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Pancreatic acinar cells were isolated for culture from a young (Y) and an old (O) Brown-Norway or Fischer 344 rat fed an ad libitum (AL) or calorically restricted (CR) diet. The cells were cultured and cellular growth rates were determined as a function of passage number. An overall increase in cellular growth rate and transformation frequency with age and/or AL diet relative to youth as well as a decrease with CR diet were concordant with reported responses in vivo. Transformation frequency was measured in Brown-Norway cells and followed the same pattern as the growth response: AL/O > AL/Y = CR/Y > CR/O. The cellular model is shown to fit the general multistage requirements of the carcinogenic process as well as general age and diet characteristics of pancreatic cancer. This pancreatic acinar cell age-diet approach may prove to be a valuable tool for determining mechanisms of exocrine pancreatic carcinogenesis as well as other disease states; it may also be of utility in in vitro gerontological nutritional and pharmacological studies since some of the age and diet determinants of biological effects appear to be segregable. Propensity of cells from an old and/or AL diet animal for faster growth and for cellular transformation are programmed into the cells by the time of their excision from the animal (as late as 14 months), indicating a heritable component in the model or a mechanism that is dependent upon elements that control gene expression.
Carcinogenesis 1992 Dec
PMID:An in vitro pancreas acinar cell model for testing the modulating effects of caloric restriction and ageing on cellular proliferation and transformation. 147 53

The potential mutagenicity and carcinogenicity of commercial PCBs has been investigated in both in vivo and in vitro systems and several conclusions can be drawn from these studies. (1) PCBs can covalently adduct DNA both in vivo and in vitro (using a source of metabolic activation); the more highly chlorinated biphenyls are poorly metabolized and these compounds tend to exhibit very low binding to DNA. Based on the structure-activity relationships for PCBs (Safe, 1984) it is unlikely that the more toxic compounds such as 3,3',4,4',5-penta- and 3,3',4,4',5,5'-hexachlorobiphenyl, would form covalent adducts with DNA. (2) PCB mixtures and individual compounds exhibit minimal mutagenic activity in most assay systems. (3) The more highly chlorinated PCB mixtures (i.e. greater than 50% Cl by weight) are hepatocarcinogens in rodents whereas data from a limited number of studies suggest that the lower chlorinated mixtures are not carcinogenic. (4) In some model systems, the higher chlorinated PCB mixtures act as promoters of preneoplastic lesions and hepatocellular carcinomas in rodents treated with a variety of initiators. (5) Aroclor 1254 acts as a promoter of skin papilloma formation in HRS/J hairless mice and structure-activity and genetic studies suggest that the Ah receptor is necessary but not sufficient for the activity of halogenated aryl hydrocarbons as promoters in hairless mice. (6) Individual PCB congeners and higher chlorinated commercial mixtures also exhibit anti-carcinogenic activity in the CD-1 mouse skin cancer model. (7) Results from occupational studies suggest that individuals exposed to PCBs may have an excess of cancer at some sites, however, the most comprehensive study (Brown, 1987) suggests that there are no significant increases in the overall cancer rate in workers exposed to PCBs. Follow-up and continuing epidemiological studies on the PCB-exposed workers are required to further clarify the potential carcinogenic effects of PCBs on humans. In several strains of rats and mice, there is a high incidence of hepatic preneoplastic lesions and carcinomas and these lesions can be induced by diverse promoting agents (Schulte-Hermann et al., 1983; Weinstein, 1984). Since PCBs are not mutagenic and do not readily form covalent adducts with cellular DNA, it is likely that the higher chlorinated biphenyls are not genotoxic and act as promoters of carcinogenesis in rodents. A comparable mechanism has been suggested for 2,3,7,8-TCDD (Shu et al., 1987; Weinstein, 1984). For PCBs, the role of the Ah receptor in mediating their activity as promoters has not been delineated.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Polychlorinated biphenyls (PCBs): mutagenicity and carcinogenicity. 249 77

