[Mutagenic Activity of Four Aminoazo Compounds with Different Carcinogenicity for Rat Liver in the Ames Test].

In this paper in the bacterial Ames test we compared the mutagenicity of four aminoazo compounds, previously studied by other researchers and used for activation of rat liver enzymes, with the carcinogenicity in the rat liver. It was found that in the Ames test they have mutagenic activity, however, this activity does not correlate quantitatively with rat sensitivity to their hepatocarcinogenic action. Thus, the most active carcinogen 3'-methyl-4-dimethylaminoazobenzene causes mutations almost 2.5 times less than weakly carcinogenic ortho-aminoazotoluene, and exactly the same number of mutations as non-carcinogenic N,N-diethyl-4-aminoazobenzene.

[Mutagenic activation and carcinogenicity of aminoazo dyes of ortho-aminoazotoluene and 3'-methyl-4-dimethylaminoazobenzene in experiments on suckling mice].

It is found that after administration of 3'-methyl-4-dimethylaminoazobenzene (3'-Me-DAB,) which was hepatocarcinogenic to rats, in suckling mice, the number of neoplastic lesions in the liver of mice was 3 times higher than after analogous administration of equimolar dose of ortho-aminoazotoluene (OAT)). However, in the Ames test (TA-98 strain of Salmonella typhimurium) with activation by hepatic enzymes (S-9 fraction) of both intact and Aroclor-1254-induced mice and rats OAT contributed by an order of magnitude to revertant colonies compared to 3'-Me-DAB. In vivo inhibition of sulfotransferase activity, the enzyme which catalyzes the final stage of the mutagenic activation of aminoazo dyes, had no effect on carcinogenicity of 3'-Me-DAB but more than 4 times elevated that of OAT. It was concluded that the mechanism of carcinogenic action of aminoazo dyes studied is not genotoxic and that the carcinogenic potential of OAT is lost in the process of mutagenic activation.

Chronic alcohol consumption prevents 8-hydroxyguanine accumulation in 3'-methyl-4-dimethylaminoazobenzene-treated mouse liver.

Alcohol consumption is known to have opposing effects on carcinogenesis: promotion and prevention. In this study, we examined the effects of 12% ethanol on oxidative DNA damage accumulation and its repair in mouse livers treated with 3'-methyl-4-dimethylaminoazobenzene (3'-MeDAB), a well-known hepatic carcinogen. We previously reported that 3'-MeDAB increased 8-hydroxyguanine (8-OH-Gua) accumulation and its repair activity, accompanied by the fragmentation of 8-oxoguanine DNA glycosylase 1 (OGG1), the main repair enzyme of 8-OH-Gua. The present results showed that 12% ethanol intake attenuated the 8-OH-Gua accumulation, but not the fragmentation of OGG1 induced by 3'-MeDAB. Additionally, no significant changes in oxidative status, as monitored by lipid peroxidation (LPO), were observed among the 3'-MeDAB-treated mouse livers with/without alcohol administration. These findings suggested that 12% ethanol consumption may reduce the risk of 3'-MeDAB-induced carcinogenesis by decreasing 8-OH-Gua accumulation.

Expression of retinoid X receptor alpha is decreased in 3'-methyl-4-dimethylaminoazobenzene-induced hepatocellular carcinoma in rats.

