Emerging issues in mouse liver carcinogenesis

A weight of evidence evaluation of the mode of action of isoeugenol

Isoeugenol is one of several phenylpropenoid compounds that is used as a fragrance, food flavoring agent and in aquaculture as a fish anesthetic. Carcinogenicity testing in rats and mice by NTP resulted in clear evidence of carcinogenicity (hepatic adenomas/carcinomas) in male mice only. A nongenotoxic threshold mode of action (MOA) is postulated for isoeugenol and is discussed considering the IPCS MOA and Human Relevance Framework. The weight of evidence indicates that isoeugenol is not genotoxic and that the carcinogenic outcome in male mice relates directly to the metabolism of individual compounds. Benchmark Dose (BMD) modeling was conducted to determine a Point of Departure (POD) and potential threshold of carcinogenicity. The results of the BMD evaluation for isoeugenol resulted in an estimated POD for carcinogenicity in the male mouse of 8 mg/kg with a lower limit of 4 mg/kg, representing a POD for the determination of an acceptable daily intake. With application of uncertainty factors, an ADI of 40 μg/kg is calculated. This daily dose in humans would be protective of human health, including carcinogenicity. A corresponding maximum residual level (MRL) of 3200 μg/kg fish is also estimated based on this POD that considers the threshold MOA.

Application of transcriptomic and microRNA profiling in the evaluation of potential liver carcinogens

Hepatocarcinogens are agents that increase the incidence of liver cancer in exposed animals or humans. It is now established that carcinogenic exposures have a widespread impact on the transcriptome, inducing both adaptive and adverse changes in the activities of genes and pathways. Chemical hepatocarcinogens have also been shown to affect expression of microRNA (miRNA), the evolutionarily conserved noncoding RNA that regulates gene expression posttranscriptionally. Considerable effort has been invested into examining the involvement of mRNA in chemical hepatocarcinogenesis and their potential usage for the classification and prediction of new chemical entities. For miRNA, there has been an increasing number of studies reported over the past decade, although not to the same degree as for transcriptomic studies. Current data suggest that it is unlikely that any gene or miRNA signature associated with short-term carcinogen exposure can replace the rodent bioassay. In this review, we discuss the application of transcriptomic and miRNA profiles to increase mechanistic understanding of chemical carcinogens and to aid in their classification.

Liver adenomas and carcinomas: correlations and relationship to body weight in long-term rodent cancer bioassays

The most common cancers induced in laboratory rodents are liver cancers—both adenomas and carcinomas. There has been a long argument about the relative merits of combining them or considering them separately in the interpretation of long-term bioassays for chemical carcinogenesis. In this paper, we examine various aspects of the liver adenomas and liver carcinomas as seen in the Carcinogenesis Bioassay Data System (CBDS) and Toxicology Database Management System (TDMS) databases of the National Toxicology Program (NTP). It appears that the data themselves demonstrate interesting differences between the behavior of these tumors that probably have biological origin. Specifically, we find a strong negative correlation between the appearance of adenomas and carcinomas in the same animal in both control and chemically treated groups. This relationship does not seem to result from differential survival but may be influenced by the animal's body weight. Our analysis is generally consistent with either a progression of tumors from adenoma to carcinoma or a pathologist bias (that when a carcinoma is discovered, other tumors are ignored) as possible explanations for the negative correlation. However there are some differences between male and female mice that are puzzling. While we recognize the scientific and policy reasons for combination of adenomas and carcinomas for calculations of carcinogenic potency and risk we hope that toxicologists and pathologists will be encouraged to preserve the pathological distinctiveness of the two tumor types when analyzing rodent bioassays.

Nanocapsulated quercetin downregulates rat hepatic MMP-13 and controls diethylnitrosamine-induced carcinoma

AIMS

The aims of our work were to investigate the controlling role and the efficacy of nanocapsulated quercetin drug delivery system on the decrement of inflammatory mediators such as MMP-13 in diethyl nitrosamine (DEN)-induced hepatocarcinogenesis.

MATERIALS & METHODS

Hepatocellular carcinoma was developed in the Swiss albino rats by the exposure of DEN. DEN administration caused the generation of reactive oxygen species, upregulation of TNF-α, IL-6, activation of MMP-13, severe oxidative damage, hyperplastic nodules with preneoplastic lesions and the histopathological changes in rat liver.

