Hydroxyurea-sensitive thymidine incorporation in rat liver and kidney following administration of dimethylnitrosamine

In rats treated with dimethylnitrosamine (DMN), the sensitivity of [3H] thymidine incorporation to inhibition by hydroxyurea was determined in the liver and kidney. A 70% inhibition was produced in control animals with doses of hydroxyurea from 50 to 250 mg/kg body wt. Twelve hours after administration of DMN, hepatic thymidine incorporation was unaffected by 50 mg/kg hydroxyurea, progressive reduction in incorporation occurred as the dose of inhibitor was increased. A similar result was obtained in kidney only by dietary conditioning of rats to ensure a high renal metabolism of the DMN. In contrast, at 72 h after DMN treatment thymidine incorporation in both liver and kidney was rapidly inhibited by administration of 50 mg/kg hydroxyurea. The data, assessed together with various parameters of DMN-induced repair and replicative DNA synthesis, suggest the use of hydroxyurea as a means to study DNA repair in intact animals.     

Inhibition of DNA synthesis in cultured lymphocytes and tumor cells by extracts of betel nut, tobacco, and miang leaf, plant substances associated with cancer of the ororespiratory epithelium.

The high incidence of oropharyngeal, esophageal, and laryngeal cancers in certain parts of the world has been ascribed to conjugated tannins found in certain folk medicinal herbs. We extracted miang leaf and betel nut with phosphate-buffered saline (0.14 M NaCl, 0.15 M potassium phosphate buffer, pH 7.4) and found that the extracts inhibited [3H]thymidine incorporation by phytohemagglutinin-stimulated human lymphocytes and by rat mammary tumor and mouse L-cells in logarithmic growth. Pretreating the lymphocytes for 1 or 4 hr with the extracts inhibited phytohemagglutinin-induced thymidine incorporation 72 hr later. At concentrations of 2.5 volumes % or lower, miang and betel nut extracts inhibited thymidine incorporation by 40 to 98% without any apparent signs of toxicity as demonstrated by the 66Rb equilibrium assay. In addition, neither extract inhibited cytotoxicity of rat mammary tumor cells by immune syngeneic spleen cells. The molecular weights of the inhibitory factors were between 1,000 and 10,000 daltons as determined by ultrafiltration and were unaffected by boiling for 3 min or by treatment with alcohol and, therefore, are probably not proteins. This in vitro demonstration of inhibition of DNA synthesis by these plant extracts presumably enriched for conjugated tannins may relate to inhibition of growth of rats and chicks fed conjugated tanin-contaminated sorghum feed. The carcinogenic potential of either these extracts or conjugated tannins is not yet established.     

Influence of mitoxantrone on nucleolar function in MDA-MB-231 human breast tumor cell line

The effect of mitoxantrone (DHAQ) on [3H]thymidine and [3H]uridine incorporation by exponentially growing MDA-MB-231, a human breast tumor cell line has been studied. The results have indicated that DHAQ was more effective in inhibiting [3H]thymidine than [3H]uridine incorporation in a concentration dependent manner. Following drug treatment at 20 ng/ml concentration, 50% inhibition of growth and [3H]thymidine incorporation were noted, whereas [3H]uridine incorporation was only inhibited by about 12%. At 2000 ng/ml of DHAQ the inhibition of cell growth, [3H]thymidine and [3H]uridine incorporations were 78%, 95% and 62%, respectively. Nuclear-associated radioactivity detected at light and electron microscope autoradiographic levels after [3H]thymidine and [3H]uridine incorporations, into DHAQ treated cells indicated that DHAQ prevented the accumulation of radioactivity into the nuclei in a concentration dependent manner. These results gave further indication that mitoxantrone induced a definitive alteration of nuclear template activities, correlated with nuclear functional-structural relation and suggested that the nucleoli were the primary site of DHAQ action.     

In vitro inhibition of tritiated thymidine uptake in Morris hepatoma cells by normal rat liver extract: a possible liver chalone.

A phosphate-buffered saline extract of normal rat liver tissue almost completely inhibited DNA synthesis in Buffalo rat Morris hepatoma 7777 cells in vitro. This effect was tissue-specific because it did not occur with extracts of kidney, spleen, heart, lung, muscle, and hepatoma. The liver extracts did not inhibit in vitro human prostate carcinoma or phytohemagglutinin-stimulated human and rat peripheral blood lymphocyte cultures. The addition of 10% fetal calf serum in the incubation medium had no effect on this inhibition. We determined that doses of liver extract that inhibit thymidine incorporation were not toxic inasmuch as treated cells remained viable, as indicated by trypan blue exclusion. The liver extract may thus contain a cell-specific mitotic inhibitor, a chalone for hepatoma cells.     