The identification of the specific molecular targets, which underlie liver carcinogenesis is essential for the establishment of an effective strategy for the prevention and/or treatment of hepatocellular carcinomas (HCCs). We previously found that a malfunction of RXRalpha due to its aberrant phosphorylation was associated with the development of HCCs. However, it has remained unclear whether the abnormalities in the expression of RXRalpha or the other retinoid receptors play a role in the early stage of liver carcinogenesis. The present study was designed to determine whether alterations in the expression of RXRalpha and the other retinoid receptors RARalpha and RARbeta are involved in hepatocarcinogenesis using a 3'-methyl-4-dimethylaminoazobenzene (3'-MeDAB)-induced rat liver carcinogenesis model. We found that immunohistochemical expression of RXRalpha was decreased in liver cell tumors (HCCs and adenoma) and glutathione S-transferase placental form (GST-P)-positive foci, which is a precancerous lesion of HCC, when compared with the non-cancerous tissues. Western blot and RT-PCR analyses revealed a progressive decrease in the expression levels of RXRalpha, RARalpha, and RARbeta proteins and their mRNAs in 3'-MeDAB-induced HCCs and their surrounding tissues, when compared with the normal liver tissues from the control group. Moreover, the expression level of beta-catenin, the heterodimeric partner for both RXRalpha and RARalpha, was immunohistochemically observed in the cytoplasm and, in some cases, in the nucleus of HCC cells. The nuclear expression of cyclin D1, the downstream target molecule of beta-catenin, was also increased in HCC cells when compared with their adjacent normal appearing tissues. Our findings suggest that loss of retinoid receptors, especially RXRalpha, plays a critical role in the chemically-induced rat liver carcinogenesis and this might be associated with the activation of beta-catenin-related signaling pathway.

[Evolutive characters of oval cells in experimental hepatocarcinogenesis].

BACKGROUND & OBJECTIVE: The role of oval cells in hepatocarcinogenesis is unclear yet. This study was to explore the correlation of oval cells to hepatocarcinoma through dynamic observation on evolutive characters of oval cells in experimental hepatocarcinogenesis. METHODS: Male SD rats were fed with 3o-me-DAB to establish an animal model of experimental hepatocarcinoma. Evolutive characters of oval cells in liver tissue during experimental hepatocarcinogenesis was dynamically observed with routine HE staining, Alcian blue staining, and immunohistochemistry. RESULTS: Oval cells (OV-6-positive) appeared sparsely around the portal tract in the 4th week of tumor-induction. In the 8th and the 14th weeks, OV-6-positive cells were increased gradually and expanded into hepatic lobules; the hepatic tissue was divided as pseudo-lobule-like. Till the 17th and the 24th weeks, carcinoma foci were formed, meanwhile, the total amount of oval cells were decreased, and OV-6-positive cells were observed in carcinoma foci. On Alcian blue-stained preparations, two distinct histologocal types of carcinoma foci could be seen: cholangioepithelial carcinoma foci were positive and hepatocellular carcinoma foci were negative. CONCLUSION: Oval cells, as intrahepatic stem cells, might play an important role in hepatocarcinogenesis.

Advanced health assessment in nurse practitioner programs: follow-up study.

The increase in advanced practice graduate programs and the inclusion of content and skills related to advanced health assessment as a core competency for practice served as the impetus for a 5-year follow-up study to track the changes, methodologies, and integration of technology into practitioner programs. The questionnaire was mailed to the faculty/schools listed as current members in the National Health Service Corps Nurse Practitioner Faculty Advocate Network. The number of responding schools was 135 (44%). The family nurse practitioner program continues to be the most offered advanced practice nursing program. Nearly all institutions offer a post-master's program and an advanced health assessment course to their clinical graduate students. Health assessment is usually taught concurrently or as a prerequisite for clinical experiences; there continues to be a strong emphasis on the physical examination component. Ethnic and cultural assessment and gerontological assessment content increased since the original study. Both class and laboratory class sizes decreased. Qualitative data that centered on differences in graduate versus undergraduate health assessment revealed a shift in focus in several areas: differential diagnoses, abnormals, and the inclusion of advanced skills. There was an emergence of more creative strategies: the use of standardized patients, online coursework, videotaping, "live" patients, and simulations.

