Characterization of gene-specific DNA repair by primary cultures of rat hepatocytes

At present, almost all the information on gene-specific DNA repair in mammals comes from studies with transformed cell lines and proliferating primary cells obtained from rodents and humans. In the present study, we measured the repair of specific DNA regions in primary cultures of nondividing rat hepatocytes (parenchymal cells). DNA damage was induced by irradiating the primary cultures of hepatocytes with ultraviolet (UV) light, and the presence of cyclobutane pyrimidine dimers (CPDs) was measured by using T4 endonuclease V in the following: a 21-kb BamHI fragment containing the albumin gene, a 14-kb BamHI fragment containing the H-ras gene, and the genome overall. The frequency of CPDs in the two BamHI fragments and the genome overall were similar and ranged from 0.5 to 1.3 CPDs per 10 kb for UV doses of 5–30 J/m². However, the removal of CPDs from the DNA fragment containing the albumin gene was significantly higher than from that of the genome overall and the DNA fragment containing the H-ras gene. Within 24 hr, approximately 67% of the CPDs was removed from the DNA fragment containing the albumin gene versus less than 40% for the genome overall and the DNA fragment containing the H-ras gene. The lower repair observed for the 14-kb fragment containing the H-ras gene is probably indicative of repair of the nontranscribed region of this fragment because the H-ras gene makes up only 2.4 kb of the 14-kb fragment. Primary cultures of hepatocytes removed CPDs from the transcribed strand of albumin fragment more efficiently than from the nontranscribed strand; however, no differences were observed in the repair of the two strands of the fragment containing the H-ras gene. These results demonstrate that primary cultures of nondividing rat hepatocytes show differential repair of UV-induced DNA damage that is comparable to what has been reported for transformed, proliferating mammalian cell lines. J. Cell. Physiol. 176:314–322, 1998. © 1998 Wiley-Liss, Inc.     

Modulation of resting membrane potential of human and rat hepatocytes by sex steroids

The effect of sex steroids on the regulation of hepatocyte resting membrane potential (Em) was investigated. In adult rat liver snips, Em was significantly lower in males than females. In prepubertal animals no sex related difference was observed and the Em was comparable to that of adult females. Exposure of the human liver cell line, HepG2 cells, to 10 microM testosterone resulted in a significant hyperpolarization. These data indicate that the more negative Em found in male animals is specifically due to the influence of testosterone. In addition, they also suggest that sex hormone regulation of Em is maintained by HepG2 cells. This cell line may prove to be a good model for the study of liver cell function.     

Induction of DNA repair in human and rat hepatocytes by 1,6-dinitropyrene

1,6-Dinitropyrene (DNP) was found to be an extremely potent genotoxicant in metabolically competent primary cultures of human and rat hepatocytes. Dose-dependent increases in DNA repair as measured by unscheduled DNA synthesis (UDS) were observed in the range from 0.05 to 5 microM 1,6-DNP for both species, indicating that the rat-hepatocyte assay is an appropriate model for assessing genotoxic potential in human hepatocytes for this class of compound. Unlike some nitroaromatic compounds, 1,6-DNP did not require gut flora for metabolic activation. No DNA repair was observed in hepatocytes isolated from rats treated with 50 mg/kg 1,6-DNP in corn oil by gavage 2, 12 or 24 h previously. The reason for the lack of a response in vivo is not known, but may relate to detoxification or distribution of the compound in the animal.     

DNA fragmentation, DNA repair and apoptosis induced in primary rat hepatocytes by dienogest, dydrogesterone and 1,4,6-androstatriene-17beta-ol-3-one acetate

