DNA damage and repair in gamma-glutamyltranspeptidase-positive and negative hepatocytes in primary culture from carcinogen-treated rats.

Chemically induced DNA fragmentation and unscheduled DNA synthesis were determined in gamma-glutamyltranspeptidase (GGT)-positive and GGT-negative hepatocytes isolated from rat livers subjected to a multistage hepatocarcinogenesis regimen (Solt-Farber), which included 0.05% phenobarbital promotion for 6 weeks (early) or 6 months (late). The results indicated that there was DNA damage in untreated GGT-positive and GGT-negative hepatocytes with either period of promotion compared with normal hepatocytes; however, no statistical difference could be seen between GGT-positive and GGT-negative hepatocytes. DNA damage induced in vitro by the activation-dependent carcinogen dimethylnitrosamine was much less in GGT-positive hepatocytes than in GGT-negative hepatocytes or normal hepatocytes. No significant difference in DNA damage was seen in both GGT-positive and GGT-negative cell populations following treatment with the activation-independent carcinogen ethylnitrosourea (ENU), although DNA damage of GGT-positive hepatocytes was less than that of normal hepatocytes. The background of unscheduled DNA synthesis in both GGT-positive and GGT-negative hepatocytes at either time of promotion was higher than that of normal hepatocytes. The capacity for DNA repair in GGT-positive hepatocytes appeared to be lower than that in GGT-negative hepatocytes. GGT-negative hepatocytes exhibited a lower capacity for DNA repair than that of normal hepatocytes in terms of the rate of unscheduled DNA synthesis elicited by dimethylnitrosamine and ethylnitrosourea in vitro.     

Induction of unscheduled DNA synthesis in the nuclear matrix of rat hepatocytes after whole-body gamma irradiation of the animals

DNA synthesis in hepatocytes was studied by incorporation of [3H]thymidine administered to portal vein of gamma-irradiated (80 Gy) rats. It was shown that the rate of replicative DNA synthesis decreased in hepatocytes of the regenerating liver and unscheduled DNA synthesis was induced at the nuclear matrix of resting cells of the intact liver. In addition to repair synthesis, DNA synthesis resembling replicative one ("aberrant" DNA synthesis) accounts for a considerable fraction of gamma-radiation-induced synthesis of DNA at the nuclear matrix.     

Effect of N-2-acetylaminofluorene on poly(ADP-ribose) polymerase activity and DNA synthesis in cultured rat hepatocytes exposed to epidermal growth factor.

The nuclear enzyme poly(ADP-ribose) polymerase is involved in basic cellular processes such as DNA replication and repair, cell differentiation and transformation, gene expression. We have studied the effect of 2AAF, a genotoxic aromatic amine, on pADPRP activity during DNA synthesis stimulated by EGF, using the cultured rat hepatocytes model. DNA synthesis was measured as [3H]thymidine incorporated/microgram DNA while pADPRP activity was expressed in pmol[32P]NAD incorporated/min/microgram DNA. Our results show that 2AAF treatment of EGF-stimulated rat hepatocytes induces a full block of DNA replication which is preceded and accompanied by a net inhibition of endogenous and total pADPRP activity, respectively. A block in pADPRP activity in normal hepatocytes, exposed to 2AAF in vitro or in vivo, could play a key role in cell transformation. Our data add further information on the possible involvement of this nuclear catalytic activity during DNA replication.     

Transforming growth factor beta inhibits DNA synthesis in hepatocytes isolated from normal and regenerating rat liver

The inhibitory action of transforming growth factor beta (TGF beta) on DNA synthesis in hepatocytes isolated from the liver of normal rats or from the liver remnant of rats 18 h following partial hepatectomy was compared. Continuous exposure to TGF beta inhibited DNA synthesis of cultured hepatocytes to a similar degree in both groups when labelled with 3H thymidine from 24-48 h or 48-72 h. At 20 pM TGF beta, 3H-thymidine incorporation was reduced by 64-78% in hepatocytes from normal liver and by 60-73% in cells from 18 h regenerating liver. The nuclear labelling index was reduced by 70-80% in all cells. Exposure to TGF beta at concentrations up to 500 pM from 0-24 h had no effect on 3H-thymidine incorporation, but exposure at 20 pM for 24 h periods thereafter was uniformally effective. These results indicate that there is no change in sensitivity of hepatocytes from 18 h regenerating liver to TGF beta, compared with normal cells, and that TGF beta may act at some point in the G1 phase of the cell cycle to inhibit hepatocyte growth.     