1. Strain variations among female rats in terms of cytosolic DT-diaphorase activity were studied in liver, heart and glandular stomach tissues with or without administration of 3-tert-butyl-4-hydroxyanisole (BHA). 2. BHA induced liver DT-diaphorase activity in all strains examined, and both the basal and induced activities varied according to strain. Among the five strains tested, Brown Norway (BN) and Sprague-Dawley (SD) rats showed relatively high levels of enzyme activity in the liver, whereas Fischer (F344) rats showed a relatively low level of activity. Results of examination of Fischer-BN-F1 rats indicated that a lower level of liver DT-diaphorase activity was inherited essentially as a dominant trait. 3. Liver DT-diaphorase activity in male rats was significantly lower than in female rats. Small strain variations of the activity, if any, were observed in the heart and stomach cytosolic fractions with or without induction by BHA. The magnitude of induction by BHA was also small, if any, in heart and stomach cytosolic fractions. 4. From these and other observations, we discussed the differences between rats and mice in these strain and tissue variations of DT-diaphorase activity, and also the possible significance of liver DT-diaphorase activity in carcinogenesis by azo dyes.
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PMID:Rat strain variations in liver cytosolic DT-diaphorase activity and possible significance of the trait in carcinogenesis by azo dyes. 251 70

Radiation carcinogenesis of the rat mammary gland was investigated with the objective of investigating the combined effect of oestrogen administration and irradiation. Three rat strains, Sprague-Dawley, Wistar WAG/Rij and Brown Norway, with different susceptibilities to the induction of mammary cancer, have been irradiated with X-rays and mono-energetic neutrons. Increased hormone levels were obtained by subcutaneous implantation of pellets with oestradiol-17 beta (E2). The tumour incidence results were corrected for competing risks and were analysed with a continuous failure time distribution. The latency period for the hormone-treated animals is considerably shorter than for animals with normal endocrinological levels. Administration of the hormone results in an appreciable increase in the proportion of rats with malignant tumours. At the level of hormone administration applied in this study, radiation and hormones appear to produce an additive effect. The effect of hormone administration and irradiation for mammary tumourigenesis is equal for hormone administration one week prior to, or 12 weeks after irradiation. The RBE values for induction of mammary carcinomas after irradiation with 0.5 MeV neutrons have a maximum value of 20 and are not strongly dependent on the hormone levels.
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PMID:Mammary carcinogenesis in different rat strains after irradiation and hormone administration. 349 99

I-compounds are species-, tissue-, genotype-, gender-, and diet-dependent bulky DNA modifications whose levels increase with animal age. While a few of these DNA modifications represent oxidation products, the majority of I-compounds appear to be derived from as yet unidentified endogenous DNA-reactive intermediates other than reactive oxygen species. Circadian rhythms of certain I-compounds in rodent liver imply that levels of these DNA modifications are precisely regulated. Caloric restriction (CR), the currently most effective method available to retard aging and carcinogenesis, has been previously shown to elicit significant elevations of I-compound levels in tissue DNA from Brown-Norway (BN) and F-344 rats as compared to age-matched ad libitum fed (AL) animals. The present investigation has extended this work by examining liver and kidney DNA I-compound levels in three genotypes of rats (F-344, BN, and F-344 x BN) and two genotypes of mice (C57BL/6N and B6D2F1) under identical experimental conditions in order to determine whether correlations exist between I-compound levels, measured in middle-aged animals, and median lifespan. Levels of a number of liver and kidney I-compounds were found to display genotype- and diet-dependent, statistically significant positive linear correlations with median lifespan in both species. In particular, the longer-lived hybrid F-344 x BN rats and B6D2F1 mice tended to exhibit higher I-compound levels than the parent strains. CR enhanced I-compound levels substantially in both rats and mice. Thus, I-compounds, measured at middle age, reflected the functional capability ('health') of the organism at old age, suggesting their predictive value as biomarkers of aging. The positive linear correlations between levels of certain I-compounds (designated as type I) and lifespan suggest that these modifications may be functionally important and thus not represent endogenous DNA lesions (type II), whose levels would be expected to correlate inversely with lifespan.
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PMID:Biomarkers of aging: correlation of DNA I-compound levels with median lifespan of calorically restricted and ad libitum fed rats and mice. 750 61

