Monolayer Cultures Of Rat Hepatocytes Research Articles

The effect of methionine on methotrexate metabolism in rat hepatocytes in monolayer culture

The effect of methyl donors on the metabolism of methotrexate has been investigated in rat hepatocytes in monolayer culture. Pulse exposure to low concentrations of methotrexate (1 μM, 3 h) in the absence of methionine results in the facile formation of the di- to pentaglutamates with the di- and triglutamate predominating. Further incubation after the removal of methotrexate (MTX) results in a shift to the tetra- and pentaglutamate at the expense of the shorter chain length derivatives. The same measurement in the presence of 1 mM methionine causes approx. an 80% inhibition in the formation of polyglutamates. This effect can be partially achieved when methionine is replaced by choline or betaine. No alteration in the formation of 7-hydroxymethotrexate could be detected by similar changes in methionine concentrations in the medium. The activity of the enzymes which synthesize and degrade methotrexate polyglutamates, folypolyglutamate synthetase and γ-glutamyl hydrolase, respectively, were the same in extracts of cells grown in the absence and in the presence of 1 mM methionine. Incubation of the hepatocytes with methionine causes a significant increase in 5,6,7,8-tetrahydrofolate (H 4folate), 5,10-methylenehydrofolate and 10-formyltetrahydrofolate and a decrease in 5-methyltetrahydrofolate. These results suggest that the inhibition of glutamylation of methotrexate could be due in part to an elevation in reduced folates which can more effectively compete with methotrexate as a substrate for folypolyglutamate synthetase. Inhibition in methotrexate glutamylation by methionine, betaine and choline in hepatocytes may contribute to the alleviation of hepatic toxicity by methyl donors.

DNA synthesis in cultured adult rat hepatocytes: effect of serum and calcium.

We have investigated the influence of serum and of varying Ca2+ concentrations on the DNA synthesis in primary monolayer cultures of adult rat hepatocytes, using a defined basic medium. Supplementation of the medium with 10% horse serum did not significantly affect the time course of the DNA synthesis induced by insulin and epidermal growth factor. Dose effect curves showed that serum moderately sensitized the cells to low concentrations of insulin and slightly sensitized them to epidermal growth factor, but was not required for full responses to maximal concentrations of the hormones. In the serum-free cultures a wide range of Ca2+ concentrations (0.4 - 1.8 mmol/l) yielded maximal DNA synthesis, suggesting a broad Ca2+ optimum of the S phase entry in the hepatocyte monolayers.

Sex change in cytochrome P-450 phenotype by growth hormone treatment of adult rat hepatocytes maintained in a culture system on matrigel.

Results of studies of hypophysectomized rats suggest that growth hormone serves as a final common mediator through which gonadal steroids and other modifiers of pituitary function alter the expression of gender-specific liver genes such as the sexually dimorphic pair of cytochrome P-450 isozymes, male-specific P-450h and female-specific P-450i. We tested the effects of growth hormone in a system for primary monolayer culture of adult rat hepatocytes on a laminin-rich extracellular matrix (matrigel), which permits sustained expression of both constitutive and inducible liver genes in a chemically defined medium. Cultures of freshly isolated hepatocytes prepared from untreated male rats and samples of the intact donor liver contained readily detectable quantities of immunoreactive P-450h protein (measured on immunoblots of cell microsomes) and P-450h mRNA (measured on Northern blots of cellular RNA). Neither P-450i immunoreactive protein nor P-450i mRNA were present. Addition of physiologic concentrations of human or bovine growth hormone, but not of prolactin, to culture medium lacking insulin or other hormones resulted in prompt induction of P-450i immunoreactive protein and P-450i mRNA. Induction of P-450i mRNA in male hepatocyte cultures was dependent on the concentration of growth hormone, required as little as 24 hr of exposure, and was markedly attenuated in cultures maintained on type I collagen rather than on matrigel. Growth hormone treatment also induced the level of mRNA for insulin-like growth factor I, whereas the amount of mRNA for the male-specific urinary protein alpha 2 mu-globulin was unaffected. Cultures of hepatocytes derived from untreated adult female rats retained high levels of P-450i mRNA but only if the culture medium contained growth hormone. None of the tested treatments with estrogens, androgens, glucocorticoids, or growth hormone induced P-450h mRNA or P-450h immunoreactive protein in cultures of female hepatocytes. We conclude that the somatogenic effects of growth hormone acting alone and directly on the hepatocyte in culture are sufficient to "feminize" the cytochrome P-450 phenotype. The present culture system offers a way to explore the molecular basis for hormonal control of liver gene expression.