Problems in the estimation of mutation rates and in the detection of induced mutations in man

The contribution of nuclear-directed protein synthesis in the repair of lethal and mitochondrial genetic damage after UV-irradiation of exponential and stiationary phase haploid yeast cells was examined. This was carried out using cycloheximide (CH), a specific inhibitor of nuclear protein synthesis. It appears that nuclear protein synthesis required for the increase in survival seen after the liquid holding of cells at both stages, as well as for the “petite” recovery seen after the liquid holding of exponential phase cells. The characteristic negative liquid holding effect observed for the UV induction of “petites” in stationary phase cells (increase of the frequency of “petites” during storage) remained following all the treatments which inhibited nuclear protein synthesis. However, the application of photoreactivating light following dark holding with cycloheximide indicates that some steps of the repair of both nuclear and mitochondrial damage are performed in the absence of a synthesis of proteins.     

Regulation of DNA synthesis in human fetal hepatocytes by placental lactogen, growth hormone, and insulin-like growth factor I/somatomedin-C

Hepatocytes were isolated by gentle collagenase digestion of liver fragments from human fetuses of 8-16 weeks gestation obtained following prostaglandin-induced pregnancy terminations. They were maintained on collagen-coated tissue culture dishes in selective arginine-free medium for up to 72 hr, and the action of hormones and growth factors on DNA synthesis was studied by autoradiography following incubation with 3H-thymidine. The labeling index of hepatocytes was consistently enhanced by 25-250 ng/ml human placental lactogen (HPL), 25-250 ng/ml human growth hormone (HGH), 10-50 ng/ml insulin-like growth factor I/somatomedin-C (IGF I/Sm-C), and 10% dialyzed fetal calf serum, reaching a maximum of three- to four-fold greater than in basal medium alone. Under basal conditions, 30% of hepatocytes stained positively for the presence of IGF peptides using a monoclonal antibody raised against purified human IGF I/Sm-C. Although this proportion did not change following treatment with HGH and HPL, IGF I/Sm-C released by cells into culture medium was considerably increased in the presence of both hormones. Incubation with the SmC 1.2 monoclonal antibody abolished the increase in labeling index in response to IGF I/Sm-C and partially blocked the response to both HPL and HGH. These results indicate that both HPL and HGH stimulate DNA synthesis in human fetal hepatocytes and suggest that this effect is at least partly indirect through the release and paracrine action of IGF I/Sm-C.     

Simultaneous induction of galectin-3 phosphorylated on tyrosine residue, p21(WAF1/Cip1/Sdi1), and the proliferating cell nuclear antigen at a distinctive period of repair of hepatocytes injured by CCl4

The period of repair of hepatocytes injured by CCl4 and signaling proteins intrinsic to this period were examined. A 30 kDa polypeptide detected by immunoblot analysis using anti-phosphotyrosine antibody in livers from rats 48 to 72 h after administration of a single dose of CCl4 was identified as galectin-3 induced in cytoplasm of periportal hepatocytes and phosphorylated on tyrosine residue(s). Simultaneously, these hepatocytes induced p21(WAF1/Cip1/Sdi1) in the nucleus and the proliferating cell nuclear antigen in both the nucleus and the cytoplasm, suggesting that hepatocytes during this distinctive period are quiescent and repair cellular damage. Trabecular architecture of hepatocytes with the proliferating cell nuclear antigen only in the nucleus was found at 96 h. These findings indicate that galectin-3 is a novel member of signaling proteins downstream of tyrosine kinase, and suggest that it plays roles in supporting repair or survival of the injured hepatocytes rather than their proliferation that is likely to be initiated later than 72 h.     

Postradiation activation of proteinases associated with the hepatocyte nuclear matrix in rats

Proteinase activity of the nuclear matrix of rat hepatocytes was 7-8-times as high as that of initial nuclei. Activity of nuclear matrix proteinases was optimum at pH 8-9. Proteolytic activity associated with the nuclear matrix, increased by 1.4-2.8 times 2 h following irradiation with doses from 5 to 30 Gy. Cycloheximide, a protein synthesis inhibitor, administered to animals failed to suppress the radiation-induced increase of proteinase activity of the nuclear matrix.     