FOXA transcription factors determine the amplitude of glucocorticoid induction of tyrosine aminotransferase in mice.

o-Aminoazotoluene was more potent than 3'-methyl-4-dimethylaminoazobenzene in modulating glucocorticoid induction of tyrosine aminotransferase and DNA-binding activity of FOXA (HNF3) in 12-day-old ICR mice. In adult animals, induction of tyrosine aminotransferase and FOXA activity were modulated by o-aminoazotoluene, while 3'-methyl-4-dimethylaminoazobenzene was ineffective. Our results suggest that FOXA proteins determine glucocorticoid induction of tyrosine aminotransferase in mice (similarly to rats).

Activation of constitutive androstane receptor under the effect of hepatocarcinogenic aminoazo dyes in mouse and rat liver.

Selective increase of DNA-binding activity of constitutive androstane receptor was detected in rat and mouse liver in response to aminoazo dyes exhibiting hepatocarcinogenic activity for these species (ortho-aminoazotoluene for mice and 3'-methyl-4-dimethylaminobenzene for rats). Competition of azo dyes with 3H-5alpha-androst-16-ene-3alpha-ol (a well-known ligand of constitutive androstane receptor) for binding to liver cell cytosol proteins was studied. Ortho-aminoazotoluene and 3'-methyl-4-dimethylaminobenzene were better competitors for cytosol proteins from mouse and rat liver, respectively.

Species-specific effects of the hepatocarcinogens 3'-methyl-4-dimethyl-aminoazobenzene and ortho-aminoazotoluene in mouse and rat liver.

The effects of rat-specific hepatocarcinogen 3'-methyl-4-dimethylaminoazobenzene (3'-MeDAB), mouse-specific hepatocarcinogen ortho-aminoazotoluene (OAT), non-species-specific hepatocarcinogen diethylnitrosamine (DENA), and non-carcinogenic 4'-methyl-4-dimethylaminoazobenzene (4'-MeDAB) on glucocorticoid induction of tyrosine aminotransferase (TAT) and DNA-binding activity of hepatocyte nuclear factor 3 (HNF3) family of transcription factors were investigated with carcinogen-susceptible and -resistant animals. Species-specific hepatocarcinogens 3'-MeDAB and OAT strongly inhibited glucocorticoid induction of TAT in the liver of susceptible but not resistant animals. DENA, which is highly carcinogenic for the liver of both rats and mice inhibited glucocorticoid induction of TAT in both species, while non-carcinogenic 4'-MeDAB was absolutely ineffective both in rats and mice. The inhibition of TAT activity by the carcinogens was due to reduced levels of TAT mRNA, which is most likely to be a result of the reduced rate of transcription initiation of the TAT gene. In all cases, the TAT inhibition was accompanied by significant reduction of DNA-binding activity of the HNF3 transcription factor, which is known to be critical to glucocorticoid regulation of TAT gene. We also demonstrated that the described species-specific effects of OAT and of 3'-MeDAB on HNF3 DNA-binding activity may be initiated not only by administration in vivo, but also by their direct administration to homogenate, intact nuclei or nuclear lysate, but not to nuclear extract fraction, obtained by precipitation with 0.32 g/mL of ammonium sulfate (Fraction I). We showed, that a factor responsible for this effect might be precipitated in 0.32-0.47 g/mL interval of ammonium sulfate concentration. In contrast, non-specific hepatocarcinogen DENA was effective upon being added directly to Fraction I, implying a different mechanism of its action.

Prevention of rat hepatocarcinogenesis by acyclic retinoid is accompanied by reduction in emergence of both TGF-alpha-expressing oval-like cells and activated hepatic stellate cells.