The effect of N-nitrosodimethylamine and N-nitroso-N-benzylmethylamine on [3H]thymidine incorporation into the DNA of target and non-target tissues in the zinc-deficient rat

The influence of dimethylnitrosamine (NDMA), a liver carcinogen and nitrosobenzylmethylamine (NBMA) as esophageal carcinogen on [3H]thymidine incorporation into DNA was studied in the esophagus, liver, forestomach and gastric-stomach of fasted zinc-deficient and pair-fed zinc-sufficient rats, measured 1 h after the thymidine injection. In the untreated animals, dietary zinc deficiency significantly depressed [3H]thymidine incorporation (89%) into the DNA of forestomach only. NDMA, administered 4 h before death at 30 mg/kg, produced 50-55% inhibition in [3H]thymidine incorporation in the esophagus of rats of both dietary groups. This inhibition became more pronounced in the forestomach, reaching 90-94% in the zinc-deficient forestomach and 63-86% in their zinc-sufficient counterparts at NDMA levels ranging from 5 to 20 mg/kg. NBMA at 2 mg/kg produced 60% inhibition in the DNA synthesis of zinc-deficient esophagus and 40% in the corresponding zinc-sufficient ones, this difference being significant at P less than 0.01. On the other hand, [3H]thymidine incorporation in the forestomach DNA was markedly lowered in the presence of NBMA. Recovery of DNA synthesis in the 4 tissues from a single dose of NDMA or NBMA was monitored up to 12 days. Following NDMA injection, [3H]thymidine incorporation in the forestomach of both dietary groups remained inhibited (3% of untreated control) for 5 days, a significant recovery (45% of untreated control) was observed only in the zinc-sufficient animals. Following NBMA injection, [3H]thymidine incorporation was also inhibited in the zinc-deficient esophagus for a longer time than in the zinc-sufficient ones. In autoradiographic studies, the percentage of cells showing 30 or more grains/nucleus was significantly decreased (P less than 0.001) in the NBMA-treated and marginally decreased (P less than 0.05) in the NDMA- or NBMA-treated zinc-deficient and zinc-sufficient rats as compared with the saline-treated zinc-sufficient controls. These results were discussed in the light of our previous findings that NBMA enhanced esophageal tumorigenesis in the zinc-deficient rats and that NDMA, a liver carcinogen produced forestomach tumors in the zinc-deficient but not in the zinc-sufficient rats.     

Effects of N-acetoxy-2-acetylaminofluorene and N'-nitro-N-nitrosoguanidine on nuclear DNA synthesis in rat liver.

A system for the study of DNA synthesis in isolated nuclei is described for sham and regenerating rat liver. The system has been characterized with respect to nuclear purity, conditions for optimum incorporation of [5-methyl-3H]thymidine triphosphate, time course of incorporation, product analysis by neutral and alkaline sucrose gradients, and the effect of exogenously added DNA. No difference in the basal level of activity was detected between nuclei prepared from normal or regenerating liver when isolated 24 hr after operation. However, exogenous activated DNA preferentially stimulated [5-methyl-3H]thymidine triphosphate incorporation in nuclei from regenerating liver. Activated DNA caused to react with the carcinogen N-acetoxy-2-acetylaminofluorene was a less effective primer-template in this system and decreased in a dose-dependent fashion the incorporation of [5-methyl-3H]thymidine triphosphate to below basal levels in nuclei from both normal and regenerating liver. The carcinogen N-methyl-N'-nitro-N-nitrosoguanidine had no inhibitory effect when assayed in this fashion.     