Hydroxylation, conjugation and sulfation of bile acids in primary monolayer cultures of rat hepatocytes

Hydroxylation of lithocholic, chenodeoxycholic, deoxycholic and cholic acids was studied in monolayers of rat hepatocytes cultured for 76 h. The majority of added lithocholic and chenodeoxycholic acids was metabolized to β-muricholic acid (56–76%). A small part of these bile acids (9%), however, and a considerable amount of deoxycholic and cholic acids (21%) were converted into metabolites more polar than cholic acid in the first culture period. Formation of these compounds decreased during the last day of culture. Bile acids synthesized after addition of [4- 14C]-cholesterol were almost entirely (97%) sulfated and/or conjugated, predominantly with taurine (54–66%), during culture. Sulfated bile acids were mainly composed of free bile acids. The ability of hepatocytes to sulfurylate bile acids declined with culture age. Thus, rat hepatocytes in primary monolayer culture are capable to sulfurylate bile acids and to hydroxylate trihydroxylated bile acids, suggesting formation of polyhydroxylated metabolites.

Factors regulating the secretion of lysophosphatidylcholine by rat hepatocytes compared with the synthesis and secretion of phosphatidylcholine and triacylglycerol. Effects of albumin, cycloheximide, verapamil, EGTA and chlorpromazine.

1. The synthesis and secretion of glycerolipid by monolayer cultures of rat hepatocytes was measured by determining the incorporations of [3H]glycerol, [3H]oleate and [14C]choline and by the absolute concentration of triacylglycerol. 2. The presence of albumin in the medium stimulated the accumulation of lysophosphatidylcholine in the medium by 11-13-fold. 3. Cycloheximide did not significantly alter the accumulation of lysophosphatidylcholine. 4. This process was particularly sensitive to inhibition by chlorpromazine and verapamil, compared with the secretion of triacylglycerol and phosphatidylcholine. By contrast, it was relatively less sensitive to EGTA. 5. It is suggested that intracellular Ca2+ may be important in the production of lysophosphatidylcholine, which then accumulates in the medium by binding to albumin. In vivo this lysophosphatidycholine may be a means of delivering choline and polyunsaturated fatty acids to other organs.

Prostaglandins E2 and F2 alpha are not involved in the monocytic-product (interleukin-1)-induced stimulation of hepatic fibrinogen synthesis in rats.

1. Monocytic products, especially interleukin-1 (IL-1), play an important role in the acute-phase response. Prostaglandins have been shown to act as second messengers in several physiological alterations of the acute-phase response, such as fever, muscle wasting and immunoregulation. The present study was undertaken to determine the role of prostaglandins in the monocytic-product-induced stimulation of the hepatic synthesis of fibrinogen, a well-known acute-phase protein. 2. Prostaglandin (PG) E2, PGF2 alpha and 16,16-dimethyl-PGE2 did not stimulate fibrinogen synthesis and fibrinogen polypeptide mRNA content when administered intraperitoneally to rats or when added to monolayer cultures of rat hepatocytes. 3. Cyclo-oxygenase inhibitors did not abolish the stimulation of fibrinogen synthesis and its mRNA content induced by monocytic products in vivo or in vitro. 4. These findings indicate that the enhanced synthesis of fibrinogen induced by monocytic products (including IL-1) during the acute-phase response is not mediated by prostaglandins or other products of the cyclo-oxygenase pathway of arachidonic acid.

