foetal rat liver in the presence of glucocorticoids.

1. Precocious development of mammalian UDP-glucuronosyltransferase (EC 2.4.1.1.7) induced by endogenous compounds of known chemical composition is reported for the first time. 2. This development occurs in cultured explants of foetal rat liver when exposed to corticosteroids possessing a pregn-4'-ene structure and a hydroxy or an oxo group at C-11. 3. Explants from 14-day foetuses cultured for 3 days in a chemically defined medium containing dexamethasone exhibited transferase activities towards o-aminophenol within adult male values. Those liver transferase activities attained in utero by 17 days were still negligible. 4. Evidence from several approaches indicated that the explants required glucocorticoids for expression of the transferase, not for maintenance of viability. 5. Glucocorticoid-dependent stimulation of transferase activity required incorporation of L-[14C]leucine into protein, as judged from the pulsing of cultures with cycloheximide. 6. The relevance of these culture experiments to the situation in vivo is discussed.     

Improved hepatocyte culture system for studying the regulation of glycogen synthase and the effects of diabetes

When 3–4-week-old rats (young rats) are used as a source of hepatocytes, primary culture cells express the adult, differentiated, liver-specific isoform of glycogen synthase. Synthase enzyme protein levels are relatively stable over a 3 day culture period in young but not in adult (>150 g rat) hepatocyte cultures. Corresponding synthase enzyme activity and mRNA levels decrease over time in culture in adult but not in young hepatocyte cultures. Young rat hepatocytes also have the ability to proliferate in chemically defined medium in the absence of added mitogens. A diabetes-induced increase in total synthase activity has been demonstrated by our lab and others, using cultured hepatocytes, liver homogenates, and perfused livers. In the present study, utilizing synthase-specific antibody and primary cultures of cells from young normal and alloxan diabetic rats, we found that greater total synthase activity in the diabetic cells was associated with higher levels of enzyme protein. Immuneprecipitaion of ³⁵S methionine-labeled freshly plated cells demonstrates an increase in the rate of protein synthesis in diabetic as compared with normal cells. Synthase mRNA levels are correspondingly increased in the diabetic relative to normal cells. Chronic exposure of young, normal hepatocytes to increasing levels of glucose induces a dose-dependent increase in total synthase activity, total synthase protein, and synthase message levels. By comparison, cells from diabetic animals do not respond by any of these measures to increased glucose concentrations. We conclude that this defined primary culture system represents a useful model for investigating the regulation of hepatic glycogen synthase and the defects which occur as a result of diabetes. © 1996 Wiley-Liss, Inc.     

Stimulative effect of non-parenchymal liver cells on ability of tyrosine aminotransferase induction in hepatocytes

Hepatocytes and non-parenchymal liver cells were isolated from adult rat liver and co-cultured for 48 hours as a monolayer on polystyrene culture dishes. The ability of tyrosine aminotransferase (TAT) induction in hepatocytes was examined in the presence of dexamethasone and dibutyryl cAMP. Non-parenchymal cells greatly enhance the ability of TAT induction of hepatocytes. A soluble factor with molecular weight of more than 10,000 is responsible for this enhancement, because conditioned medium prepared from non-parenchymal cells is also stimulatory. Non-parenchymal cells restored the ability in hepatocytes damaged with the addition of D-galactosamine. Conditioned medium prepared from non-parenchymal cells treated with D-galactosamine had higher activity of enhancement than the medium from normal cells. The soluble factor might be released in response to some signal of injury. Hepatocytes and non-parenchymal cells were immobilized within Ca-alginate, and although immobilized hepatocytes rapidly lost the ability to induce TAT, hepatocytes co-immobilized with non-parenchymal cells maintained the ability during 4 days of culture. These results indicated that non-parenchymal liver cells, as well as hepatocytes, could be used to construct a bioartificial liver support system.     

Induction of tyrosine aminotransferase by triamcinolone during rat liver development in vitro

Embryonic rat liver 12–21 days old exhibits low but significant tyrosine aminotransferase (TAT) activity. In organ culture for 24 hr in a nutrient medium, there is an increase in TAT levels. Addition of glucocorticoids increases TAT levels at all embryonic ages. The magnitude of the produced TAT level increases with developmental age. Glucagon also increases embryonic liver TAT, but insulin and growth hormone (somatotropin) had little effect.     

Taurine down-regulates basal and osmolarity-induced gene expression of its transporter, but not the gene expression of its biosynthetic enzymes, in astrocyte primary cultures

Taurine content of astrocytes is primarily regulated by transport from the extracellular medium and endogenous biosynthesis from cysteine. We have investigated the gene expression of the taurine transporter (TauT) and the taurine biosynthetic enzymes, cysteine dioxygenase (CDO) and cysteine sulfinate decarboxylase (CSD), in astrocyte primary cultures in relationship to cell taurine content. TauT, CDO, and CSD mRNA levels were determined through quantitative RT-PCR. Cell taurine content was depleted by adapting the cells to a taurine-free chemically defined medium and increased by incubating the cells in the same medium containing exogenous taurine. With increased cell taurine content the level of TauT mRNA decreased, whereas the levels of CDO and CSD mRNA remained unchanged. In astrocytes exposed to a hyperosmotic medium the TauT mRNA level increased, whereas the CDO and CSD mRNA levels were not significantly altered. The osmolarity-induced up-regulation of TauT mRNA expression was fully prevented by increasing cell taurine content. Thus, the gene expression of the taurine transporter, but not that of the taurine biosynthetic enzymes, appears to be under the control of two antagonistic regulations, namely, a taurine-induced down-regulation and an osmolarity-induced up-regulation.     