We investigated the preventive effects of a synthetic acyclic retinoid, NIK-333, on the early and late events of hepatocarcinogenesis in male F344 rats treated with 3'-methyl-4-dimethylaminoazobenzene (3'-MeDAB). NIK-333 was administered once a day on consecutive days at a dose of 10, 40, or 80 mg/kg body weight along with the supplementation with 3'-MeDAB-containing diet for 16 wk. Animals from each group were sacrificed at 4 and 16 wk after the commencement of the experiment to determine the effect of NIK-333 on the early and late stages of carcinogenesis, respectively. NIK-333 suppressed the emergence of both oval-like cells expressing transforming growth factor (TGF)-alpha, putative progenitors of hepatocellular carcinoma (HCC), and activated hepatic stellate cells, major matrix-producing cells of the liver, in the early stage and inhibited the incidence of HCC in the late phase. These results suggest that NIK-333 is a promising drug for the chemoprevention of HCC by uniquely suppressing the early events of hepatocarcinogenesis, that is, development of both oval-like cells and fibrogenesis.

Role of resistant Drh1 locus in chemical carcinogen-induced hepatocarcinogenesis in rats: analysis with a speed congenic strain.

The DRH is an inbred rat strain established by selective mating of the 3'-Me-DAB resistant progeny of closed colony Donryu rats over 20 generations. Genetic analysis shows that two semidominant QTLs, Drh1 and Drh2, are responsible for strong resistance to chemical-induced hepatocarcinogenesis in DRH strain rats. To evaluate the effect of the single Drh1 locus on various stages of liver carcinogenesis, we constructed a speed congenic strain DRH.F344-Drh1 by transferring a susceptible Drh1 allele of F344 to DRH rats by marker-assisted backcrossing. The DRH.F344-Drh1 rats had a approximately 43 cM segment of chromosome 1 bearing Drh1 but the Drh2 was of the DRH allele. After oral administration of 3'-Me-DAB for 8 weeks, DRH.F344-Drh1 had as many enzyme altered foci as F344, whereas the quantitative parameters of fibrosis, enzyme altered foci, GST-P expression and proliferation of liver cells in DRH.F344-Drh1 rats were intermediate between F344 and DRH. In the liver of carcinogen-fed DRH rats, there was intensive apoptosis as detected by TUNEL stain, but not in the liver of F344 and DRH.F344-Drh1 rats. Injection of lead nitrate (100 micromol/kgB.W) induced a wave of liver cell proliferation, as seen by BrdU uptake within a few days in F344 and DRH.F344-Drh1 rats, but not in DRH rats. Instead, there were numerous TUNEL-positive nuclei in the DRH liver after lead nitrate injection. Apparently, the hepatocytes were removed by apoptosis during transition from G0 to G1. The major role of Drh1 is effective removal of the hepatocytes newly recruited to proliferate after chemical injury. Resistance to preneoplastic lesions in DRH rats may well be based on similar mechanism.

Genetic resistance to chemical hepatocarcinogenesis in the DRH rat strain.

The carcinogen-resistant inbred rat strain DRH established from closed-colony Donryu rats by use of selective brother-sister mating over 20 generations under continuous feeding of 3'-methyl-4-dimethylaminoazobenzene (3'-Me-DAB) maintains a highly resistant phenotype without carcinogen exposure for many years. We reported that the clonal expansion of preneoplastic glutathione S-transferase-P(GST-P)-positive foci induced by 3'-Me-DAB was less extensive in the liver of DRH rats than in the liver of susceptible strains, such as Donryu and F344, although levels of DNA adducts were comparable among these rats. Comparative studies of the events after initiation indicate that DRH rats are constitutionally less prone to cellular damage caused by continuous administration of 3'-Me-DAB than are parental Donryu rats. Consequently, the reduced growth response of the liver during the promotion stage may contribute to the low susceptibility to development of liver tumors. Genetic analysis of (F344 x DRH)F2 rats identified two quantitative trait loci, Drh1 on chromosome 1 and Drh2 on chromosome 4, which provide resistance to the development of GST-P-positive preneoplastic foci induced by 3'-Me-DAB during the early stage of its administration. The resistance to progression to hepatocellular carcinoma is affected solely by Drh2. These observations indicate that at least two genetic loci are critically involved in the steps leading to chemical hepatocarcinogenesis. The DRH rat is a useful experimental model with which to study genetic susceptibility and resistance to chemically induced liver cancers.