Interactions of triiodothyronine, insulin and dexamethasone on the binding of human LDL to rat hepatocytes in monolayer culture

Rat hepatocytes were maintained for the first 24 h in culture in the presence of 10% (v/v) newborn calf serum and then for a further 16 h in serum-free medium containing 2 g bovine serum albumin per litre. The presence of 1–100 nM triiodothyronine (T 3) in the second incubation significantly increased binding of human 125I-LDL to the LDL receptor. Unlike insulin, T 3 was unable to reverse the decrease in binding brought about by dexamethasone. The increased binding to the LDL receptor produced by insulin and T 3 was additive. We conclude that T 3, insulin and glucocorticoids may play important roles in regulating plasma LDL concentrations by direct effect on LDL uptake by the liver.

Fatty acid specificity for the synthesis of triacylglycerol and phosphatidylcholine and for the secretion of very-low-density lipoproteins and lysophosphatidylcholine by cultures of rat hepatocytes.

1. The synthesis and secretion of glycerolipids by monolayer cultures of rat hepatocytes was measured by using radioactive choline, glycerol and fatty acids and by measuring the concentration of triacylglycerols in the cells. 2. The incorporation of glycerol into triacylglycerol and the accumulation of this lipid in hepatocytes showed little specificity for fatty acids, except for eicosapentaenoate, which stimulated least. Oleate was more effective at stimulating triacylglycerol secretion than were palmitate, stearate, arachidonate and eicosapentaenoate. 3. Linoleate, linolenate, arachidonate and eicosapentaenoate stimulated the incorporation of glycerol and choline into phosphatidylcholine that was secreted into the medium. By contrast, palmitate and stearate produced relatively high incorporations into the phosphatidylcholine that remained in the cells. 4. The incorporation of glycerol and choline into lysophosphatidylcholine in the medium was stimulated 2-3-fold by all of the unsaturated fatty acids tested, whereas palmitate and stearate failed to stimulate if the acids were added separately. When 1 mM-stearate was added with 1 mM-linoleate, the incorporation of linoleate into lysophosphatidylcholine was about 4 times higher than that of stearate. 5. It is proposed that the secretion of lysophosphatidylcholine by the liver could provide a transport system for choline and essential unsaturated fatty acids to other organs.

Free fatty acid inhibition of the insulin induction of glucose-6-phosphate dehydrogenase in rat hepatocyte monolayers.

Rat hepatocytes in monolayer culture were utilized to determine if the decrease in glucose-6-phosphate dehydrogenase (G6PD) activity resulting from the ingestion of fat can be mimicked by the addition of fatty acids to a chemically, hormonally defined medium. G6PD activity in cultured hepatocytes was induced several-fold by insulin. Dexamethasone or T3 did not amplify the insulin induction of G6PD. Glucose alone increased G6PD activity in cultured hepatocytes from fasted donors by nearly 500%. Insulin in combination with glucose induced G6PD an additional two-fold. The increase in G6PD activity caused by glucose was greater in hepatocytes isolated from 72 hr-fasted rats as compared to fed donor rats. Such a response was reminiscent of the "overshoot" phenomenon in which G6PD activity is induced well above the normal level by fasting-refeeding rats a high glucose diet. Addition of linoleate to the medium resulted in a significant suppression of insulin's ability to induce G6PD, but linoleate had no effect on the induction of G6PD activity by glucose alone. A shift to the right in the insulin-response curve for the induction of G6PD also was detected for the induction of malic enzyme and acetyl-CoA carboxylase. Arachidonate (0.25 mM) was a significantly more effective inhibitor of the insulin action than linoleate was. Apparently rat hepatocytes in monolayer culture can be utilized as a model to investigate the molecular mechanism by which fatty acids inhibit the production of lipogenic enzymes. In part, this mechanism of fatty acid inhibition involves desensitization of hepatocytes to the lipogenic action of insulin.

