E. Scherer

Neoplastic progression in expreimental hepatocarcinogenesis

The evolution of cancer through a series of progressive steps is discussed in the rat liver model on the basis of the multi-hit-multi-step hypothesis. The available evidence for this hypothesis is reviewed with special attention to its kinetic aspects. The neoplastic cell stages which can be distinguished during the protracted developmental process leading from the early precancerous foci to the malignant hepatocellular carcinoma are discussed in the light of the histological evidence for step-by-step progression manifested as focus-in-focus lesions. The inducibility of progression of the early precancerous foci to the transplantable neoplastic nodule stage by a new experimental protocol of the initiation-promotion-initiation type is indicative of the operation of a common molecular mechanism, i.e., somatic mutation, during the first and later steps of the carcinogenic process.

Immunocytochemical analysis of in vivo DNA modification.

In the past decades a large number of DNA adducts induced in the intact animal by alkylating agents have been identified. The formation and repair of these adducts are important determinants, not only of mutagenesis, tumor initiation and DNA-mediated toxicity but probably also of tumor progression. Most studies on in vivo DNA modification have been performed on isolated bulk DNA. More recently, methods have been developed to study the distribution of DNA adducts at the level of either the individual gene or the individual cell. This paper reviews immunocytochemical methods to study the formation and repair of DNA adducts and other DNA modifications at the level of the individual cell. DNA modifications induced by alkylating agents and a variety of other agents including ultraviolet radiation, aromatic amines, polycyclic aromatic hydrocarbons and platinum anti-cancer drugs will be discussed. Up to now, immunocytochemical analysis of in vivo modified DNA has largely concentrated on experimental animals. These studies have revealed striking heterogeneities with regard to formation and/or repair of DNA adducts in tissues from rat, hamster and mouse. Immunocytochemical adduct analysis can be used to identify in a convenient, fast and detailed way cell types, cell stages and sites in which biological effects of the adducts might be expressed. More recently, immunocytochemical analysis of DNA adducts also proved to be feasible on in situ exposed human samples. A number of existing and potential applications in the field of chemical carcinogenesis, experimental chemotherapy and molecular epidemiology are discussed.

Immunocytochemical analysis of O6-alkylguanine shows tissue specific formation in and removal from esophageal and liver DNA in rats treated with methylbenzylnitrosamine, dimethylnitrosamine, diethylnitrosamine and ethylnitrosourea

The formation and repair of carcinogen-DNA adducts in esophagus and liver of rats treated with a single i.p. dose of methylbenzylnitrosamine (MBN), dimethylnitrosamine (DMN), diethylnitrosamine (DEN) or ethylnitrosourea (ENU) has been studied using peroxidase immunocytochemistry to visualize O6-alkylguanine in DNA of individual cells. After MBN O6-methylguanine (O6-MeG) specific nuclear staining was only present in the target tissue for tumor induction, the esophageal epithelium. Part of the adducts persisted for at least 72 h. No O6-MeG could be detected in liver. DEN, a carcinogen in liver and esophagus, led to DNA modification of esophageal epithelial cells, and liver parenchymal and non-parenchymal (Kupffer and sinusoidal) cells of the centrilobular area. O6-EtG was removed within 72 h from both liver cell populations. A similar distribution of adduct (O6-MeG) formation was observed in liver after the hepatocarcinogen DMN, but this nitrosamine did not detectably modify esophageal cells. O6-MeG persisted in Kupffer and especially sinusoidal lining cells of liver, consistent with the induction of sarcomas by DMN. The relatively unspecific, directly alkylating carcinogen ENU modified DNA of all cell types to a similar extent. A qualitative correlation was obtained between the tissue specific ability to induce tumors and the formation of O6-alkylguanine (O6-alkylG). Our experiments support the hypothesis that DNA modification is necessary for the initiation of carcinogenesis by chemical carcinogens, and that a low capacity to repair promutagenic lesions, like O6-alkylG, potentiates this process.

Long-term persistence of DNA alkylation in hamster tissues after N-nitrosobis(2-oxopropyl)amine.