Suppression of DNA synthesis in NEL-M1 human melanoma cells by triamcinolone acetonide

The present study characterizes the biological response of a cloned human melanotic melanoma cell line (NEL-M1) to glucocorticoid treatment. Scatchard analysis of the binding of [3H]-triamcinolone acetonide to the glucocorticoid receptor showed a binding capacity of 170 fmol/mg protein and a dissociation constant (KD) of 1.76 X 10(-9) M. When the 3H-labeled cytosol was warmed to 25 degrees C for 30 min and then incubated with DNA-cellulose at 4 degrees C for 45 min, 32% of the specific glucocorticoid-receptor complexes were bound to DNA-cellulose. Additional studies showed that when NEL-M1 cells were cultured for 72 h with 1 X 10(-7) M triamcinolone acetonide, a 36% reduction in cellular growth was observed compared to the control cultures. The calculated population doubling time for the control cells was 17.5 h compared to 20.3 h for the triamcinolone acetonide-treated cells. Analysis of the effect of triamcinolone acetonide on macromolecular synthesis revealed that, over a 24-h incubation period, triamcinolone acetonide (a) inhibited [3H]thymidine incorporation by 51%; (b) increased the incorporation of the melanin precursor, L-3,4-dihydroxy[3H]phenylalanine, by 59%; and (c) had essentially no effect on [3H]leucine or [3H]uridine incorporation. During this same incubation period, triamcinolone acetonide inhibited [3H]glucose uptake by 19%. Further studies using synchronized NEL-M1 cells clearly show that the earliest detectable action of triamcinolone acetonide was the inhibition [3H]thymidine incorporation during the S phase of the cell cycle. Thus, these findings show that the human melanoma cell line, NEL-M1, is biologically responsive to glucocorticoid treatment. Continued studies using NEL-M1 cells may eventually lead to ascertaining the exact mechanism by which glucocorticoids regulate DNA synthesis.     

Cellular pharmacology in murine and human leukemic cell lines of diaziquone (NSC 182986)

We investigated the in vitro interaction with and antitumor effect on several murine and human leukemic cell lines of diaziquone (AZQ). L1210 cells accumulated AZQ from Roswell Park Memorial Institute Medium 1640 with or without newborn calf serum by a temperature-dependent and sodium azide-resistant process. AZQ inhibited, in a dose-dependent fashion, [3H]thymidine incorporation into L1210 cells, but this inhibition was slow to develop, requiring approximately 6 hr to become apparent. The minimal inhibitory concentration of AZQ for this process was 0.05 to 0.25 nmol/ml. AZQ was a much less effective inhibitor of L1210 cell [3H]uridine and [14C]valine incorporation. In suspension cultures, AZQ inhibited growth of L1210 and HL-60 cells at minimal inhibitory concentrations of 0.5 to 1 nmol/ml. In soft agar cultures, AZQ inhibited HL-60 cell cloning at minimal inhibitory concentrations of 0.1 to 0.3 nmol/ml. AZQ provoked a dose-dependent increase in oxygen consumption when added to intact L1210, HL-60, and K562 cells and was converted to an AZQ anion free radical by these cells. When the aziridine rings of AZQ were opened by acid treatment, the resulting molecule was not accumulated by L1210 cells, did not provoke O2 consumption, did not form free radicals when added to L1210 cells, and was a much less effective inhibitor of [3H]thymidine incorporation by L1210 cells than was AZQ.     

Inhibition of DNA synthesis by a small-cell lung carcinoma-derived protein

A tumor-derived factor that inhibits cellular DNA synthesis was identified. The factor was extractable from a small-cell lung carcinoma cell line grown in either chemically defined medium or nu/nu mice and inhibited tritiated thymidine ([3H]dThd) incorporation by tumor cell lines of autologous, allogeneic, and xenogeneic origins. The viability of nonproliferating cells from normal tissue was not affected. Tumor extract inhibitory activity was trypsin labile but was resistant to other proteases, neuraminidase, lipase, DNase, RNase, glucosidase, extremes of pH-temperature, and reducing conditions. Inhibitory activity was reversibly bound to helix pomatia lectin but not to lentil, wheat germ, or concanavalin A lectins. Purification by size-exclusion high-performance liquid chromatography yielded a bioactive unimodal 12-kilodalton (kd) peak. The bioactive 12-kd moiety could be eluted from sodium dodecyl sulfate-polyacrylamide gels. Redosing of populations of the T-lymphoblastoid cell line CEM achieved an early (24 hr) sustained depression of pulse [3H]dThd incorporation and ultimately led to decreased population density of factor-treated populations. DNA histogram analysis demonstrated no change in cell cycle phase distribution after factor treatment. 5-Bromo-2'-deoxyuridine (BrdUrd) vs. propidium iodide with the two-parameter Fluorescence-Activated Cell Sorter analysis showed relative inhibition of non-S-phase BrdUrd uptake at 24 hours. A cell-free DNA polymerase assay demonstrated significant inhibition of non-alpha-polymerase-associated DNA synthesis in factor-treated cells. These studies suggest that this tumor-derived inhibitor of DNA synthesis represents a class of cellular products involved in the autoregulation of growth by regulation of DNA synthetic activity.     