Aminopyrine metabolism in primary monolayer cultures of diabetic rat hepatocytes.

1. A new support system has been used which provides long-term maintenance of rat liver parenchymal cells in monolayer cultures. The cells, maintained on collagen gel/polychlorinated vinylidene film, expressed aminopyrine metabolizing activity for up to 5 days. This culture system was utilized to study the metabolism of aminopyrine in the liver cells isolated from normal, alloxan- and streptozotocin-diabetic rats. 2. Aminopyrine was metabolized at a slower rate in both types of cultured diabetic rat hepatocytes than in cultured normal rat hepatocytes, as judged from higher levels of the unchanged drug in the culture medium. 3. The formation of the metabolites 4-monoaminoantipyrine, 4-acetylaminoantipyrine and 4-formylaminoantipyrine decreased in the cultured diabetic rat hepatocytes, while that of 4-aminoantipyrine was at the same levels as controls. In contrast, 3-hydroxymethyl-2-methyl-4-dimethylamino-1-phenyl-3-pyrazolin-5-on e (AM-CH2OH) formation in the cultured diabetic rat hepatocytes increased over control value. These findings agree with in vivo results which have been reported by the authors. 4. The increase in AM-CH2OH was prevented by insulin in a dose-dependent manner. However, insulin did not affect the formation of other metabolites. These findings indicate that the amount of cytochrome P-450 isozyme involved in the oxidation of 3-methyl group may be regulated by insulin. 5. The present results, indicate that this primary culture system is a useful tool for the study of drug metabolism in diabetes.

Effect of thyroid hormones on angiotensinogen production in the rat in vivo and in vitro.

The influence of thyroid hormones on angiotensinogen production was studied in vitro and in vivo. In the in-vitro system, angiotensinogen production rate (APR) of monolayer cultures of rat hepatocytes in response to tri-iodothyronine (T3) and thyroxine (T4) was assayed. In the in-vivo system, plasma angiotensinogen concentration (PAC) and liver angiotensinogen content (LAC) were measured in hyper- and hypothyroid rats. In both thyroid dysfunctions, a significant decrease of PAC was found compared with that in control animals; however, LAC showed a significant increase in hyperthyroidism and a marked decrease in hypothyroidism. As PAC is dependent upon both angiotensinogen production by the liver and angiotensinogen degradation by renin, the decrease in PAC observed in hyperthyroidism could be due to an increase in plasma renin concentration, which would overcome the increased synthesis of liver angiotensinogen observed in these animals. In fact, addition of various concentrations of T4 or T3 to monolayer cultures of adult rat hepatocytes significantly enhanced APR. This increase was greater and started earlier with T3 (1196.1 +/- 143.7 (S.D.) pg/mg protein per 6-h incubation; significant differences at the third hour of incubation) than with T4 (858.3 +/- 88.2 pg/mg protein per 6-h incubation; significant differences at the sixth hour of incubation). In addition, a close dose-response relationship was found in the cultures supplemented with T3. The different time-course in the response elicited by T3 and T4 on APR could be a consequence of the necessary transformation of T4 into T3 to acquire biological activity.

Differential permeabilization of membranes by saponin treatment of isolated rat hepatocytes. Release of secretory proteins.

Monolayer cultures of rat hepatocytes were treated with increasing concentrations of saponin (prepared from Gypsophila plants) for 30 min at 6 degrees C. Differential permeabilization of the intracellular membranes could be demonstrated: at 0.040 mg of saponin/ml the plasma membrane was permeabilized, as assessed by the release of 50% of the total cellular amount of lactate dehydrogenase, and at 0.20 mg/ml the endoplasmic reticulum was permeabilized, as measured by the release of 50% of pulse-35S-labelled albumin. The Golgi complex was permeabilized at an intermediate saponin concentration, as indicated by the release of homogeneously 35S-labelled albumin; about half the intracellular albumin is located in this organelle. At 1.0 up to 5.0 mg of saponin/ml 90-95% of the radioactively labelled albumin was released. Even at 5.0 mg/ml less than 10% of the membrane of the endoplasmic reticulum was solubilized, as judged by the degree of release of a membrane-bound enzyme specific for this organelle. These results demonstrate the usefulness of saponin as a tool for investigating the interior of different intracellular compartments.

