Time course study of L-tyrosine aminotransferase induction in rat liver cell lines

The enhancement of L-tyrosine aminotransferase activity by dexamethasone, an exclusive function of the liver, was serially measured at different passages of eight rat liver epithelial cell lines initiated and continuously grown in either a serum-supplemented medium or a serum-free medium. The enzyme basal activity was found to be 5.4 ± 1.8 mU for cell lines in serum and 6.8 ± 3.4 mU for cell lines without serum. Under the influence of dexamethasone (10^–6 mol/l for 5 hours) this basal level could be increased up to 2.9 fold in the presence of serum and 2.5 fold in its absence when investigations were carried out at early passages. During the following subcultures the induction ratio gradually declined and scarcely any induction could be detected after the 15th passage for cells grown in serum and after the 25th passage for cell lines grown without serum.Abbreviations SFM serum-free medium - SSM serum-supplemented medium - TAT L-tyrosine aminotransferase M.F. is a recipient of a government scholarship grant from the Grand Duchd de Luxembourg.     

Conditioned medium from cultured rat hepatocytes completely blocks induction of glutamine synthetase by dexamethasone in several rat liver epithelial cell lines

A variant RL-ET-1G of a rat liver epithelial cell line (RL-ET-1) characterized by a very high inducibility for glutamine synthetase (GS) in response to dexamethasone was established by cultivation in glutamine-free, glutamate-supplemented culture medium. Using this cell line, conditioned medium produced by periportal hepatocytes in primary culture was found to suppress this induction, acting with a lag-phase of about 8 h irrespective whether the GS activity was basal or preinduced. Analysis of the response of several epithelial cell lines to the conditioned medium showed a reciprocal relationship between the dexamethasone-dependent induction and the residual activity after exposure to the conditioned medium, indicating that a hypothetical factor in the conditioned medium was interfering with the induction process but not with the basal GS level of these cells. Careful analysis revealed that the effect of the conditioned medium was neither due to deficiency of a component used up by the hepatocytes, nor due to glutamine or ammonia, both of which affected GS activity at concentrations above 0.5 mmol/L. The hypothetical factor was found to be quite small (molecular mass range 100–500 Da), heat and acid stable, as well as highly water soluble. Most interestingly, the conditioned medium did not suppress GS induction in astroglial cells and in the two hepatoma cell lines C2 and FAO, but strongly diminished the spontaneous induction of GS in cocultured pig hepatocytes, suggesting that the hypothetical factor acts primarily on normal nontransformed liver-derived cell populations.     

Methylation of nicotinamide in rat liver cytosol and its correlation with hepatocellular proliferation

The changes in the activity of nicotinamide: S-adenosylmethionine methyltransferase (nicotinamide methylase) were studied in rat liver which was subjected to different rates of cellular proliferation. The cytosolic enzyme activity increased 3–4-fold in the first 24–48 h after partial hepatectomy and decreased again to the basal levels until 4 days post-operatively, whereas it remained unchanged in the livers of sham-operated animals. A single administration of thioacetamide at a dose of 50–250 mg/kg body weight, a treatment which induces hepatocellular proliferation as well, also enhanced the enzyme activity 2–3-fold 24 h after drug administration. This activity increase was associated with a marked lowering of intracellular NAD content of as much as 50% of the control levels. d-Galactosamine, a known hepatotoxic agent causing acute hepatitis in experimental animals and preventing DNA synthesis in regenerating liver, blocked the activity increase in regenerating rat liver. The rate of 1-methylnicotinamide synthesis, as measured by incubating liver slices in the culture medium supplemented with [¹⁴C]nicotinamide as a precursor, was found to be 2–4 times higher in the slices from regenerating liver and thioacetamide-treated rat liver than those from non-proliferating control liver. These results, together with our previous finding on the enhancement by 1-methylnicotinamide of the growth of cultured rat liver cells (Hoshino, J., Kühne, U. and Kröger, H. (1982) Biochem. Biophys. Res. Commun. 105, 1446–1452), support the view that nicotinamide methylase and its product, 1-methylnicotinamide, are involved in the control of hepatocellular DNA synthesis and proliferation.     

Ratliver cells in culture: Effect of storage,long-term culture,and transformation on some enzyme levels

Summary Aryl hydrocarbon hydroxylase (AHH) and tyrosine aminotransferase (TAT) activities were determined in rat liver cell lines after frozen storage, long-term culture, and transformation in vitro. Levels of AHH activity after 17 months in frozen storage were comparable to levels prior to freezing. During long-term culture the AHH levels of the cell lines tended to decrease. Transformed lines had variable levels of AHH activity. Cell lines retained measurable TAT activity following long-term culture and frozen storage. TAT activity of transformed cells was comparable to that of normal lines. Prolonged frozen storage did not induce transformation up to one year.     