Extended expression of liver functions of hepatocytes in collagen-contained cell aggregates (cell packs)

The functions of hepatocytes under the collagen-contained cell aggregate (cell pack) conditions were studied using liver-specific protein synthesis. Freshly isolated murine hepatocytes were suspended in the medium containing collagen and centrifuged, and the resultant cell masses were cultured on the porous membranes floating on the medium. In these cultures cells were attached to each other three-dimensionally with collagen present in the intercellular spaces. Cultured hepatocytes in the cell pack maintained high and stable activity in the expression of their functions for more than 2 weeks, even when cultured with the medium lacking any hormones and serum, whereas hepatocytes in monolayer cultures lost their functions within a week.Similarly, when the cell packs of rat hepatocytes were transplanted into rat spleens, they could retain viability in the form of cell aggregate with the expression of liver-specific albumin mRNA at a higher level than in the transplantated cell suspensions.The lifespan and the initial expression level of hepatocellular functions inculture were similar to that of the cell pack in cell aggregates without collagen and in cellular monolayers on the collagen gel respectively.It was concluded that the condition where cells are in contact witheach other has an important role in the expression of hepatocellular functions and collagen present in the intercellular spaces enhances the functional levels.     

The influence of culture conditions on cell morphology and tyrosine aminotransferase levels in rat liver epithelial cell lines

Experimental conditions known to alter the shape, permeability and organization of cells were used to find out their effects on tyrosine aminotransferase (TAT) in rat liver epithelial cell lines. To produce a more spheroidal morphology for non-malignant cells than that obtainable on plastic, floating collagen and poly(2-hydroxyethylmethacrylate) (poly(HEMA)), were used as substrata. Under these experimental conditions the basal level of TAT activity increased 1.5–2.5-fold. When monolayer cultures were permeabilized by the use of a hypertonic salt solution, the basal activity increased 4–5-fold. TAT activity was also elevated in hepatoma cells cultured in anchorage-independent conditions. The enzyme was not inducible by dexamethasone (DEX) under any of these culture conditions, and the lack of induction was not due to the absence of receptors for this hormone. These studies have shown that the production of TAT, one of the characteristics of adult liver, has persisted in a number of rat epithelial cell lines derived from normal, malignant or regenerating liver and its activity was influenced by the different culture conditions employed.     

Glutamate receptor subunit expression in primary neuronal and secondary glial cultures

We report on the expression of ionotropic glutamate receptor subunits in primary neuronal cultures from rat cortex, hippocampus and cerebellum and of metabotropic glutamate (mGlu) receptor subtypes in these neuronal cultures as well as in cortical astroglial cultures. We found that the NMDA receptor (NR) subunits NR1, NR2A and NR2B were expressed in all three cultures. Each of the three cultures showed also expression of the four AMPA receptor subunits. Although RT-PCR detected mRNA of all kainate (KA) subunits in the three cultures, western blot showed only expression of Glu6 and KA2 receptor subunits. The expression analysis of mGlu receptors indicated the presence of all mGlu receptor subtype mRNAs in the three neuronal cultures, except for mGlu2 receptor mRNA, which was not detected in the cortical and cerebellar culture. mGlu1a/alpha, -2/3 and -5 receptor proteins were present in all three cultures, whereas mGlu4a and mGlu8a receptor proteins were not detected. Astroglial cultures were grown in either serum-containing or chemically defined medium. Only mGlu5 receptor protein was found in astroglial cultures grown in serum-containing medium. When astrocytes were cultured in chemically defined medium, mGlu3, -5 and -8 receptor mRNAs were detected, but at the protein level, still only mGlu5 receptor was found.     

Role of glucocorticoids and resident liver macrophages in induction of tyrosine aminotransferase

Administration of cortisol to an animal induces tyrosine aminotransferase (TAT) in the liver. A similar effect was observed after stimulation of resident liver macrophages (Kupffer cells) by dextran sulfate. Actinomycin D completely blocks enzyme induction both by cortisol and dextran sulfate, whereas their combined effect gives an additive result. In primary culture of hepatocytes, dextran sulfate inhibits TAT activity, but conditioned macrophage medium reliably increases enzyme activity in hepatocytes. However, incubation of isolated macrophages in the presence of dextran sulfate and such medium transfer into hepatocyte culture results in even more pronounced increase in TAT activity. In a combined culture of hepatocytes and non-parenchymal liver cells, reproducing intercellular interactions in vitro, cortisol and non-parenchymal cells exhibit an additive effect on TAT activity. These results show that liver macrophages release a factor of unknown nature launching the mechanism of TAT induction independently of cortisol, a classic TAT inducer.