Effects of preincubation of primary monolayer cultures of rat hepatocytes with low- and high-density lipoproteins on the subsequent binding and metabolism of human low-density lipoprotein.

1. There are two distinct binding sites (Site 1 and Site 2) for human low-density lipoprotein (LDL) on rat hepatocytes in monolayer culture [Salter, Saxton & Brindley (1986) Biochem. J. 240, 549-557]. 2. Binding of 125I-LDL to Site 1, but not to Site 2, is up-regulated between 20 and 44 h in culture by preincubation of the cells with human high-density lipoprotein 3 (HDL3). 3. A similar preincubation with HDL2 had no significant effect on binding to either site. 4. Preincubation with human LDL led to a partial down-regulation of subsequent binding of 125I-LDL to Site 1. Since binding after incubation with LDL was measured at 37 degrees C, binding to Site 2 could not be distinguished from LDL that had been internalized by the cells. 5. Hepatocytes were shown to degrade 125I-LDL, resulting in the accumulation of [125I]iodotyrosine in the medium. Evidence was found that iodotyrosine may be further degraded by deiodinase produced by the cells. 6. Regulation of binding to Site 1 by preincubation with LDL or HDL3 was found to lead to a parallel regulation of LDL degradation. 7. It is concluded that rat hepatocytes not only bind but also metabolize human LDL and that these processes are under metabolic regulation.

Mitogenic activity in platelet-poor plasma from rats with persistent liver nodules or liver cancer

Platelet-poor plasma (PPP) from F-344 rats with chemically-induced preneoplastic liver nodules or hepatocellular carcinoma stimulated S-phase DNA synthesis in monolayer cultures of normal rat hepatocytes. Similar mitogenic activity was detected in PPP 6 hrs to 1 week after partial hepatectomy (PH) or after necrotizing doses of CCl 4 or diethylnitrosamine (DENA). Very little activity was found in PPP from control rats. The mitogenic activity in PPP from animals with nodules was nondialyzable (> 14 kd) and bound to a heparin-sepharose affinity column. None of the mitogenic PPPs competed with [ 125I] epidermal growth factor (EGF) for binding sites on A431 cells or normal rat hepatocytes. These studies indicate that persistent proliferation of preneoplastic and neoplastic hepatocytes is associated with increased circulating levels of mitogenic hepatocyte growth factor.

Relative cytotoxicity of psychotropic drugs in cultured rat hepatocytes.

The relative cytotoxic effects of ten psychotropic drugs were assessed in rat hepatocyte monolayer cultures. Clear concentration-related toxicity was seen in the narrow range of 10(-5) M to 5 X 10(-5) M. The four cytotoxicity endpoints chosen were: release of the cytosolic enzyme, lactate dehydrogenase, and impairment of biosynthesis and secretion of proteins, bile acids and glycerolipids. LDH leakage and inhibition of protein secretion into the culture medium proved to be the parameters which allowed the best differentiation between the test compounds. The inhibition of glycerolipid secretion was the most sensitive test in relation to concentration and time of exposure. Based on the effects of these endpoints, the following ranking of relative in vitro toxicity, using equimolar drug concentrations, could be established: clomipramine greater than imipramine = thioridazine greater than chlorpromazine greater than amitriptyline = fluperlapine greater than haloperidol greater than promazine greater than clozapine much greater than sulpiride. This ranking order of in vitro cytotoxicity correlated well with the potential of the drugs to impair liver function in man. Only clozapine had to be classified as a false negative. There was, however, no correlation between the cytotoxicity and the intracellular accumulation of the test drugs. Furthermore, the comparison of the data obtained with psychotropics with the data from five other amphiphilic cationic drugs was consistent with the widely accepted concept of a direct toxic interaction of the drugs with cytomembranes. This nonspecific toxicity of the membrane-active drugs was further corroborated by a positive correlation between their potential to induce LDH leakage in hepatocytes and their ability to induce hemolysis in red cells. In conclusion, the results obtained in our study strongly suggest that it is possible to assess the relative cytotoxicity of psychotropic drugs in rat hepatocyte cultures. It is proposed that this in vitro system provides a useful tool to evaluate new drugs at an early stage of their development, and to identify the most promising candidates within a class of structurally related compounds. In addition, it allows information to be obtained on possible mechanisms of cytotoxicity.