Rat liver cells in culture: effect of storage, long-term culture, and transformation on some enzyme levels.

Aryl hydrocarbon hydroxylase (AHH) and tyrosine aminotransferase (TAT) activities were determined in rat liver cell lines after frozen storage, long-term culture, and transformation in vitro. Levels of AHH activity after 17 months in frozen storage were comparable to levels prior to freezing. During long-term culture the AHH levels of the cell lines tended to decrease. Transformed lines had variable levels of AHH activity. Cell lines retained measurable TAT activity following long-term culture and frozen storage. TAT activity of transformed cells was comparable to that of normal lines. Prolonged frozen storage did not induce transformation up to one year.     

Glucocorticoid requirement for tyrosine aminotransferase induction by adenosine 3':5'-cyclic phosphate analogs in somatic cell hybrids.

The ability of adenosine 3′:5′-cyclic phosphate (cyclic AMP) analogs to induce l-tyrosine:2-oxoglutarate aminotransferase (EC 2.6.1.5; TAT) in a rat hepatoma (H35)-rat liver cell (BRL) hybrid (BF5) and a subclone which has lost 29 chromosomes (BF5-1-1) has been analyzed. Cyclic AMP analogs alone were unable to increase TAT activity in either hybrid cell line or in the “normal” liver cells despite three- to fivefold induction of this enzyme in the hepatoma parental cells. In contrast, dexamethasone by itself reproducibly increased TAT activity both in BF5-1-1 cells and in the parental H35 hepatoma cells. Pretreatment of the hybrid cells with dexamethasone revealed a synergistic increase in TAT activity when a cyclic AMP analog was added. From studies of the thermal stability and immunological inhibition of TAT activity, it is concluded that the low basal activity in BRL, BF5, and BF5-1-1 cells represents tyrosine transamination catalyzed by a different aminotransferase, whereas all the induced activity does represent bona fide TAT. The results suggest that functional TAT mRNA may not be present in significant quantities in the hybrid cells in the absence of adrenal steroids and that this could account for the inability of cyclic AMP analogs to exert their presumably translational effect on TAT synthesis.     

Cellular characteristics of epithelial cell lines from juvenile rat liver: selective induction of glutamine synthetase by dexamethasone

Four epithelial cell lines established from juvenile rat liver and selected on the basis of their capacity to prolong the lifespan of cocultured hepatocytes were compared with respect to several immunocytochemical markers (vimentin, cytokeratin 19, MAB 19C6), enzyme activities, and amino acid uptake systems. Their phenotypes were found to be quite different from that of hepatocytes and bile duct epithelial cells (BEC), but very similar among each other. In particular, a variety of functions affected by dexamethasone (DEX) or changing spontaneously in cultured hepatocytes and/or BEC, showed neither inducibility nor spontaneous changes in the four cell lines. Instead, the lines were inducible for glutamine synthetase (GS) by DEX, in contrast to hepatocytes and BEC but also to other juvenile or adult epithelial lines that did not support cocultured hepatocytes. In addition, they showed relatively high basal levels of GS activity, exceeding those found in adult epithelial cell lines and approaching the average values found for liver tissue. Basal as well as DEX-induced GS activity was reduced in the presence of newborn calf serum, while only DEX-induced but not basal activity was suppressed by glutamine.These results suggest an origin of these four juvenile epithelial cell lines different from that of hepatocytes as well as of BEC. Furthermore, they suggest the coherent acquisition of new functional properties during early phases of cultivation of these cell lines; the selective inducibility of GS by DEX and its suppression by glutamine are the most intriguing of these, because neither is found in any normal cell type present in rat liver.     