Cryopreservation and long-term storage of primary rat hepatocytes: Effects on substrate-specific cytochrome P450-dependent activities and unscheduled DNA synthesis

The effects of cryopreservation and long-term storage on substrate-specific cytochrome P45O-dependent activities and unscheduled DNA synthesis were studied in freshly isolated and cryopreserved hepatocytes derived from adult male Fischer 344 and Sprague-Dawley rats. Primary rat hepatocytes were isolated via an in situ collagenase perfusion technique, cryopreserved at –196°C, and thawed at 5 weeks and 104 and 156 weeks post-freezing. In Fischer 344 and Sprague-Dawley rats, cryopreserved hepatocytes were equivalent or similar to freshly isolated hepatocytes in substrate-specific activities for 7-ethoxyresorufin-0-deethylase and dimethylnitrosamine-N-demethylase and unscheduled DNA synthesis responses. No significant differences in activities toward 7-ethoxyresorufin-0-deethylase and dimethylnitrosamine-N-demethylase, the substrate-specific activities for cytochromes P4501A1 and P4501A2 and cytochrome P4502E1, respectively, were observed between freshly isolated and cryopreserved hepatocytes. Similar unscheduled DNA synthesis responses, a measure of DNA damage and repair, were observed after exposure to the genotoxic carcinogens 2-acetylaminofluorene, 7,12-dimethyEbenz[a]anthracene, and dimethylnitrosamine; although some decreases were also observed in Fischer 344 hepatocytes after 104 weeks and Sprague-Dawley hepatocytes after 156 weeks in the highest concentrations tested. These results suggest that cryopreserved hepatocytes, stored for extended periods of time in liquid nitrogen, are metabolically equivalent to freshly isolated hepatocytes in their ability to activate precarcinogens.Abbreviations 2-AAF 2-acetylaminofluorene - DDH₂O distilled deionized water - DMBA 7,12-dimethyIbenz[a]anthracene - DMN dimethylnitrosamine - DMNA dimethylnitrosamine-N-demethylase - DMSO dimethyl sulfoxide - EROD 7-ethoxyresorufin-O-deethylase - F344 Fischer 344 - FBS fetal bovine serum - %IR percentage of cells in repair - LN₂ liquid nitrogen - LSD least significant difference - CG cytoplasmic grains - NNG net nuclear grains - SD Sprague-Dawley - UDS unscheduled DNA synthesis - WE Williams' Medium E     

Unscheduled DNA synthesis in rat tracheal epithelial cells, hepatocytes and spermatocytes following exposure to methyl chloride in vitro and in vivo

Measurement of DNA repair as unscheduled DNA synthesis (UDS) in vitro following exposure in vivo in multiple tissues from the same treated animal can provide valuable information relating to the tissue- and organ-specificity of chemically induced DNA damage. UDS was evaluated in primary cultures of rat tracheal epithelial cells, hepatocytes and pachytene spermatocytes after exposure in vitro to methyl chloride (MeCl), and after isolation from the same treated animal following inhalation exposure in vivo. Concentrations of 1-10% MeCl in vitro induced UDS in hepatocytes and spermatocytes, but not in tracheal epithelial cells. Inhalation exposure to MeCl in vivo (3000-3500 ppm 6 h/day for 5 successive days) failed to induce DNA repair in any cell type. In vivo exposure to 15 000 ppm MeCl for 3 h also failed to induce UDS in tracheal epithelial cells and spermatocytes, but did cause a marginal increase in UDS in hepatocytes. Thus, MeCl appears to be a weak, direct-acting genotoxicant. While activity could be measured in hepatocytes and spermatocytes directly in vitro, only extremely high concentrations of MeCl elicited a response in the whole animal, and then only in hepatocytes.     

Perichromatin fibrils and chromatin ultrastructural pattern

The relationship between the synthesis of acidic nuclear proteins, phosphoproteins, RNA and chromatin ultrastructural pattern was studied in regenerating rat hepatocytes after partial hepatectomy. α-Amanitin induced, as early as 30 min after injection, a reduction of RNA synthesis to about 50% of the control level; the degree of inhibition had remained the same at 2 h after poisoning. No change was detected either in acidic nuclear protein synthesis or in phosphorylation for the whole time examined. The DNA-containing structures, demonstrated by the Gautier staining procedure, were in a dispersed pattern either in untreated regenerating hepatocytes or 30 min after α-amanitin administration to rats; but they did appear in a condensed form 1 h and more especially 2 h after toxin injection. In untreated regenerating hepatocytes, the regressive EDTA staining method for RNP revealed a large quantity of perichromatin fibrils which remained unchanged 30 min after α-amanitin treatment and were diminished at 1 h and strongly reduced 2 h thereafter.Cycloheximide treatment promptly reduced the synthesis of nuclear acidic proteins while leaving unchanged the synthesis of RNA; the quantity of perichromatin fibrils and the loosened appearance of DNA-containing structures were the same as in the control rat nuclei.Our results showed that the ultrastructural pattern of chromatin was not directly related either to the synthesis of RNA or to acidic nuclear proteins or to the phosphorylation of phosphoproteins; on the contrary, a strict relationship with the quantity of perichromatin fibrils was demonstrated. The possible interaction of perichromatin fibrils with other chromatin components was discussed as a possible regulatory mechanism of chromatin pattern.     