Binding of low-density lipoprotein to monolayer cultures of rat hepatocytes is increased by insulin and decreased by dexamethasone

Rat hepatocytes were maintained in monolayer culture for 20 h in the presence of 10% (v/v) new-born calf serum and then for a further 1–24 h in serum-free medium containing 2 g bovine serum albumin/l. The specific binding of human 125-I-LDL to two distinct sites was then measured at 4°C. Binding to site 1 was displaced by dextran sulphate while that to site 2 was not. The presence of 1–100 nM insulin for 24 h in the second incubation significantly increased binding to site 1. Significant increases were also seen when cells were incubated with 10 nM insulin for 1 h. No significant effects of insulin on binding to site 2 were observed. In contrast, 10 nM—1 μM dexamethasone decreased binding to both sites. The effects of these hormones were mutually antagonistic.

Aflatoxin B 1 and acetaminophen induce different cytoskeletal responses during prelethal hepatocyte injury

Primary monolayer cultures of adult rat hepatocytes exposed to the hepatocarcinogen aflatoxin B 1 (AFB 1) undergo a characteristic prelethal cytomorphological change that is distinct from their response to the necrogenic noncarcinogenic hepatotoxin, acetaminophen (AAP). Since changes in cell shape are mediated, at least in part, by the F-actin cytoskeleton, we designed experiments to study early prelethal alterations in the distribution of actin microfilaments in monolayer rat hepatocytes exposed to AFB 1 (100 μ M) or AAP (16 m M). Using rhodamine-phalloidin fluorescence microscopy, we observed that normal hepatocytes showed a submembranous F-actin distribution with focal short microfilaments extending into filopodia along the periphery of the cell. Hepatocytes exposed to AFB 1 for several hours exhibited retraction of their cytoplasm within a prominent circumferential peripheral band of F-actin microfilament bundles. Retraction of focal areas of peripheral cytoplasm was associated with an increased prominence of the radial F-actin-containing filopodia. Subsequently, there appeared peripheral blebs containing very little F-actin. Hepatocytes exposed to equivalently lethal concentrations of AAP initially remained structurally normal. After several hours, the cells exhibited a prominent polar aggregate of short microfilament bundles without the formation of blebs. Both the blebbing and the polar aggregation of F-actin bundles occurred prior to cell death as shown by lactate dehydrogenase release and trypan blue exclusion. These studies support the hypothesis that the lethal effects of these two agents may occur by different biological mechanisms that are associated with remarkably distinct prelethal cytoskeletal responses.

Cleavage of membrane secretory component to soluble secretory component occurs on the cell surface of rat hepatocyte monolayers.