RESULTS & CONCLUSION

Nanocapsulated quercetin treatment restricted all alterations in DEN-mediated development of hepatocarcinogenesis. Therefore, it may be concluded that nanocapsulated quercetin may be accepted as a potent therapeutic formulation in preventing DEN-mediated hepatocarcinogenesis.

Global gene profiling of spontaneous hepatocellular carcinoma in B6C3F1 mice: similarities in the molecular landscape with human liver cancer

Hepatocellular carcinoma (HCC) is an important cause of morbidity and mortality worldwide. Although the risk factors of human HCC are well known, the molecular pathogenesis of this disease is complex, and in general, treatment options remain poor. The use of rodent models to study human cancer has been extensively pursued, both through genetically engineered rodents and rodent models used in carcinogenicity and toxicology studies. In particular, the B6C3F1 mouse used in the National Toxicology Program (NTP) two-year bioassay has been used to evaluate the carcinogenic effects of environmental and occupational chemicals, and other compounds. The high incidence of spontaneous HCC in the B6C3F1 mouse has challenged its use as a model for chemically induced HCC in terms of relevance to the human disease. Using global gene expression profiling, we identify the dysregulation of several mediators similarly altered in human HCC, including re-expression of fetal oncogenes, upregulation of protooncogenes, downregulation of tumor suppressor genes, and abnormal expression of cell cycle mediators, growth factors, apoptosis regulators, and angiogenesis and extracellular matrix remodeling factors. Although major differences in etiology and pathogenesis remain between human and mouse HCC, there are important similarities in global gene expression and molecular pathways dysregulated in mouse and human HCC. These data provide further support for the use of this model in hazard identification of compounds with potential human carcinogenicity risk, and may help in better understanding the mechanisms of tumorigenesis resulting from chemical exposure in the NTP two-year carcinogenicity bioassay.

Inhibitory effect of phytoglycoprotein (24 kDa) on hepatocarcinogenesis in N-nitrosodiethylamine-treated ICR mice

Objectives

Hepatocellular carcinoma (HCC) is becoming one of the most prominent types of cancer in the world. For a long time in Korea Zanthoxylum piperitum DC (ZPDC) has been used in folk medicine to cure several cancers and inflammation. This study was designed to investigate whether ZPDC glycoprotein protected liver tissues against hepatocarcinogenic compounds such as N-nitrosodiethylamine (DEN).

Methods

To study the chemopreventive effect of ZPDC glycoprotein on hepatocarcinogenesis, ICR mice were injected intraperitoneally with DEN (50 mg/kg) for four weeks. We evaluated the indicators of liver tissue damage (the activity of lactate dehydrogenase (LDH) and alanine aminotransferase (ALT), and thiobarbituric acid-reactive substances (TBARS)), antioxidative enzymes (activity of superoxide dismutase (SOD) and glutathione peroxidase (GPx)), hepatocarcinogenic indicator (heat shock protein (HSP) 70) and hepatocarcinogenic signals (activity of nuclear factor (NF)-κB, cyclooxygenase (COX)-2, and matrix metalloproteinase (MMP)-9) using biochemical methods and immunoblot analysis.

Key findings

The results obtained from this study revealed that ZPDC glycoprotein (20 mg/kg) decreased the levels of LDH, ALT, and TBARS, whereas the activity of SOD and GPx increased in the DEN-treated ICR mice. With respect to the hepatocarcinogenic indicator and hepatocarcinogenic signals, HSP70, NF-κB, COX-2, and MMP-9 activity decreased.

Conclusion

The findings suggested that ZPDC glycoprotein prevented damage to liver tissue caused by DEN in the experimental mouse model.