Characterization of Cell Surface Lectin-binding Patterns of Human Airway Epithelium

Glycosylated structures on the cell surface have a role in cell adhesion, migration, and proliferation. Repair of the airway epithelium after injury requires each of these processes, but the normal cell surface glycosylation of non-mucin producing airway epithelial cells is unknown. We examined cell surface glycosylation in human airway epithelial cells in tissue sections and in human airway epithelial cell lines in culture. Thirty-eight lectin probes were used to determine specific carbohydrate residues by lectin-histochemistry. Galactose or galactosamine-specific lectins labeled basal epithelial cells, lectins specific for several different carbohydrate structures bound columnar epithelial cells, and fucose-specific lectins labeled all airway epithelial cells. The epithelial cell lines 1HAEo– and 16HBE14o– bound lectins that were specific to basal epithelial cells. Flow cytometry of these cell lines with selected lectins demonstrated that lectin binding was to cell surface carbohydrates, and revealed possible hidden tissue antigens on dispersed cultured cells. We demonstrate specific lectin-binding patterns on the surface of normal human airway epithelial cells. The expression of specific carbohydrate residues may be useful to type epithelial cells and as a tool to examine cell events involved in epithelial repair.     

Amino acid transport in established adult rat liver epithelial cell lines

The capacities of Na⁺-dependent transport of -aminoisobutyrate, glutamine and glutamate in four established and three transformed rat liver epithelial cell lines were found to be considerably higher than those of isolated and cultured hepatocytes. At least for transport systems A and G^– this seemed to be due to elevated values of V _max , whereas the values for K _m were quite comparable to those of hepatocytes. In contrast to hepatocytes, however, no significant hormonal stimulation of amino acid uptake could be detected in the cell lines.Each normal cell line expressed a distinct pattern of transport capacities with respect to the three systems measured and this was not altered by chemical transformation of the lines. The individual patterns of the lines showed no similarity to presumptive patterns of subpopulations of liver parenchymal cells. In particular, there was no evidence for a direct relationship of one of the cell lines with a small subpopulation of parenchymal cells located adjacent to hepatic venules as revealed by additional measurements of glutamine synthetase, a marker enzyme for this particular subpopulation.It is concluded that established rat liver epithelial cell lines express features characteristic of normal hepatocytes with respect to amino acid transport, but have developed a distinct phenotype adapted to a rapid, hormone-independent growth in vitro. Alteration of their phenotype by transformation is not coupled with a further increase in amino acid transport capacity.Abbreviations AIB -aminoisobutyrate - LPC liver parenchymal cells - N-Methyl-AIB N-methyl--aminoisobutyrate - TAT tyrosine aminotransferase     

Glucagon resistance of hepatoma cells. Evidence for receptor and post-receptor defects.

Of all available liver cells in culture, only primary cultured hepatocytes are known to respond to glucagon in vitro. In the present study we investigated whether glucagon could stimulate amino acid transport and tyrosine aminotransferase (TAT;EC 2.6.1.5) activity (two well-characterized glucagon effects in the liver) in Fao cells, a highly differentiated rat hepatoma cell line. We found that glucagon had no effect on transport of alpha-aminoisobutyric acid (AIB; a non-metabolizable alanine analogue) nor on TAT activity, even though both activities could be fully induced by insulin [2-fold and 3-fold effects for AIB transport and TAT activity, respectively, after 6h; EC50 (median effective concentration) = 0.3 nM], or by dexamethasone (5-8-fold effects after 20 h; EC50 = 2 nM). Analysis of [125I]iodoglucagon binding revealed that Fao cells bind less than 1% as much glucagon as do hepatocytes, whereas insulin binding in Fao cells was 50% higher than in hepatocytes. The addition of dibutyryl cyclic AMP, which fully mimics the glucagon stimulation of both AIB transport and TAT activity in hepatocytes, induced TAT activity in Fao cells (a 2-fold effect at 0.1 mM-dibutyryl cyclic AMP) but had no effect on AIB transport. Cholera toxin stimulated TAT activity to the same extent as did dibutyryl cyclic AMP. These results indicate that the lack of glucagon responsiveness in cultured hepatoma cells results from both a receptor defect and, for amino acid transport, an additional post-receptor defect. Moreover, the results show that amino acid transport and TAT activity, which appeared to be co-induced by insulin or by dexamethasone in these cells, respond differently to cyclic AMP. This suggests that different mechanisms are involved in the induction of these activities by glucagon in liver.     

Loss of adenylate cyclase hormonal sensitivity in chemically transformed epithelial cells.

The hormonal sensitivity of adenylate cyclase from a normal rat liver epithelial cell line (K16) and its chemically transformed derivative (W8) were compared. Intact normal rat liver cells had markedly increased cAMP levels after brief exposure to epinephrine, isoproterenol, norepinephrine or prostaglandin E₁. In contrast, the cAMP levels of chemically transformed cells were relatively unaffected by these same compounds even after prolonged incubation. A comparison of broken cell adenylate cyclase activities revealed a decreased basal activity in the chemically transformed cells; the response to NaF was similar in the two cell lines, while the response to catecholamines and prostaglandins paralleled the intact cell studies. These data suggest that one reason for loss of adenylate cyclase hormonal responsiveness in chemically transformed rat liver epithelial cells may be a dysfunction or loss of hormone binding sites.     