While the life-extending and disease-modulating effects of caloric restriction (CR) are well documented in whole animal studies and in correlative experiments using cells taken from CR animals, very few studies have used cells in culture after their removal from the CR-fed animal. In using this in vivo-->in vitro approach we have attempted to examine the proposition that the effects of CR can be transferred to individual cells by analyzing the cellular functions of proliferation and transformation, the activation of oncogenes, and the methylation of DNA as a function only of diet. Pancreatic acinar cells excised from CR-fed Brown-Norway rats and placed in rich medium showed different responses compared to cells from ad libitum (AL)-fed controls. CR had the effect of slowing growth rate and protecting against spontaneous and N-methyl-N'-nitro-N-nitrosoguanidine (MNNG)-induced transformation over 14 passages of cells in culture. At the molecular level, cells from the CR animals showed reduced c-Ha-ras oncogene expression and mutation as well as reduced mutation of the p53 suppressor gene. CR also increased genomic methylation of ras DNA. We conclude that the effects of CR treatment of the animal are transferred to individual cells and note that these responses (decreased proliferation and transformation; depressed oncogene expression and mutation and decreased suppressor gene mutation; and increased oncogene methylation) are cellular and molecular analogs of in vivo weight loss, life extension, and carcinogenesis modulation, which are hallmarks of CR in the whole animal. The fact that these responses are seen generations after the cells are removed from the CR-treated animal indicates that CR causes a permanent predisposition of pancreatic acinar cells to these modulated responses and shows the value of the in vivo-->in vitro protocol in studies that relate diet to cellular and molecular function.
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PMID:Effects of caloric restriction in animals on cellular function, oncogene expression, and DNA methylation in vitro. 750 63

Caloric restriction (CR), known to extend median and maximum life spans, improve resistance to carcinogenesis, and significantly retard age-associated degenerative diseases in rodents, was previously reported to modulate levels of indigenous, age-dependent DNA modifications, called I-compounds, in male Brown-Norway (B-N) rats. Since profiles of these adduct-like derivatives are species-, strain-, sex-, and tissue-specific, we explored this apparent CR/I-compound relationship in a comparative study between male B-N and male Fischer 344 (F-344) rats, the latter having a shorter life expectancy and high incidence of renal disease. Control animals were fed NIH-31 diet ad libitum (AL), while the caloric intake of CR animals was limited to 60% of AL, starting at 3.5 months. Liver and kidney DNA from 1, 8, 12, 16, 24 (AL, CR), and 30 (CR only) month old rats was analyzed by 32P-postlabeling. Corresponding tissues from the two strains yielded similar DNA profiles. Total liver I-compound levels displayed 2.3-4.6-fold age-dependent increases from 1 to 24 months, and kidney values at 24 months were 5.2-8 times higher than those at 1 month. In both strains, I-compound levels of CR animals were higher, up to 2-fold, than in age-matched AL rats. Regression analyses indicated linear relationships between most CR relative adduct labeling values (both total and individual fractions) and age, whereas many AL values exhibited this type of link with log age. These findings confirm that a correlation exists between CR and I-compound levels, and, given the above physiological benefits of CR, indicate that I-compounds represent biomarkers of aging with potential utility in intervention studies.
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PMID:Enhancement of age-related increases in DNA I-compound levels by calorie restriction: comparison of male B-N and F-344 rats. 767 27