Erythropoietin/erythropoietin-receptor system as an angiogenic factor in chemically induced murine hepatic tumors.

BACKGROUND: To clarify the role of erythropoietin (Epo) in hepatic tumor angiogenesis, expression of Epo and its receptor (Epo-R) and content of Epo were investigated in murine chemically induced hepatic tumors. METHODS: To induce hepatic tumors and cirrhosis, diaminobenzidine was administered to Wistar rats for 5 months. In total, 30 hepatic tumors of greater than 3 mm in diameter were induced in 12 rats. The 30 hepatic tumors were resected with the surrounding hepatic tissues. The Epo content was measured by a radioimmunoassay (RIA) method. The number of tumor vessels in a definite area was counted in 100 areas of each tumor. To demonstrate the expression of Epo-R in tumors or surrounding liver tissues, immunohistochemical staining for Epo-R was performed. RESULTS: The Epo content of tumors ranged from 6.1 to 97.8 mU/ml, with a median of 21.8 mU/ml, which was significantly higher than that of the cirrhotic tissues adjacent to the tumors. Epo was not detectable in the normal or cirrhotic liver tissues without tumors. A significant correlation between Epo content and vascular density was noted in the 30 hepatic tumors (correlation coefficient, 0.480; P = 0.01). Immunoreactive Epo-R was detectable in the endothelium of intervening vessels of all hepatic tumors examined. CONCLUSION: The Epo/Epo-R system is related to the angiogenesis of murine hepatic tumors. To clarify the role of erythropoietin (Epo) in hepatic tumor angiogenesis, expression of Epo and its receptor (Epo-R) and content of Epo were investigated in murine chemically induced hepatic tumors.

Hepatic binding proteins translocating azo dye carcinogen metabolites from cytoplasm into nucleus in rats.

When liver cytosol prepared from rats administered [(14)C]-3'-Methyl-N,N-dimethyl-4-aminoazobenzene was subjected to Sephadex gel chromatography, four peaks of radioactivity containing proteins (Peak-I-IV) and one peak devoid of protein (Peak-V) were obtained. Translocation of azo dye metabolites from these various cytosolic fractions into nucleus was studied in an in vitro system and a maximum of about 10% of the radioactivity associated with a particular cytosolic fraction (Peak-II) could translocate into the nuclei. Radioactivity (%) translocated did not increase upon addition of excess nuclei. Passage of this protein fraction through an immobilized protease column reduced the azo dye metabolite translocation by 65%, concomitant with the degradation of proteins. Translocation was not observed with protein-free metabolites extracted from this cytosolic fraction; addition of proteins corresponding to peak-II from normal rat liver cytosol significantly restored the metabolite translocation. This observation suggests that specific cytosolic proteins are involved in the translocation of azo dye carcinogen metabolites from liver cytoplasm into the nucleus. When the liver cytosolic proteins corresponding to this fraction (Peak-II) were iodinated with (125)I-iodine and incubated with purified nuclei, translocation of three specific proteins into nucleus was observed as seen by SDS-PAGE and fluorography of nuclear proteins. Covalent binding of azo dye metabolites to DNA was not observed when cytosolic peak-II fraction containing azo dye metabolites was incubated with isolated liver DNA instead of liver nuclei. This suggests that the interaction of azo dye metabolites with nuclear macromolecules necessitate further prior processing which actually may occur in the nucleus.

Modulation of genetic resistance to hepatocarcinogenesis in DRH rats by partial hepatectomy.