Characterization of a monoclonal antibody reactive with a glycolipid antigen expressed by tumorigenic and certain immortalized,non-tumorigenic rat esophageal epithelial cell lines

A monoclonal antibody (mAb 5G) was produced against a tumorigenic rat esophageal epithelial cell line, designated B2T. Using an enzyme-linked immunosorbent assay, immunofluorescence assay (IFA), thin-layer chromatography (TLC) and immunoperoxidase staining, it was found that mAb 5G reacted specifically with a glycolipid antigen expressed by three tumorigenic rat esophageal epithelial cell lines, and two out of the three nontumorigenic, immortalized rat esophageal epithelial cell lines tested; but did not react with primary cultures of normal rat esophageal epithelial cells or fibroblasts. mAb 5G did not bind to rat respiratory tract carcinoma cell lines, to immortalized rat tracheal epithelial cell lines, or to primary cultures of normal rat tracheal epithelial cells. In addition, mAb 5G did not react with any of the human or mouse cell lines tested. In IFA experiments, mAb 5G stained imprints prepared from in vivo propagated B2T tumor tissues, but did not react with normal rat esophageal, tracheal, lung, liver, and kidney tissues. The antigen was identified by TLC as a neutral glycolipid, consisting of two bands, withR _F = 0.45 and 0.41, which migrated in proximity to the ceramide trihexoside standard on TLC plates. Densitometric scanning of the antigen bands indicated that the tumorigenic rat esophageal cell lines possessed 50%–90% more mAb-5G-reactive antigen than the nontumorigenic esophageal cell lines. The results show that mAb 5G reacts specifically with a glycolipid antigen expressed by tumorigenic and certain non-tumorigenic, immortalized rat esophageal epithelial cell lines that might be at the late stages of transformation and early malignancy.     

Rat mammary preadipocytes in culture produce a trophic agent for mammary epithelia-prostaglandin E2

Cell strains and cell lines rat mammary (Rama) 350-353 have been isolated from the slowly adherent stromal fraction of enzymatically digested rat mammary glands. Primary cultures of this fraction yield fat cels on extended culture. Their proportion can be increased with horse serum or growth hormone in the medium, and this increase is associated with a 100-fold or more increase in the release of radioimmunoassayable prostaglandins of the E type (PGE). The stromal cell strains and lines that are capable of yielding fat cells also secrete elevated levels (greater than 100 ng/mg/24 hr) of PGE; the fast-sticking epithelial fraction in primary cultures and the epithelial cell lines derived from it secrete 10-100 times less. Chromatography and radioisotopic labeling of the culture media from Rama 352 cells identify the PG as PGE2. PGE2 with insulin and hydrocortisone maximally stimulates [3H]DNA synthesis of epithelial cell lines and primary cultures from normal and tumorous glands by 2-4-fold at concentrations (10-20 ng/ml) well below those released by the preadipocytic stromal cells (20-100 ng/ml). Medium exposed to most cultured cells stimulates [3H]DNA synthesis of one epithelial cell line, Rama 25, by 2-4-fold. Prevention of the synthesis of PGE2 in Rama 352 cultures with indomethacin or flurbiprofen abolishes the mitogenic activity present in the culture medium, and the PG receptor antagonist polyphloretin phosphate inhibits completely the mitogenic activity for Rama 25 cells. Myoepithelial-like cell lines normally secrete moderate levels of PGE (10-100 ng/mg/24 hr) but the mitogenic activity for Rama 25 cells released from one such line, Rama 29, is not abolished by preventing the synthesis of PG's nor by PG-receptor antagonists.     

Rat liver epithelial cell cultures in a serum-free medium: Primary cultures and derived cell lines expressing differentiated functions

Summary Rat liver epithelial cells explanted in a serum-free medium (SFM) composed of Ham's F10 basal medium plus free fatty acids adsorbed on bovine albumin gave successful rise to primary cultures and then to long-term cell lines that expressed liver functions; induction ofl-tyrosine aminotransferase by glucocorticoids, hepatic pattern of progesterone metabolism, and biosynthesis of murine primary bile acids; chenodeoxycholic and cholic acid common to higher vertebrates and α-muricholic acid specific of the rat bile.     