Synergistic stimulatory effect of glucocorticoid, EGF and insulin on the synthesis of ribosomal RNA and phosphorylation of nucleolin in primary cultured rat hepatocytes.

Effects of dexamethasone, EGF and insulin on the synthesis of rRNA and phosphorylation of nucleolin in primary cultures of adult rat hepatocytes were studied. Hepatocytes were incubated for 8 h with EGF (20 ng/ml) plus insulin (0.1 microM) and/or for 20 h with dexamethasone (1 microM) before the end of incubation. The incorporation of [3H]uridine into acid-insoluble materials and the nuclear activity of RNA polymerase I were stimulated approx. 2-fold with EGF plus insulin and these were further enhanced 2-3-times by dexamethasone, although dexamethasone alone exerted no stimulation. When hepatocytes were incubated with [32P]orthophosphate, similar enhancement by these hormones was also observed in the phosphorylation of a nucleolar protein, nucleolin, which was detected by immunoprecipitation with anti-nucleolin antibodies. The amount of nucleolin was slightly increased by EGF plus insulin in the presence of dexamethasone, but scarcely changed by treatment with EGF plus insulin or dexamethasone alone. Cycloheximide inhibited RNA synthesis to a greater or lesser degree in the case of all hepatocytes which were cultured with or without these hormonal treatments. These results indicate that the in vivo effect of glucocorticoid on rRNA synthesis and nucleolin phosphorylation in liver is primarily a direct action on parenchymal cells and requires other growth factors such as EGF and insulin.     

Sister subchromatid exchanged segments and chromosome structure

The relationship between the synthesis of acidic nuclear proteins, phosphoproteins, RNA and chromatin ultrastructural pattern was studied in regenerating rat hepatocytes after partial hepatectomy. α-Amanitin induced, as early as 30 min after injection, a reduction of RNA synthesis to about 50% of the control level; the degree of inhibition had remained the same at 2 h after poisoning. No change was detected either in acidic nuclear protein synthesis or in phosphorylation for the whole time examined. The DNA-containing structures, demonstrated by the Gautier staining procedure, were in a dispersed pattern either in untreated regenerating hepatocytes or 30 min after α-amanitin administration to rats; but they did appear in a condensed form 1 h and more especially 2 h after toxin injection. In untreated regenerating hepatocytes, the regressive EDTA staining method for RNP revealed a large quantity of perichromatin fibrils which remained unchanged 30 min after α-amanitin treatment and were diminished at 1 h and strongly reduced 2 h thereafter.Cycloheximide treatment promptly reduced the synthesis of nuclear acidic proteins while leaving unchanged the synthesis of RNA; the quantity of perichromatin fibrils and the loosened appearance of DNA-containing structures were the same as in the control rat nuclei.Our results showed that the ultrastructural pattern of chromatin was not directly related either to the synthesis of RNA or to acidic nuclear proteins or to the phosphorylation of phosphoproteins; on the contrary, a strict relationship with the quantity of perichromatin fibrils was demonstrated. The possible interaction of perichromatin fibrils with other chromatin components was discussed as a possible regulatory mechanism of chromatin pattern.     

DNA-polymerase activity and DNA synthesis in the hepatocyte nuclear matrix

The comparative analysis of DNA-synthetase activity of hepatocytes, isolated nuclei and nuclear matrix from normal and regenerating rat liver was performed. The highest enrichment with newly-synthesized DNA was registered in the DNA fraction associated with the nuclear matrix both in vivo and in vitro. The functioning of DNA polymerases alpha and beta in the matrix was shown. Our results indicate that DNA polymerase beta is more firmly bound with the nuclear matrix in the cells of normal liver but this enzyme is eluted almost completely from the nuclei of regenerating liver cells. At the first moment after gamma-irradiation of rats the preferential initiation of unscheduled DNA synthesis in vivo has been observed on the nuclear skeletal structures. This may serve as an indication on the possibility that DNA repair process occurs on the nuclear matrix.     