Four steroids that share the 17-hydroxy-3-oxopregna-4,6-diene structure - cyproterone acetate, chlormadinone acetate, megestrol acetate, and potassium canrenoate - have been shown previously to behave with different potency as liver-specific genotoxic agents, the response being markedly higher in female than in male rats, but similar in humans of both genders. In this study, performed to better define the relationship between chemical structure and genotoxicity, dydrogesterone (DGT) with double bonds C4=C5 and C6=C7, dienogest (DNG) with double bonds C4=C5 and C9=C10, and 1,4,6-androstatriene-17beta-ol-3-one acetate (ADT) with double bonds C1=C2, C4=C5 and C6=C7, were compared with cyproterone acetate (CPA) for their ability to induce DNA fragmentation and DNA repair synthesis in primary cultures of hepatocytes from three rats of each sex. At subtoxic concentrations, ranging from 10 to 90 microM, all four steroids consistently induced a dose-dependent increase of DNA fragmentation, which in all cases was higher in females than in males; their DNA damaging potency decreased in the order CPA > DNG > ADT > DGT. Under the same experimental conditions, the responses provided by the DNA repair-synthesis assay were positive or inconclusive in hepatocytes from female rats and consistently negative in hepatocytes from male rats. In the induction of apoptotic cells, examined in primary hepatocytes from female rats, CPA was more active than ADT and DGT, and DNG was inactive. Considered as a whole these findings suggest that a liver-specific genotoxic effect more marked in female than in male rats might be a common property of steroids with two or three double bonds.     

Induction of unscheduled DNA synthesis in primary cultures of rat, mouse, hamster, monkey, and human hepatocytes

Variation in hepatic metabolism between species may be an important factor in the differences observed in chemical carcinogenesis. We examined 6 chemicals representative of 4 chemical classes in the in vitro hepatocyte DNA repair assay using cells isolated from the Fischer-344 rat, B6C3F1 mouse, Syrian golden hamster, cynomolgus monkey and from human liver. Hepatocytes were isolated by in situ or biopsy liver perfusion and incubated with [3H]-thymidine and the test chemical. Unscheduled DNA synthesis (UDS) was measured as net grains/nucleus (NG) by quantitative autoradiography. Qualitative and quantitative differences in UDS responses were observed for every chemical. Liver cultures isolated from the rat, mouse, hamster, human, and monkey and treated with aflatoxin B1 or dimethylnitrosamine all yielded dose-related increases in NG. Human, rat, and hamster hepatocyte cultures yielded positive responses following exposure to the aromatic amines 2-acetylaminofluorene, 4-aminobiphenyl, and benzidine, whereas cultures isolated from the monkey and mouse yielded less than 0 NG. Treatment with benzo[a]pyrene (BAP) produced strong positive responses in monkey and human hepatocyte cultures, weak positive responses in hamster cultures, and equivocal or negative responses in rat and mouse hepatocyte cultures. Hepatocyte function was assessed by measurement of DNA content, glutathione content, BAP hydroxylase activity, p-nitroanisole-O-demethylase activity, p-nitrophenol conjugation, and urea synthesis rates. The functional capabilities of isolated hamster, monkey, and human hepatocyte cultures do not appear to correlate with UDS responses observed for any compound; however, they indicate that the cultures were metabolically competent at the time of chemical exposure. These studies suggest that rat hepatocytes are a suitable model for human hepatocytes, whereas mouse and male monkey hepatocytes may be insensitive to aromatic amines.     

Species differences in cytotoxic and genotoxic effects of phenacetin and paracetamol in primary monolayer cultures of hepatocytes

The cytotoxic and genotoxic effects of phenacetin and paracetamol were examined in monolayer cultures of hepatocytes isolated from the mouse, hamster, rat and guinea pig. No marked increase in unscheduled DNA synthesis (UDS) after exposing hepatocytes from any of the species to phenacetin was observed. At cytotoxic concentrations of paracetamol, an increased UDS in mouse hepatocytes in vitro was observed. Pretreatment of the mice by inducers of drug-metabolizing enzymes, such as 3-methylcholanthrene and Aroclor 1254, lowered the concentration threshold for the toxic responses. With rat hepatocytes only a minor increase in UDS was noted, while with hepatocytes from hamsters and guinea pigs in fact a decrease was seen. The narrow range observed between the cytotoxic and genotoxic effects of paracetamol makes it difficult to predict whether the initial DNA damage could lead to a mutation or whether the cells will die before the mutation is expressed. With respect to the cytotoxic effects, hamster hepatocytes were found to be most susceptible to paracetamol, followed by mouse, while rat and guinea pig were less affected. These data were in accordance with in vivo findings (Davis et al., 1974), indicating the potential value of hepatocyte culture when screening for possible liver toxic substances.     