Interlaboratory comparison of short-term carcinogenicity studies using CB6F1-rasH2 transgenic mice

In order to evaluate a short-term carcinogenicity testing system using CB6F1 -Tg rasH2 (rasH2-Tg) mice carrying a human prototype c-Ha-ras gene, 26-week studies were conducted in 12 different facilities as a part of an International Life Science Institute Health and Environmental Science Institute (ILSI HESI) international collaborative project. In each study N-methyl-N-nitrosourea (MNU) was administered to a separate group of rasH2-Tg mice by single intraperitoneal injection (75 mg/kg) as a positive control. We herein have summarized the mortality, body weight change, and neoplastic and nonneoplastic lesions detected in these positive control groups as representative historical positive control data. Also, we performed an interlaboratory comparison of the response of rasH2-Tg mice to MNU based on the data of 11 positive control groups from these studies. Although the body weight of rasH2-Tg mice showed lower values than that of non-Tgmice during the experimental period, body weight gain in the rasH2-Tg mice was similar to that in non-Tg mice. The mortality of rasH2-Tg mice during the study period was very low, the same as for the non-Tg mice. Incidences of spontaneous alveolar/bronchiolar adenomas and splenic hemangiomas/hemangiosarcomas were also low in the rasH2-Tg mice. Nonneoplastic lesions detected in the rasH2-Tg mice were similar to those in non-Tg mice, excluding the incidence of myopathy. There were interlaboratory differences in mortality and incidence of some lesions in the MNU-treated groups. However, the causes of death were common among the 11 laboratories and almost all the MNU-treated rasH2-Tg mice developed forestomach squamous cell papillomas/carcinomas or malignant lymphomas. This suggests that there is no appreciable difference in the response of the rasH2-Tg mouse to MNU used as a positive control. Therefore, it is concluded that MNU would be an adequate positive control compound in this testing system.

Hepatotoxicity and consequently increased cell proliferation are associated with flumequine hepatocarcinogenesis in mice

It has been reported that flumequine (FLU) induces hepatic tumors in mice when given orally for 18 months. We investigated possible underlying mechanisms using a two-stage mouse hepatocarcinogenesis model. After initiation with a single intraperitoneal injection of 100 mg/kg body weight diethylnitrosamine (DEN) or saline, male CD-1 mice were given 4000 ppm FLU in the diet or 500 ppm phenobarbital (PB) in drinking water for 9, 19, 24 or 30 weeks. Toxicity, evidenced by centrilobular swollen and polar hepatocytes with fatty droplets, infiltration of inflammatory cells and increased numbers of mitosis in hepatocytes, was apparent in the livers of mice treated with FLU at all time points, but its severity declined towards the termination. FLU did not induce cytochrome P-450 enzymes such as 1A1, 2B1 and 3A2 as assessed immunohistochemically, while positive expression of 8-hydroxy-2'-deoxyguanosine (8-OHdG) was increased in hepatocytes of both DEN + FLU and FLU groups compared with the relevant controls. In animals given PB, eosinophilic swelling of hepatocytes was prominent, and the hepatocytes showed strongly positive reactions for CYP 1A1 and 3A2. Altered cell foci were induced in the livers of FLU-treated animals both with and without DEN initiation, especially the former, and their development paralleled the degree of hepatic toxicity. These results suggest that FLU hepatocarcinogenicity in mice is dependent on hepatotoxic damage and consequently increased cell proliferation. Oxidative damage to DNA may also be a crucial factor.

Absence of correlation between telomerase activity and hepatic neoplasia in B6C3F1 mice

Telomeres are the physical ends of eukaryotic chromosomes, which maintain chromosome stability and are progressively shortened with aging in somatic cells. The enzyme telomerase elongates telometric DNA and while not usually detectable in human somatic cells is expressed in most human tumors. The present study was conducted to determine if telomerase activity is a marker for spontaneous hepatic neoplastic changes in B6C3F1 mice, a strain frequently used in rodent carcinogenicity studies. Telomerase activity was generally higher in microscopically normal liver tissue from 8-week-old compared to aged mice (110-week-old); however, telomerase activity was not consistently increased in hepatocellular adenomas and carcinomas. It is proposed that, while elevated telomerase activity may modulate human tumor development, modulation of telomerase activity is not a feature of hepatic tumors in B6C3F1 mice and therefore is unlikely to have utility as a molecular marker for hepatic neoplasia in this mouse strain.