Epidermal growth factor and proliferation in rat hepatocytes in primary culture isolated at different times after partial hepatectomy

Primary hepatocyte cultures have been prepared from normal adult rat liver and from rat liver at 4, 8, 12, 24, and 48 h following partial hepatectomy (removal of 70% of the liver). Cells were maintained in minimal essential medium alone or supplemented with hormones. Comparing DNA synthesis in normal adult rat hepatocytes with DNA synthesis in hepatocytes isolated from regenerating livers, we found with minimal essential medium alone little DNA synthesis in normal adult rat hepatocytes and in hepatocytes isolated 4, 8, or 12 h after 70% hepatectomy. In hepatocytes isolated 24 h after partial hepatectomy, however, the incorporation of [3H]thymidine was 3 times the rate of normal hepatocytes. The addition of insulin to minimal essential medium had minimal effect on DNA synthesis in all hepatocytes. Addition of epidermal growth factor alone or in combination with insulin resulted in a dramatic increase in DNA synthesis in hepatocytes from regenerating rat liver. Increased incorporation was detectable as early as 4 h after partial hepatectomy and reached a maximum at 24 h after the operation. Results obtained with [3H]thymidine incorporation were confirmed by autoradiography and by direct DNA determinations in hepatocyte cultures. Epidermal growth factor binding to the hepatocytes was determined and agreed with previously reported binding studies. Binding of epidermal growth factor in hepatocytes isolated at 4 h after partial hepatectomy was the same as in normal hepatocytes but was undetectable in hepatocytes isolated from rats at 12 and 24 h after partial hepatectomy.     

Correlation of carcinogen-induced unscheduled DNA synthesis and NAD reduction in fresh human lymphocytes

Incorporation of [³H]thymidine into the DNA of fresh human lymphocytes, treated with various chemical mutagens, was measured and correlated with cellular NAD levels before and after treatment. NAD levels in lymphocytes were significantly reduced following treatment with mutagenic chemicals. Reduction of cellular NAD pools was directly correlated with [³H]thymidine incorporation. As NAD levels decreased, [³H]thymidine incorporation increased. Theophylline, a known inhibitor of poly(ADP-ribose)polymerase, inhibited both the NAD reduction in cells treated with DNA damaging agents and the incorporation of [³H]thymidine into DNA. The inhibitory effect of theophylline on NAD depletion and on [³H]thymidine incorporation was dose and cell number dependent. Near normal responses to carcinogen exposure could be restored to theophylline-treated cells following the removal of theophylline. These data suggest that conversion of NAD to poly(ADP-ribose) may be necessary, or at least closely associated with, DNA repair in human lymphocytes.     

Dual mechanisms of inhibition of DNA synthesis by triciribine

The inhibition of DNA synthesis in triciribine (TCN)-treated L1210 cells was shown to involve two mechanisms, with different concentration dependence. (a) Initiation of new replicons and possibly of Okazaki fragments was inhibited when the cells were treated with 0.1 microM TCN. The inhibition of replicon initiation was shown by the rate of alkaline elution of [3H]DNA from 15-min-[3H]thymidine-labeled cells being slower if the cells had been pretreated with TCN, indicating that the average size of actively replicating DNA strands was increased. (b) At 1 microM TCN elongation of previously initiated DNA chains was also inhibited. This conclusion was suggested by the decrease in the rate of alkaline elution of [3H]DNA, during postlabeling incubation, being less if TCN was included in the medium. The mechanism of inhibition of DNA synthesis by TCN was shown not to involve DNA strand breakage or cross-linking, inhibition of polyamine biosynthesis, inhibition of purine de novo biosynthesis, inhibition of DNA polymerase alpha or DNA primase, or inhibition of ligation of Okazaki fragments. The effects of TCN on the incorporation of [3H]thymidine into Okazaki fragments and higher molecular weight DNA suggested the possibilities of inhibition of Okazaki fragment initiation and/or DNA polymerase delta.     

The neurotoxin 1-methyl-4-phenylpyridinium: a selective cytostatic agent in small-cell lung cancer cell lines with neuroendocrine properties.