Stimulation of DNA synthesis in primary cultures of adult rat hepatocytes by rat platelet-associated substance(s)

Summary Experiments in whole animals have shown that normally quiescent adult rat hepatocytes are induced to proliferate by blood borne substances, which we are now probing in primary monolayer cultures. Under our conditions, freshly isolated adult hepatocytes do not proliferate actively in a defined medium, but are stimulated to synthesize DNA — an essential first step — by either serum or an EGF-hormone combination. Stimulation of [³H]thymidine incorporation into hepatocyte DNA by addition of dialyzed mouse, human, horse, or bovine (fetal, newborn, or calf) serum, whose activities are all similar, is regularly surpassed by an EGF-insulin mixture without serum. This, in turn, is exceeded by dialyzed normal rat serum, which is several times more potent than the other sera tested. Removal of blood platelets reduces the activity of normal rat serum by over 50%. Heat inactivation (56° C) causes a similar loss, but heat treatment of platelet-poor serum fails to cause further reduction. The activity of mouse and human serum is not reduced by platelet removal. Serum from partially hepatectomized rats is not significantly more stimulatory than normal rat serum, and its activity is depressed in the same way by platelet deprivation and heat inactivation. Lack of enhancement by partial hepatectomy is not consonant with whole animal studies and requires further investigation. The heat-labile portion of the DNA synthesis-stimulating activity of rat serum appears to derive from platelets. This activity differs from the well-characterized heat-stable human PDGF. Its relation to other reported platelet-associated growth factors is still undetermined. This work was supported by USPHS Grants CA-02146 and AM-19435.     

Spontaneous apoptosis in primary cultures of human and rat hepatocytes: molecular mechanisms and regulation by dexamethasone

To elucidate the biochemical pathways leading to spontaneous apoptosis in primary cultures of human and rat hepatocytes, we examined the activation of the caspase cascade, the expression of Bcl-2-related-proteins and heat shock proteins. Comparisons were made before and after dexamethasone (DEX) treatment. We show that DEX inhibited spontaneous apoptosis in a dose-dependent manner. DEX increases the expression of anti-apoptotic Bcl-2 and Bcl-x(L) proteins, decreases the expression of pro-apoptotic Bax and inhibits Bad translocation thereby preventing the release of cytochrome c, the activation of caspases, and cell death. Although, the expression of Hsp27 and Hsp70 proteins remained unchanged, the oncogenic protein c-Myc is upregulated upon DEX-treatment. These results indicate that DEX mediates its survival effect against spontaneous apoptosis by acting upstream of the mitochondrial changes. Thus, the mitochondrial apoptotic pathway plays a major role in regulating spontaneous apoptosis in these cells. Blocking this pathway therefore may assist with organ preservation for transplant, drug screening, and other purposes.     

Gene transfer in primary cultures of human hepatocytes

Summary Using liposomes as the mediator of DNA transfer, we were successful in the transfection of human hepatocytes isolated from surgical samples with an E. coli β-galactosidase gene (β-gal). A comparison of transfection efficiency showed that of the four promoters used, cytomegalovirus (CMV) promoter yielded higher transfection efficiencies than Rous sarcoma virus (RSV), Simian virus-40 (SV-40) and human alpha-l antitrypsin (AAT) promoters. These studies represent the first report on the successful transfection of primary cultures of human hepatocytes.     