Changes in plasma membrane enzyme activities during liver regeneration in the rat

Changes in activities of plasma membrane enzymes during liver regeneration may be related to the maintenance of hepatic function or to the regulation of cell proliferation. Plasma membranes were isolated from rat livers at various times after partial hepatectomy, and the specific activities of alkaline phosphatase, (Na⁺ + K⁺)-ATPase, leucine aminopeptidase, 5′-nucleotidase, and adenylate cyclase (basal and with glucagon or epinephrine) were measured. Alkaline phosphatase and (Na⁺ + K⁺)-ATPase activity increased 3.6-fold and 2-fold respectively, during the first 48 h after partial hepatectomy. The time of onset and duration of change suggest that these increases in activity are involved in the maintenance of bile secretion. Decreases in leucine aminopeptidase activity at 48–108 h and in 5′-nucleotidase activity at 12–24 h were observed, which may be involved in the restoration of protein and accumulation of RNA. The basal activity of adenylate cyclase increased after partial hepatectomy. The response of adenylate cyclase to epinephrine showed a transitory increase between 36 and 108 h after surgery, while the response to glucagon was decreased by approximately 50% at all time points through 324 h after surgery. These changes in the hormone responsiveness of adenylate cyclase are similar to those previously observed in fetal and preneoplastic liver.     

Assessment of the immunomodulatory activity of cheese extracts by a complete and easy to handle <Emphasis Type="Italic">in</Emphasis><Emphasis Type="Italic">vitro</Emphasis> screening methodology

A simple and rapid screening methodology based on the in vitro culture of murine hybridoma and human T-lymphocytes was developed to assess the potential immunomodulatory activity of water-soluble extracts (WSE) from cheese. The two immune cell lines were cultured in microplates with or without cheese WSE. The proliferation and the metabolic activity of cells were monitored at their different growth phases by the BrdU (5-bromo-2′-deoxyuridine) and MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenylterazolium bromide] assays, respectively. WSE from Abondance cheese enhanced DNA synthesis and the metabolic activity of the hybridoma cells (1.2-and 1.3-to 1.6-fold of the control, respectively) and also of the T lymphocytes (1.5-fold of the control) for almost all of the dilutions tested. To evaluate the validity of the results obtained following this screening methodology, hybridoma and T-lymphocyte cells were cultivated in 50 ml flasks: the maximal cell density was increased by about 10–16% in presence of cheese WSE for both cell lines and the antibody production by the hybridoma cells was increased by 50%.     

Antiglucocorticoid steroids have increased agonist activity in those hepatoma cell lines that are more sensitive to glucocorticoids

FU5-5 rat hepatoma (Reuber H35) cells are hypersensitive in that the same percentages of full induction of tyrosine aminotransferase (TAT) occur at much lower concentrations of glucocorticoids than in the related HTC rat hepatoma (Morris) cells. Unexpectedly, these hypersensitive FU5-5 cells also exhibited more agonist activity with the affinity labeling antiglucocorticoids cortisol 21-mesylate and dexamethasone 21-mesylate than did HTC cells (Mercier et al., Endocrinology 112, 601-609 [1983]). In the present study, several other antiglucocorticoids (11-desoxycortisone, progesterone, dexamethasone oxetanone, and RU 486 in addition to dexamethasone 21-mesylate) and the antiandrogen cyproterone acetate were examined to see if chemically unreactive, reversible antisteroids also would exhibit an altered activity (i.e. increased agonist activity) in FU5-5 cells. Each antiglucocorticoid examined did display a 2-fold increased amount of agonist activity in FU5-5 cells, as compared to HTC cells; only RU 486 was predominantly an antagonist in FU5-5 cells but the potency of RU 486 was about 9-fold less than in HTC cells. Dexamethasone, and especially progesterone, was metabolized in FU5-5 and HTC cells. However, differential metabolism in FU5-5 vs HTC cells cannot account for the increased induction of TAT in FU5-5 cells since the amount of agonist activity seen for dexamethasone mesylate (or its metabolites) depended not on the cell type used but rather on the glucocorticoid inducible enzyme monitored, i.e. TAT or glutamine synthetase. The combined data suggest that the hypersensitivity of FU5-5 cells towards glucocorticoid induction of TAT may be linked with the ability of both reversible and irreversible antiglucocorticoids to display increased TAT agonist activity in FU5-5 cells. This behavior was somewhat steroid specific since the antiandrogen cyproterone acetate did not display increased TAT agonist activity in FU5-5 cells compared to HTC cells and was only 2-fold less effective as an antiglucocorticoid in FU5-5.