Tumor promoters are non-mutagenic chemicals which increase the probability of cancer by accelerating the clonal expansion of cells transformed during tumor initiation. Phenobarbital (PB) is an antiepileptic drug which promotes hepatocarcinogenesis in rodents when administered subsequent to an initiating carcinogen like diethylnitrosamine (DEN). Here we have investigated the prevalence and patterns of mutations in two genes, Haras and b-catenin, both known mutational targets in mouse hepatocarcinogenesis. Liver tumors were generated by a single administration of DEN to 6 week old mice followed by feeding of PB (0.05%) containing or control diet for 39 weeks. Mutations at Ha-ras codon 61 were screened by allele-speci®c oligonucleotide hybridization; b-catenin mutations were detected by direct sequencing of PCR products spanning exon 2. In tumors from mice treated with DEN alone, the prevalence of Ha-ras mutations was *30% (6/20), while no b-catenin mutations (0/13) were detectable in tumors of this treatment group. By contrast, Ha-ras mutations were undetectable in tumors from mice treated with DEN/PB (0/32), while *80% (37/46) of tumors from this group showed b-catenin mutations. These results demonstrate that PB strongly aects the prevalence of mutations in the two cancer-related genes, presumably by positive and negative selection for cells harboring the respective mutation. Oncogene (2001) 20, 7812 ± 7816
The dioxin/aryl hydrocarbon receptor (AhR) functions as a ligandactivated transcription factor regulating transcription of a battery of genes encoding enzymes involved in drug metabolism. Known ligands include polycyclic aromatic hydrocarbons, certain polychlorinated biphenyls, and the polyhalogenated dioxins including 2,3,7,8-tetrachlorodibenzo-p-dioxin. Both polyhalogenated biphenyls and 2,3,7,8-tetrachlorodibenzo-p-dioxin are potent promoters of rodent hepatocarcinogenesis in two-stage initiation-promotion experiments. Although several lines of evidence indicate the involvement of the AhR in toxic effects mediated by polyhalogenated biphenyls and dioxins, its involvement in tumor promotion has not been unequivocally proven. In the present study, a transgenic mouse line expressing a constitutively active AhR (CA-AhR) has been used to investigate the role of the AhR in hepatocarcinogenesis. Male AhR wild-type and CA-AhR-transgenic B6C3F1-mice were treated with a single injection of the hepatocarcinogen N-nitrosodiethylamine at 6 weeks of age and were subsequently kept untreated on control diet. Thirty five weeks after carcinogen treatment, mice were sacrificed, and the prevalence and multiplicity of liver tumors were determined. Whereas only 1 small liver tumor was observed in 15 AhR-wild-type mice, 19 tumors (two >1 cm in diameter) were present in 18 CA-AhR-transgenic mice. This result demonstrates the oncogenic potential of the activated AhR and implicates an important role of the receptor in promotion of hepatocarcinogenesis. A microarray-based gene expression-profiling analysis revealed down-regulation in the liver of CA-AhR-transgenic mice of a cluster of genes encoding heat shock proteins, including GRP78/BiP, Herp1, Hsp90, DnaJ (Hsp40) homologue B1, and Hsp105, which are important for protein folding and quality control.