Comparative induction of unscheduled DNA synthesis by physical and chemical agents in non-proliferating primary cultures of rat hepatocytes

The incorporation of [³H]thymidine into DNA due to unscheduled DNA synthesis (UDS) induced by N-OH-2-acetylaminofluorene (N-OH-AAF), aflatoxin B₁ (AFB₁), ethyl methanesulfonate (EMS) and ultra-violet light was quantitated by autoradiography and by scintillation spectrometry on acid precipitable macromolecules or DNA insolated by isopycnic banding in cesium chloride (CsCl). Dose-dependent increases in UDS due to N-OH-AAF and AFB₁ treatment were found. Only 2-fold increases at the highest dose levels were found, however, when incorporated [³H]thymidine was quantitated by scintillation spectrometry. Seven, 11, and 25-fold increases in UDS induced by AFB₁, N-OH-AAF and ultra-violet light, respectively, were found when incorporated [³H]thymidine was quantitated by autoradiography, indicating a high sensitivity for detecting ‘long patch’ repair by this technique. Scintillation spectrometry was completely ineffective in detecting EMS-induced UDS, whereas autoradiography demonstrated a small, but significant induction in [³H]thymidine incorporation at high dose levels. The non-proliferative nature of the primary hepatocyte prohibits the uniform radioactive prelabeling of DNA, necessary in other techniques, for the detection of ‘short patch’ repair induced by compounds such as EMS. Therefore, the sensitivity of the primary cultured rat hepatocyte in conjunction with UDS for detecting DNA damage caused by mutagens and carcinogens which induce ‘short patch’ repair may be limited to the autoradiographic analysis of the unscheduled incorporation of [³H]thymidine.     

Anthraquinone cytotoxicity and apoptosis in primary cultures of rat hepatocytes

We compared three different anthraquinones, rhein (4,5-dihydroxy-anthraquinone-2-carboxylic acid), danthron (1,8-dihydroxy-anthraquinone) and chrysophanol (1,8-dihydroxy-3-methylanthraquinone), with respect to their toxicity and ability to induce apoptosis in primary cultures of rat hepatocytes. Rhein was the most effective in producing free radicals, and was the only one of the tested anthraquinones that could induce apoptosis. Addition of 50μM rhein to hepatocyte cultures led to depletion of intracellular reduced glutathione (GSH) and ATP and accumulation of lipid peroxidation products. The substances N,N′-diphenyl-p-phenylenediamine (DPPD), dithiothreitol (DTT), nifedipine and desferal all protected the hepatocytes, i.e. prevented viability loss and ATP depletion, and decreased the GSH depletion.

Cultures exposed to rhein for 15min and subsequently rinsed and incubated for 16h under normal culture conditions (complete medium) exhibited apoptosis, as shown by DNA fragmentation, nuclear condensation and positive TUNEL reaction. Pretreatment with the antioxidant DPPD and the iron-chelator desferal gave complete protection against apoptosis.

No signs of oxidative cell damage were detected when the cultures were exposed to danthron or chrysophanol. All three anthraquinones did, however, cause an immediate increase in the intracellular Ca²⁺ concentration.

We conclude that rhein, which contains one carboxyl group, is a suitable substrate for one-electron-reducing enzymes and an effective redox cycler, which leads to the production of oxygen-derived free radicals that eventually induce apoptotic cell death.     

Regulation of secretory component by glucocorticoids in primary cultures of rat hepatocytes

The present study examined the effects of steroid hormones on the production of secretory component (SC) by rat hepatocytes in cell culture. When hepatocytes were incubated in the presence of cortisol (10(-6) M), the levels of SC in media increased significantly after 2 days of incubation. This response was dose-dependent and specific for glucocorticoids because progesterone, dihydrotestosterone, and estradiol had no effect. When estradiol was added to the incubation media along with dexamethasone, a known potent synthetic glucocorticoid, it diminished the glucocorticoid response. The addition of cycloheximide to incubation media significantly decreased the effect of dexamethasone on SC accumulation. These findings suggest that glucocorticoid regulation of hepatocyte SC most likely involves stimulation of its synthesis. In addition, our results suggest that endogenous glucocorticoids may play a role in enhancing the clearance of IgA from blood into bile in the intact animal.     