The DRH is an inbred rat strain highly resistant to chemically induced hepatocarcinogenesis. Two clusters of resistance loci Drh1 and Drh2 on chromosome 1 and 4 yield strong resistance to the formation of enzyme-altered foci and their progression. To evaluate the effect of enhanced cell proliferation in the progression stage, a partial hepatectomy (PH) was carried out in (DRH x F344)F1 rats 8 weeks after the start of 3'-Me-DAB administration. The incidence of liver cancer in the PH-F1 rats was equivalent to that in the F344 rats, although the number of tumors per rat was much lower. In contrast, the F1 rats without PH rarely developed cancers. Such modulation was not due to the loss of the resistance allele, since none of 18 hepatocellular carcinomas in PH-F1 rats showed allelic imbalance at Drhl and Drh2.

[Quantitative analysis of p53 and related genes mRNA in rat hepatocarcinogenesis induced by 3'-Me-DAB].

BACKGROUND & OBJECTIVE: p53 gene mutations and abnormal expression of p53 in hepatocarcinoma have been reported, but alteration in mRNA level is not yet understood. In order to find out the alteration in mRNA levels of p53, glutathione S-transferase P (GST-P), alpha-fetoprotein (AFP), and albumin in genesis, developing, and prognosis of hepatocarcinoma, quantitative analysis of mRNA levels of p53, GST-P, AFP, and albumin in prehepatocarcinoma and hepatocarcinoma foci was performed. METHODS: During hepatocarcinogenesis of F344 rat induced by 3'-methyl-4-dimethylamino-azobenzene (3'-Me-DAB), the levels of these mRNAs were quantitatively analyzed by LightCycler V3 System real-time RT-PCR after capturing accurately micro-foci in prehepatocarcinoma and hepato-carcinoma of rats with laser capture microdissection (LCM). RESULTS: At the 6th, 12th and 24th experiment weeks, the p53 mRNA levels in all of prehepatocarcinoma foci were markedly higher than those in the adjacent normal tissues (all of P < or = 0.001), and gradually decreased from the 6th week to the 24th week (P < 0.01). The content of p53 mRNA in hepatocarcinoma foci was higher than that in normal tissue (P = 0.028 and 0.013), but lower than that in prehepatocarcinoma foci. At 24th weeks, the sections of livers exhibited intensive immunostaining of p53 protein in prehepatocarcinoma and hepatocarcinoma foci. At any time-point of experiment, GST-P mRNA levels in prehepatocarcinoma foci were significantly higher than those in the adjacent normal liver tissue and hepatocarcinoma foci (all of P < 0.001). The concentration of AFP mRNA was the highest (P < 0.001) and that of albumin mRNA was the lowest (P < 0.01) in hepatocarcinoma foci as compared with adjacent normal tissue and prehepatocarcinoma foci. The GST-P protein and AFP protein were expressed strongly in prehepatocarcinoma and hepatocarcinoma foci, respectively. CONCLUSION: GST-P and AFP mRNA overexpressed in prehepatocarcinoma and hepatocarcinoma foci respectively will be profitable markers for diagnosis during hepatocarcinogenesis. The p53 mRNA highly expressed at early stage of prehepatocarcinoma and hepatocarcinoma, but the increasing concentration of p53 protein was found at later stage.

Resistance of DRH strain rats to chemical carcinogenesis of liver: genetic analysis of later progression stage.