Transferrin and transferrin receptor gene expression and iron uptake in hepatocellular carcinoma in the rat

Iron plays an important role in cell growth and metabolism. In preneoplastic liver nodules, a rise in the number of transferrin receptors (Tf-R) is associated with decreased endocytosis of the Fe2-Tf/Tf-R complex. Because nodules are precursors of hepatocellular carcinoma (HCC), the question arises whether changes in iron uptake by nodules persist in HCC. Current work showed up-regulation of Tf messenger RNA (mRNA) production in preneoplastic nodules, 12 to 37 weeks after initiation, and down-regulation in atypical nodules (at 45 and 50 weeks) and HCCs, induced in rats by the "resistant hepatocyte" model. Tf-R gene expression increased in nodules and HCCs. Tf-R numbers increased, without changes in affinity constant, in HCC. Iron uptake was higher in HCC than in normal liver, 5 to 40 minutes after injection of 59Fe2-Tf, with preferential accumulation in cytosol of tumor cells and in microsomes of normal liver. Purification through Percoll gradient of mitochondria plus lysosomes allowed the identification in liver and HCC of an endosomal compartment sequestering injected 125I-Tf. This subfraction was not seen when 59Fe2-Tf was injected into rats, and 59Fe was found in particulate material of both tissues. Liver and HCC exhibited comparable basal activities of plasma membrane NADH oxidase, an enzyme involved in iron uptake and cell growth. Stimulation of this activity by Fe2-Tf was higher in HCC than in normal liver. These results indicate that Tf expression may be a marker of preneoplastic liver progression to malignancy. Differently from nodules, HCC may sequester relatively high iron amounts, necessary for fast growth, both through the endocytic pathway and the reduced form of nicotinamide adenine dinucleotide (NADH) oxidase system.

Chronic toxicity studies of piperonyl butoxide in CD-1 mice: induction of hepatocellular carcinoma

Male and female CD-1 mice (51-104 mice/group) were administered piperonyl butoxide (alpha-[2-(2-butoxyethoxy)ethoxy-4,5-methylenedioxy-2-propyltol uene) in the diet at levels of 0 (control), 0.6 and 1.2% for 52 weeks (1 year). Hepatocellular carcinomas were induced in treated groups in a dose-dependent manner. The incidences of hepatocellular carcinoma were 11.3 and 52.0% in male mice given 0.6 and 1.2% piperonyl butoxide, and 41.2% in female mice given 1.2%. Piperonyl butoxide is thus a hepatocarcinogen to mice as it is known to be to rats.

Induction of mouse cytochrome P450 2B enzymes by amine metabolites of musk xylene: contribution of microsomal enzyme induction to the hepatocarcinogenicity of musk xylene

Musk xylene (MX) is a synthetic nitromusk perfume ingredient that, although uniformly negative in genotoxicity testing, causes liver tumors in B6C3F1 mice. MX is also capable of inducing cytochrome P450 enzymes in a manner similar to that of phenobarbital (PB), which suggests that epigenetic mechanisms may be involved in the carcinogenic response. At the same time, MX is metabolized in vivo by nitroreduction, a reaction catalyzed by intestinal flora that yields aromatic amine metabolites. These amine metabolites are also capable of inactivating CYP2B10, the major cytochrome P450 enzyme induced by MX treatment. In the study reported here, the monoamine metabolites of MX, o- and p-NH2-MX, were evaluated for their potential to induce CYP2B10 and CYP1A2 mRNAs. Northern blot analyses indicated that both amines markedly induced CYP2B10 mRNA, whereas CYP1A2 mRNA, the enzyme implicated in the bioactivation of aromatic amines and frequently induced by aromatic amines, was induced only slightly, a response that was not different from that seen with PB. Induction of CYP2B10 mRNA suggested that the amine metabolites may contribute to the enzyme induction profile seen with MX treatment. To test this hypothesis, mice were treated with broad-spectrum antibiotics (neomycin, tetracycline, and bacitracin) to eliminate the intestinal flora and prevent formation of o- and p-NH2-MX. In antibiotic-treated mice treated with MX (200 mg/kg) for 4 d, no evidence of microsomal enzyme induction was observed, including no increases in liver weight, total cytochrome P450 content, or CYP2B protein levels. These results indicate that the amine metabolites of MX are responsible for the enzyme induction seen after MX administration. Thus, the biochemical and molecular effects of amine metabolites of MX are markedly different from those of other aromatic amines but very similar to those of PB. Therefore, it appears that MX is a non-genotoxic chemical that may cause mouse liver tumors in a manner analogous to that of PB.