BACKGROUND: Small-cell lung cancer (SCLC) is a common malignancy that is usually fatal, since it metastasizes and recurs even after aggressive chemotherapy. While the cellular origin of this cancer is not well established, the cells of certain tumors exhibit neuroendocrine markers, including L-dopa decarboxylase. PURPOSE: We designed in vitro and in vivo studies to investigate whether the neuroendocrine features in classic SCLC cell lines were sufficient to make them sensitive to 1-methyl-4-phenylpyridinium (MPP+), a known neurotoxin that destroys nigrostriatal dopaminergic neurons. METHODS: Both classic SCLC cell lines (NCI-H345, NCI-H510, NCI-H187, and NCI-H146) and variant SCLC cell lines (NCI-H417, NCI-H82, NCI-H446, and NCI-H524) were exposed to MPP+ (0-512 microM) for 3 days. Inhibition of DNA synthesis was determined by [3H]thymidine incorporation assays. In a related experiment, MPP+ was removed from the classic cell line culture, and the incorporation of [3H]thymidine was determined. In the in vivo study, male athymic nude mice received subcutaneous injections of 0.5 mL tumor cells with matrigel for 10 days to enhance tumor growth, followed by MPP+ at doses of 100-400 micrograms/d given intraperitoneally for 2 days. RESULTS: All four classic SCLC cell lines showed great sensitivity to MPP+, with detachment from laminin substrates and inhibition of DNA synthesis. MPP+ interfered with [3H]thymidine incorporation and, thus, with DNA synthesis in classic SCLC cell lines at low doses (median +/- SD, 12 +/- 4 microM), whereas much higher doses (median, > 512 microM) were required to inhibit [3H]thymidine incorporation in the variant lines. Treated cells excluded trypan blue dye, showing that inhibition of DNA synthesis was not due to cytotoxicity, and the cells incorporated [3H]thymidine when MPP+ was removed from the culture medium, demonstrating that the inhibition was reversible. MPP+ inhibited the growth of the classic NCI-H187 and variant NCI-H417 cell lines implanted in nude mice. CONCLUSIONS: These results suggest that MPP+ differentially interferes with DNA synthesis in SCLC cell lines in vitro; the selective inhibitory effect on classic cell lines suggests that the neuroendocrine properties expressed by classic SCLC cells may be responsible for the differential effect. IMPLICATIONS: MPP+ exerts a cytostatic effect on these cell lines, and the differential sensitivity observed in vitro is maintained in vivo, suggesting that MPP+ or other pyridinium compounds may be of therapeutic value in SCLC.     

A selective effect of methylglyoxal-bis(guanylhydrazone) on the synthesis of mitochondrial DNA of cultured L1210 leukemia cells.

Methylglyoxal-bis(guanylhydrazone) (MGBG) is a polycationic drug which is useful in the chemotherapy of lymphoid and myeloid proliferative disorders. The drug has recently been shown to produce selective ultrastructural damage to the mitochondria of proliferating cell populations. It is important to understand the molecular basis for this action, since it may be related to the known ability of MGBG to block polyamine biosynthesis. Accordingly, the effect of MGBG treatment on the incorporation of [3H]thymidine into both mitochondrial and nuclear DNA has been examined. Exponentially growing L1210 leukemia cells were prelabeled with [14C]thymidine, treated with MGBG for 1.5 to 16 hr, and then pulse labeled with [3H]-thymidine. Incorporation of [3H]thymidine into mitochondrial DNA was selectively inhibited at 5 hr with concentrations of 1 to 10 microM MGBG. Nuclear DNA, however, was not similarly affected until 8 to 11 hr of drug treatment. Dye-CsCl gradients of mitochondrial DNA indicated that the inhibition of synthesis occurred in replicative forms of circular DNA. Uptake studies excluded the possibility of drug interference with cellular uptake of thymidine. Ultrastructural studies revealed a very close correlation between the dose-response curve for mitochondrial damage and that for MGBG inhibition of mitochondrial DNA synthesis. This correlation suggests a direct cause-and-effect relationship between inhibition of mitochondrial DNA synthesis and ultrastructural damage, but the possibility of both phenomena being related to another action by the drug, such as inhibition of polyamine biosynthesis, or a drug effect on mitochondrial function, must also be considered.     

Soluble factors from liver and hepatomas which inhibit [3H]thymidine incorporation into DNA of Novikoff hepatoma cells.