WY-14,643-mediated promotion of hepatocarcinogenesis in connexin32-wild-type and connexin32-null mice
Connexin32 (Cx32) is the major gap junction forming protein in liver and lack of functional Cx32 enhances hepatocarcinogenesis. Many tumour-promoting agents block gap junctional intercellular communication, which may favour clonal expansion of neoplastic cells. We recently demonstrated that liver tumourigenesis is accelerated in Cx32-wild-type but not in Cx32-null mice by the model tumour promoter phenobarbital (PB). In the present study, male Cx32-wild-type and Cx32-null mice were treated with a single injection of 90 micro g/g body wt of N-nitrosodiethylamine (DEN) at 6 weeks of age and were subsequently kept on a diet containing the peroxisome proliferator [4-chloro-6-(2,3-xylidino)-2-pyrimidinylthio]acetic acid (Wy-14,643) or on control diet. Thirty-eight weeks after DEN treatment, mice were killed, frozen liver sections were prepared and (pre)-neoplastic lesions were identified by alterations in glucose-6-phosphatase (G-6-Pase) and glutamine synthetase (GS) staining. G-6-Pase-deficient lesions were generally small in size and were observed in all groups of mice. Large focal pre-neoplastic and benign neoplastic lesions, however, which demonstrated increased rather than decreased activity in G-6-Pase were exclusively present in DEN/Wy-14,643-treated mice. G-6-Pase-positive lesions were strongly promoted by Wy-14,643, both in Cx32-wild-type and Cx32-null mice without significant difference in response between mice of the two genotypes. This contrasts G-6-Pase-negative lesions and lesions over-expressing GS, which were both increased by WY-14,643 treatment in number and size in Cx32-wild-type but not in Cx32-null mice. GS-positive lesions from WY-14,643-treated mice harboured beta-catenin mutations, a hallmark of lesions selected during promotion by PB, while G-6-Pase-positive lesions, which displayed negative or diffuse GS staining, did not show beta-catenin mutations. Our results demonstrate significant differences between mouse liver lesions of differing phenotype and genotype in their response towards selection by Wy-14,643 during the promotional phase of hepatocarcinogenesis.
Connexin32 (Cx32) is the major gap junctional protein in mouse liver. We have shown recently that the formation of liver tumours in Cx32-deficient mice is strongly increased in comparison with control wild-type mice, demonstrating that the deficiency in gap junctional communication has an enhancing effect on hepatocarcinogenesis. We have now compared the effect of Cx32 deficiency on liver carcinogenesis in two strains of mice with differing susceptibility to hepatocarcinogenesis. Heterozygous Cx32(+/-) females were crossed with male Cx32 wild-type C57BL/6J (low susceptibility) or C3H/He (high susceptibility) mice. Since the Cx32 gene is located on the X-chromosome, the resulting F1 males segregated to the genotypes Cx32(Y/+) and Cx32(Y/-). Genotyping was performed by PCR-analysis using tail-tip DNA. Weanling male mice were i.p. injected with a single dose of N-nitrosodiethylamine and were killed 16, 21 or 26 weeks later. The number, volume fraction and size distribution of precancerous liver lesions characterized by a deficiency in the marker enzyme glucose-6-phosphatase were quantitated. The results demonstrate that Cx32 deficiency only slightly affects the number of enzyme-altered lesions, but strongly enhances their growth, both in the resistant and the susceptible mouse strain, suggesting that decreased intercellular communication results in tumour promoting activity irrespective of the genetic background of the mouse strain used. Since Cx32-deficient C3H/He hybrids were approximately 5-10 times more sensitive than C3H/He hybrids with an intact Cx32 gene, this mouse strain may prove very useful for toxicological screening purposes.
Tumor promoters are nonmutagenic chemicals that increase the probability of cancer by accelerating the clonal expansion of cells transformed during tumor initiation. The molecular mechanisms underlying this process are only partly understood but interference with signaling pathways regulating cell division and/or cell death is likely to be important. Ras- and beta-Catenin-dependent signaling is important for both of these processes and ras and beta-catenin genes are known mutational targets in mouse hepatocarcinogenesis. About 80% of liver tumors generated in mice by a promotional regimen including phenobarbital (PB) as tumor promoter and N-nitrosodiethylamine (DEN) as initiator showed beta-catenin mutations whereas Ha-ras mutations were not detected. By contrast, tumors from mice treated with DEN alone showed a approximately 30% Ha-ras mutation prevalence but no beta-catenin mutations. This result suggests that PB-mediated promotion in mouse liver consists in a positive selection for hepatocytes harboring mutations in beta-catenin. The gap junction protein connexin 32 (Cx32) was also found to be involved in tumor promotion by PB because Cx32 gene knockout mice were almost entirely resistent to the promotional effects of the barbiturate. The link between beta-catenin-signaling and Cx32-dependent gap junctional intercellular communication, if existent, remains obscure.
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