Relationship between glucocorticoid-mediated early decrease of protein synthesis and the steady state decreases of glucocorticoid receptor and TGF-beta activator protein.

The present studies were undertaken to better elucidate the mechanism(s) by which glucocorticoids inhibit the process of tissue repair. The aim was to determine the importance of the effect of glucocorticoids on decreasing the nuclear TGF-beta activator protein. The relationship amongst inhibition of noncollagen protein synthesis and the steady state levels of glucocorticoid receptor and the TGF-beta activator protein was examined. Both collagen and noncollagen synthesis were determined in skin fibroblast cell culture and in dermis. Fetal rat skin fibroblasts were treated for 24 h with dexamethsone. Noncollagen protein synthesis was decreased to approximately one-half that of collagen synthesis. Similar results were obtained in dermis in vivo. At 48 h, dexamethasone treatment resulted in practically no nuclear glucocorticoid receptor being noted and a 40-45% steady state decrease of the TGF-beta activator protein. We have recently reported that the TGF-beta activator protein exists as a protein complex with SP1 and NFKB (p 49). The present data indicate that although the marked decrease of the nuclear glucocorticoid receptor DNA binding following dexamethasone treatment is not comparable to the early 24 h decrease of noncollagen protein synthesis, the decrease of the TGF-beta activator protein complex binding to DNA is. The present studies indicate the importance of the effect of dexamethasone on the steady state level of the TGF-beta activator protein complex in the glucocorticoid-mediated process inhibition of tissue repair and the relationship of this decrease to the earlier inhibition of protein synthesis.     

Strain differences in in vitro rat hepatocyte unscheduled DNA synthesis (UDS): effect of UV is independent of strain while increased sensitivity is apparent using Fischer-344 instead of Sprague-Dawley rats

The unscheduled DNA synthesis (UDS) assay measures DNA repair following in vitro treatment of rat primary hepatocytes. This report compares the UDS response of primary hepatocytes from 2 widely used rat strains, the Fischer-344 (F344) and Sprague-Dawley (SD) strains. Ultraviolet (UV) light and 5 known genotoxic chemicals were evaluated in each strain in parallel experiments. The chemicals tested were 2-acetylaminofluorene (2-AAF), 4-aminobiphenyl (4-AB), benzidine, dimethylnitrosamine (DMN) and N-propyl-N'-nitro-N-nitrosoguanidine (PNNG). Four of these compounds (2-AAF, 4-AB, benzidine and DMN) require metabolic activation. Benzidine and PNNG were both negative using SD rat hepatocytes, but were weakly positive using F344 rat hepatocytes. In the first of 2 experiments, 4-AB was inconclusive in SD hepatocytes, but strongly positive in F344 cells. In the second experiment, 4-AB was positive in hepatocytes from both strains. 2-AAF was more strongly positive in F344 cells than in SD cells. DMN and UV light induced positive dose responses with little or no differences between strains. It is concluded that hepatocytes from F344 rats may be more sensitive, qualitatively and quantitatively, than hepatocytes from SD rats as indicators of UDS. This difference is not due to intrinsic differences in DNA repair mechanisms but is probably due to differences in drug-metabolizing enzymes between these strains. Thus, for routine screening, F344 rats are preferable for measurement of the in vitro UDS-inducing potential of compounds.     

Measurement of genotoxic activity in multiple tissues following inhalation exposure to dimethylnitrosamine

Chemically-induced DNA repair was measured as unscheduled DNA synthesis (UDS) in selected tissues isolated from rats following in vivo exposure to inhaled dimethylnitrosamine (DMN). UDS was evaluated in epithelial cells from rat nasal turbinates and trachea, in hepatocytes and in pachytene spermatocytes from the same treated animal. At nominal concentrations of 500 and 1000 ppm of DMN in air, chemically-induced DNA repair was observed in the epithelial cells of the upper respiratory system. DMN also entered the circulation, as evidenced by a strong DNA-repair response in hepatocytes. No DNA repair was observed in pachytene spermatocytes indicating either that DMN or its active metabolites did not reach the testes in sufficient concentration to induce DNA repair or that the testes lacked the capability to metabolically activate the compound. These results illustrate the potential of this approach to assess the organ-specific genotoxicity of environmental chemicals.