Rat liver secretory component is synthesized as an integral membrane protein (mSC) and cleaved to an 80-kD soluble form (fSC) sometime during transcellular transport from the sinusoidal to the bile canalicular plasma membrane domain of hepatocytes. We have used 24-h monolayer cultures of rat hepatocytes to characterize the conversion of mSC to fSC. Cleavage of mSC in cultured hepatocytes is inhibited by the thiol protease inhibitors leupeptin, antipain, and E-64, but not by other inhibitors, including disopropylfluorophosphate, pepstatin, N-ethylmalemide, p-chloromercuribenzoic acid, and chloroquine. Leupeptin-mediated inhibition of cleavage is concentration dependent and reversible. In the presence or absence of leupeptin, only 10-20% of mSC is accessible at the cell surface. To characterize the behavior of surface as opposed to intracellular mSC, cell surface mSC was labeled with 125I by lactoperoxidase-catalyzed iodination at 4 degrees C. Cell surface 125I-mSC was converted to extracellular fSC at 4 degrees C in the absence of detectable internalization. Cleavage was inhibited by leupeptin and by anti-secretory component antiserum. Cleavage also occurred at 4 degrees C after cell disruption. In contrast, 125I-mSC that had been internalized from the cell surface was not converted to fSC at 4 degrees C in either intact or disrupted cells. Hepatocytes metabolically labeled with [35S]cys also released small quantities of fSC into the medium at 4 degrees C. The properties of fSC production indicate that cleavage occurs on the surface of cultured rat hepatocytes and not intracellularly. Other features of the cleavage reaction suggest that the mSC-cleaving protease is segregated from the majority of cell surface mSC, possibly within a specialized plasma membrane domain.

Increased prolyl hydroxylase activity and collagen synthesis in hepatocyte cultures exposed to superoxide.

Primary monolayer cultures of rat hepatocytes at confluence were exposed to an exogenously added source of superoxide, and its influence on collagen synthesis was examined. Superoxide was generated by the addition of dihydroxyfumarate to the culture medium. Exposure of hepatocytes to dihydroxyfumarate greatly stimulated the activity of prolyl hydroxylase and the synthesis of collagen. A significant increase in prolyl hydroxylase activity was observed with 5 micrograms per ml dihydroxyfumarate in 24 hr relative to that in the untreated cultures. Maximum stimulation of greater than 3-fold compared to the control value was elicited by 25 micrograms per ml dihydroxyfumarate. When scavengers of superoxide such as superoxide dismutase and Cu(Lys)2 were added in the medium, the increase in prolyl hydroxylase activity induced by dihydroxyfumarate was nearly abolished. Experiments with actinomycin D indicated that synthesis of new RNA was involved in the stimulation of prolyl hydroxylase activity. Analysis of collagen synthesis in cultures exposed to dihydroxyfumarate also showed a marked increase compared to that of the untreated cultures. The presence of superoxide dismutase in the medium significantly reduced the increase in collagen synthesis. Our results indicate that superoxide mediates the stimulation of collagen synthesis in hepatocytes. These findings may provide a possible explanation for excess collagen formation during induced liver fibrosis.

Temporal requirement for epidermal growth factor and insulin in the stimulation of hepatocyte DNA synthesis.

Primary monolayer cultures of adult rat hepatocytes were used to study the temporal interaction of epidermal growth factor (EGF) and insulin in their stimulation of DNA synthesis. The hepatocytes were cultured both under defined conditions and with serum. EGF and insulin interacted synergistically. The entry into S phase (G1 exit) followed first-order kinetics both in untreated and hormone-stimulated cells. Addition of EGF and insulin at the time of plating did not alter the lag period before the DNA synthesis started (25-26 h), but the rate constant for the S phase entry increased five- to sixfold. Experiments where the time of hormone addition was varied indicated that insulin exerted its strongest effect at the time of plating, whereas the cells became more responsive to EGF after being cultured for up to 40-50 h. The responsiveness to EGF at these later stages required an early exposure of the hepatocytes to insulin. When the administration of EGF to insulin-pretreated hepatocytes was postponed for 44 h after plating in serum-free medium, the cellular sensitivity was increased as compared to EGF treatment at 0 h (a one-log shift of the dose-effect curve), the rate of S phase entry was more rapid, and the lag period for the onset of the EGF effect (i.e., shift of rate constant) was shortened (6-7 h vs. 26 h).