The nature of soluble factors from liver and hepatomas which inhibit [3H]thymidine incorporation into DNA was studied in Novikoff hepatoma cells. The decreased activity in hepatoma preparations was due to loss of a high-molecular-weight heat-labile factor. Although this factor cochromatographed with arginase activity on Sephadex G-150, it does not appear to result from this activity as judged by the failure of arginine to prevent the inhibitory effect on [3H]thymidine incorporation. Both liver and hepatomas contained a heat-stable factor with inhibitory activity. Studies with ethanol-soluble material suggested that the action was not solely attributable to the presence of unlabeled thymidine, since the apparent molecular weight was too high and since the factor(s) inhibited [3H]leucine incorporation into protein in addition to inhibiting [3H]thymidine incorporation in DNA.     

Inhibition of DNA synthesis and alteration of cyclic adenosine 3',5'-monophosphate levels in RSa cells by human leukocyte interferon.

Human leukocyte interferon inhibits the proliferation of the virus-transformed human embryonic cells RSa. Incorporation of [3H]thymidine (TdR) into an intracellular pool and the activity of TdR kinase were reduced in the interferon-treated RSa cell culture. High-degree (90%) inhibition of [3H]TdR incorporation was associated with concentrations of added interferon that produced more than a twofold increase in the intracellular cyclic AMP (cAMP) level, and low-degree inhibition was associated with smaller increases in cAMP. In the IFr cell culture, which is relatively resistant to the anticellular action of interferon, considerably less inhibition of TdR incorporation and a slight increase in cAMP were observed. Extracellularly added dibutyryl-cAMP inhibited the proliferation of both RSa and IFr cells to almost the same degree. A decrease in cAMP level and the initiation of DNA synthesis of G1-phase-arrested RSa cells by serum addition were prevented when cells were pretreated with interferon. These results indicated that intracellular cAMP may mediate the inhibitory effect of interferon on DNA synthesis and cell growth.     

Inhibition of DNA synthesis by 1,2-dimethylhydrazine and methylazoxymethanol acetate in rabbit colon mucosa in organ culture.

When maintained in organ culture, colon mucosa from male New Zealand White rabbits showed a near-normal mucosal morphology and linear incorporation of [3H]thymidine into mucosal DNA up to 36 hours of incubation. Explants from the descending colon had a higher DNA synthetic activity than did other segments of the large bowel. Inhibition of DNA synthesis in colon explants by 1,2-dimethylhydrazine (DMH) and methylazoxymethanol (MAM) acetate was dose-dependent. When DNA synthesis was determined after an 18-hour incubation, MAM acetate inhibited DNA synthesis at concentrations of 50, 100, 150, and 200 microgram/ml. With the same concentration of DMH, little or no inhibition was observed. At the concentration of 200 microgram/ml, both carcinogens significantly inhibited DNA synthesis after 3 and 6 hours of incubation. With longer incubation, the inhibitory effect of DMH appeared to be reversible, whereas DNA synthesis was continuously inhibited by MAM acetate up to 18 hours of incubation. No altered uptake of [3H]thymidine by colon explants incubated in the presence of DMH or MAM acetate for 18 hours was observed. No morphologic changes were seen in colon explants treated with 200 microgram MAM acetate/ml for 18 hours. Physostigmine sulfate had no influence on MAM acetate-induced inhibition of DNA synthesis in colon explants. These in vitro observations reflected a direct action of DMH and MAM acetate on the colon mucosa and supported the possibilility that colon epithelial cells contain enzymes capable of activating DMH and MAM acetate to their alkylating carcinogens.     

Assessment of the anti-tumor potential of glutathione

This study assesses the effect of reduced glutathione (GSH) on regenerating liver, 3'-methyl-4-dimethylaminoazobenzene (3'-MDAB) hepatocarcinogenesis, and normal and transformed hepatocytes in vitro. GSH administered intragastrically caused only a 30% reduction in thymidine incorporation into liver DNA at 24 h after partial hepatectomy; there was no apparent effect on RNA and protein synthesis. Furthermore, in 3'-MDAB induced hepatocarcinogenesis, all GSH-treated animals developed hepatocyte nodules, and serum alpha-fetoprotein (AFP) levels were not reduced. In vitro, GSH was shown to be cytotoxic to both normal and transformed hepatocytes at serum concentrations under 10%. GSH inhibited [3H]thymidine incorporation slightly in 2 transformed hepatocyte lines, but not in normal hepatocytes.