We have previously shown that inactivation of mannose 6-phosphate/insulin-like growth factor 2 receptor (M6P/IGF2R) is a common early event in both human liver and breast carcinogenesis. The M6p/Igf2r is imprinted in mice while expression is biallelic in most humans. In this investigation the M6p/Igf2r gene is shown to also be imprinted in the liver of Fischer 344, Lewis and Brown Norway rats. In addition, we have identified mutations in the expressed allele of the M6p/Igf2r in 40% of diethylnitrosamine-initiated rat liver tumors. These results provide further evidence that the M6P/IGF2R functions as a liver tumor suppressor gene. They also suggest that mice and rats would be more sensitive than humans to those hepatocarcinogens in which the M6p/Igf2r is mechanistically involved in transformation since one rather than two alleles would need to be inactivated.
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PMID:Imprinted M6p/Igf2 receptor is mutated in rat liver tumors. 965 47

2-Amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) is the most abundant mutagenic heterocyclic amine (HCA) present in cooked foods. PhIP induces colon cancer in male Fischer 344 (F344) rats, and its role in human colon carcinogenesis has been suspected. To study the ecogenetics in PhIP colon carcinogenesis, rat system using aberrant crypt focus (ACF) formation as a phenotypic marker was applied. Among Buffalo (BUF), Brown Norway (BN), F344 and ACI/N (ACI) strains of rats, F344 rats produced a lower level of PhIP-DNA adducts than other three strains, and the number of ACFs/rat was highest in BUF, intermediate in BN and F344 and lowest in ACI. Thus there was no correlation between adduct levels and number of ACF induced by PhIP. F1 progenies of BUF and ACI developed ACF at a similar level to that of F344, and F1 progenies of F344 and ACI developed ACF at a similar level to that of F344. Thus it was indicated that susceptibility of F344 to the ACF induction was autosomally dominant over ACI rats. The results also suggest that BUF rats have at least two genes, one is autosomally recessive against ACI rats and one is autosomally dominant similar to that F344 has. A total of 170 progeny of ACI backcross of F344/ACI F1 were examined for number of ACFs and 65 progeny were phenotyped as F344 and 60 were ACI. Using these 125 rats, chromosomal mapping is being performed using markers of simple sequence length polymorphism (SSLP) and representational difference analysis (RDA). By mapping the gene, we will be able to identify humans who might belong to high risk group in general population, and cancer can be prevented more efficiently by attaining early diagnosis.
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PMID:Genetic determinant and environmental carcinogens. 967 50

Alternative models using fish species have been tested in liver toxicity and carcinogenesis bioassays. Similar models have not been developed for skin. The brown bullhead (Ameiurus nebulosus) has shown potential as a model for skin carcinogenesis studies due to its sensitivity to environmental chemical pollutants. The present study is an initial morphologic and biochemical characterization of the normal and neoplastic brown bullhead skin to assess its suitability as a model of skin carcinogenesis. Brown bullhead were removed from Back River in the Chesapeake Bay region, an area historically polluted with heavy metals and polycyclic aromatic hydrocarbons. Histology, histochemistry, and electron microscopy were used to stage the morphologic development and progression of neoplasia in skin. The distribution of keratin, a family of structural proteins with altered expression in mammalian tumorigenesis, was analyzed with one and two dimensional gel electrophoresis and nitrocellulose blots of extracts from normal skin. Keratin expression in skin and other organs was also assessed with immunohistochemistry using AE1, AE3, and PCK 26 antibodies, and the proliferation index in skin and neoplasms with PCNA antibody. Skin lesions appeared to progress from hyperplasia through carcinoma, and the proliferation index was increased in papilloma. Also in papilloma, intercellular interdigitations appeared increased and desmosomes decreased which may in future studies correlate with changes in expression of other molecular markers of neoplastic progression. Both Type I and Type II keratin subfamilies were detected in skin using gel electrophoresis with the complimentary keratin blot-binding assay. For further development of the brown bullhead model, future studies can compare and relate these baseline data to alterations in expression of keratin and other markers in fish neoplasms and to molecular events which occur in man.
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PMID:Brown bullhead (Ameiurus nebulosus) skin carcinogenesis. 1093 Jan 21

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