The inbred DRH rats are highly resistant to the induction of hepatocellular carcinoma (HCC) by feeding of 3'-methyl-4-dimethylaminoazobenzene (3'-Me-DAB). Previously, we found that two quantitative trait loci (QTLs), Drh1 and Drh2, significantly reduced the number, size and area of glutathione S-transferase-placental form (GST-P)-positive foci and GST-P mRNA levels in (F344xDRH)F(2) rat livers induced by feeding 3'-Me-DAB for 8 weeks. It is unclear, however, whether these QTLs affecting pre-neoplastic lesions are also the determinants of the later stage hepatocarcinogenesis, and whether there are any additional QTLs affecting hepatocarcinogenesis in the progression stage. To answer these questions, we analyzed QTL parameters for liver tumors in 99 (F344xDRH)F(2) rats induced by feeding 3'-Me-DAB for 20 weeks. The QTL parameters examined were GST-P mRNA, ornithine decarboxylase activity, and the number and total area of HCC/nodules macroscopically detectable on the liver surface. In composite interval mapping, we observed two major QTL peaks overlapping on the map positions of Drh1 on rat chromosome 1 (RNO1) and Drh2 on RNO4, respectively. The newly mapped QTL on RNO1 affected the GST-P mRNA level at 20 weeks of 3'-Me-DAB feeding, but did not affect the number and size of tumors. The primary effect of Drh1 is, therefore, to inhibit GST-P induction and to prevent enzyme altered foci (EAF) formation. On the other hand, the QTLs on RNO4, co-mapped to Drh2, affected all parameters of liver tumors examined except for the level of GST-P mRNA. The latter QTLs influenced not only the induction of GST-P and formation of EAF but also the progression of tumors in the later stage of hepatocarcinogenesis. The GST-P induction is differentially controlled by stages of hepatocarcinogenesis and the DRH resistance to carcinogenesis is principally attributed to the QTLs on RNO4 out of two resistance QTLs identified in the pre-neoplastic stage.

Immunohistochemical localization of transforming growth factor alpha in chemically induced rat hepatocellular carcinomas with reference to differentiation and proliferation.

Hepatocellular carcinomas (HCCs) were induced in male Fischer 344 rats with dietary 3'-methyl-4-(dimethylamino)-azobenzene treatment and were classified into solid, glandular (well- or poorly differentiated), and trabecular types. Investigation of cell proliferation kinetics and immunohistochemical localization of transforming growth factor alpha (TGF-alpha) demonstrated all solid (n = 24) and poorly differentiated glandular type (n = 6) HCCs to have TGF-alpha-positive nuclei. Nuclear staining of TGF-alpha was also observed in 13 of 28 (46%) trabecular-type HCCs, whereas 12 (43%) exhibited cytoplasmic staining, and 3 (11%) were negative. As for well-differentiated glandular HCCs, 7 of 20 (35%) were positively stained in their nucleus, another 7 (35%) demonstrated antibody binding in the cytoplasm, and 6 (30%) were negative. The order for growth rate evaluated by bromodeoxyuridine (BrdU) labeling was solid (38.22%), poorly differentiated glandular (26.82%), trabecular (7.98%), and well-differentiated glandular (2.57%) types. For trabecular HCCs with nuclear, cytoplasmic, or negative TGF reactions, values were 13.39% (n = 13), 3.61% (n = 12), and 2.01% (n = 3), respectively. Likewise, BrdU-labeling indices for the counterpart groups of well-differentiated glandular type HCCs were 4.53, 1.91, and 1.29%, respectively. The results indicate that TGF-alpha expression might be linked to histopathological differentiation and cell proliferation in rat HCCs.

Analyses of oxidative DNA damage and its repair activity in the livers of 3'-methyl-4-dimethylaminoazobenzene-treated rodents.

We measured the levels of 8-hydroxyguanine (8-OH-Gua) and its repair activity in the livers of the Donryu rat, the carcinogen-resistant DRH rat, and the ddy mouse, which were fed a 0.06% 3'-methyl-4-dimethylaminoazobenzene (3'-MeDAB)-containing diet. In a short-term rat experiment (maximum 2 months), 3'-MeDAB did not increase the 8-OH-Gua levels in the livers of the two rat strains, although it significantly increased the repair activity in only the Donryu rat liver at 1 and 2 months. After long-term 3'-MeDAB administration to the ddy mouse (8 months), the levels of 8-OH-Gua and its repair activity were increased in the liver by 3.6-fold and 1.6-fold, respectively. These experiments suggest that 3'-MeDAB increases 8-OH-Gua generation in rodent liver DNA and the 8-OH-Gua repair assay is a reliable marker of cellular oxidative stress induced by carcinogens.