Structural specificity of steroids in stimulating DNA synthesis and protooncogene expression in primary rat hepatocyte cultures

Among the chemical compounds of varied structure which possess liver tumour-promoting are steroids, such as estrogens, pregnenolone derivatives and anabolic steroids. Although the mechanism(s) of tumour promotion in liver by these xenobiotics is not well understood, it is clear that growth stimulation is one important element in their action. As a basis for better defining whether steroids stimulate growth by a common mechanism or fall into sub-groups with differing actions, the effects of 46 steroids on DNA synthesis and the expression of protooncogenes c-fos and c-myc were examined in primary cultures of normal rat hepatocytes. Tentative groupings of steroids have been identified based on apparent structural requirements for stimulation of DNA synthesis, and effects of auxiliary factors in modulating this growth stimulus. For a "progestin" group, insulin appeared to be permissive for stimulation of DNA synthesis, and presence of an ester or hydroxyl group at 17alpha-position in combination with a non-polar group at C(6) appeared to be required for stimulation. For the pregnenes, dexamethasone was stimulatory. Structural requirements include a non-polar substitution at 16alpha-position and presence of a 6alpha-methyl group. Androgens were weak or ineffective stimulators of DNA synthesis. Anabolic steroids were weak to strong stimulators and alteration to A ring structure in combination with non-polar substitution at 17alpha-position appeared to be required for the activity. With the exception of the anabolic steroid, dianabol, there do not appear to be strong correlation between ability to stimulate DNA synthesis and ability to induce protooncogene expression among the steroids. This study provides a starting point for future more detailed examination of growth-stimulatory mechanism(s) of action of steroids in the liver.     

Anthraquinone cytotoxicity and apoptosis in primary cultures of rat hepatocytes

We compared three different anthraquinones, rhein (4,5-dihydroxy-anthraquinone-2-carboxylic acid), danthron (1,8-dihydroxy-anthraquinone) and chrysophanol (1,8-dihydroxy-3-methylanthraquinone), with respect to their toxicity and ability to induce apoptosis in primary cultures of rat hepatocytes. Rhein was the most effective in producing free radicals, and was the only one of the tested anthraquinones that could induce apoptosis. Addition of 50μM rhein to hepatocyte cultures led to depletion of intracellular reduced glutathione (GSH) and ATP and accumulation of lipid peroxidation products. The substances N,N'-diphenyl-p-phenylenediamine (DPPD), dithiothreitol (DTT), nifedipine and desferal all protected the hepatocytes, i.e. prevented viability loss and ATP depletion, and decreased the GSH depletion.

Cultures exposed to rhein for 15min and subsequently rinsed and incubated for 16h under normal culture conditions (complete medium) exhibited apoptosis, as shown by DNA fragmentation, nuclear condensation and positive TUNEL reaction. Pretreatment with the antioxidant DPPD and the iron-chelator desferal gave complete protection against apoptosis.

No signs of oxidative cell damage were detected when the cultures were exposed to danthron or chrysophanol. All three anthraquinones did, however, cause an immediate increase in the intracellular Ca²⁺ concentration.

We conclude that rhein, which contains one carboxyl group, is a suitable substrate for one-electron-reducing enzymes and an effective redox cycler, which leads to the production of oxygen-derived free radicals that eventually induce apoptotic cell death.     

Metabolism of ochratoxin A by primary cultures of rat hepatocytes.

Association of ochratoxin A with cultured rat hepatocytes occurs at 4 degrees C, and the saturation level in the medium is 0.3 mM ochratoxin A, with maximal binding after 60 min. At 37 degrees C the level of cell-associated ochratoxin A increased up to 6 h and remained at 2 nmol of toxin per mg of cell protein for 30 h. With increasing concentrations of ochratoxin A, increasing amounts of the toxin accumulated in the cells; saturation occurred at a concentration of 0.3 mM. Ochratoxin A was metabolized by hepatocytes at 37 degrees. (4R)-4-Hydroxyochratoxin A appeared in the medium at a maximal level (about 30 nmol/mg of cell protein) at an ochratoxin A concentration of 0.25 mM after 48 h of incubation. Small amounts of (4S)-4-hydroxyochratoxin A were detected only after incubation for 22 h or longer.