SummaryThe persistence of 7- andO6-alkylation of guanine in DNA of cell nuclei of male Syrian hamster pancreas, liver, kidneys, lungs [target tissues ofN-nitrosobis (2-oxopropyl)amine (BOP)] and salivary glands (nontarget tissue) was studied immunocytochemically 6 h, 1, 3, 7, 14, 28, and 56 days after a single s.c. injection of 20 mg BOP/kg. Conventional antisera raised againstO6-methylguanine and imidazole-ring-opened 7-methylguanine were used. Persistent alkyl-specific staining was observed for up to 7 days (7-alkylguanine) or 56 days (O6-alkylguanine) in inter- and intralobular duct cells and centro-acinar cells of the pancreas, periportal hepatocytes and bile duct cells of the liver, cells of the proximal convoluted tubules of the renal cortex, and bronchiolar Clara and alveolar cells in the lungs. Both adducts disappeared from centrilobular liver cells within 1 day, from pancreatic acinar cells within 3 days, and from ducts and acini of the submandibular salivary glands within 14 days after BOP treatment. A high level of persistentO6-alkylation of guanine was related with a high tumor incidence only in case of the ductal/ductular system of the pancreas, the main target tissue of BOP-induced carcinogenesis. The relatively weak carcinogenicity of BOP in other tissues with long-term persistence ofO6-alkylguanine in DNA indicates that the formation and persistence of DNA alkylation are not sufficient to account for the carcinogenic organotropism of BOP. Additional factors, such as cell proliferation, appropriate promoting stimuli and the (onco)genes critically involved, may be as important as the modification of DNA.

Early indicators of exocrine pancreas carcinogenesis produced by non-genotoxic agents

In the past 40 years the incidence of pancreatic cancer in many Western countries had increased. Since no single factor responsible for the development of pancreatic cancer has been identified, it is believed that non-genotoxic factors may play an important role in the pathogenesis of this highly fatal form of cancer. Focal abnormalities of acinar cells, referred to as atypical acinar cell foci or nodules, occur spontaneously in rats and some other species. Their incidence increases with age from zero at birth to about 75% in 2-year-old rats. These spontaneous lesions have a phenotype that cannot be distinguished from the putative, atypical preneoplastic, acinar cell foci induced in rat pancreas by the carcinogen azaserine. Unsaturated fat (corn oil) has been found to increase the incidence of atypical acinar cell nodules and adenomas in the pancreas of non-carcinogen-treated rats without influencing the weight of the pancreas. Furthermore, unsaturated fat has a specific promoting effect on the growth potential of atypical acinar cell foci and nodules induced in rat pancreas by azaserine, resulting in an increase in the number and size of these lesions. Rats fed raw soya flour or trypsin inhibitors develop an enlarged pancreas as a result of hypertrophy and hyperplasia. They also develop acidophilic atypical acinar cell foci and nodules, adenomas and adenocarcinomas after being fed full-fat raw soya flour for 2 years. It may be concluded from the observations in rat pancreas that non-genotoxic compounds or conditions that enhance pancreatic growth may be classified as non-genotoxic pancreatic tumour promoters. The observations with corn oil, however, indicate that there may be non-genotoxic compounds that specifically enhance growth of spontaneous initiated atypical acinar cell foci without causing hyperplasia of the pancreas. The possible mechanisms whereby unsaturated fat and trypsin inhibitors exert their effects on exocrine pancreatic carcinogenesis are discussed.

Intercellular variation in levels of adducts of aflatoxin B1 and G1 in DNA from rat tissues: a quantitative immunocytochemical study

SummaryAdducts between aflatoxin B1 and G1 and DNA have been visualised and quantified in various rat tissues by a sensitive immunocytochemical approach. The quantitative validity of this assay has been examined by comparison with experiments using radioactively labelled aflatoxin. Rats were exposed to single and multiple doses of aflatoxin and a marked intercellular variation in adduct levels was observed in kidney and lung, in contrast to the liver, where binding was more homogeneous. No adducts were detected in the oesophagus, forestomach, colon, spleen or testes (detection limit approximately 300 pg aflatoxin/mg DNA). The DNA adduct data are discussed in relation to the carcinogenicity of aflatoxin B1 and G1.

Improved immunocytochemical staining of carcinogen-DNA adducts by a capillary slot block system.

We developed an immunocytochemical protocol in which incubation occurs in a capillary slot instead of the conventional horizontal drop. Slots of constant width were formed by placing slides on top of each other with parafilm spacer layers in between. Cryostat or semi-thin plastic-embedded sections were cut from organs of carcinogen-treated experimental animals. Carcinogen-DNA adducts were visualized in the affected nuclei by a double peroxidase-antiperoxidase method using rabbit antisera specific for certain DNA adducts formed. The staining in capillary slot blocks offered better staining reproducibility than the conventional method. This is particularly important when the staining intensity must be quantified. In addition, handling of the blocks was substantially less laborious than the individual treatment of slides, making this protocol especially suitable for larger series of slides. Other applications for the capillary slot block protocol should be enzyme histochemistry and in situ hybridization.

Modulation of putative preneoplastic foci in exocrine pancreas of rats and hamsters: Interaction of dietary fat and coffee

The effects of coffee and dietary fat (alone and in combination) on the development of preneoplastic lesions in exocrine pancreas were investigated in rats and hamsters, treated with azaserine or N-nitrosobis(2-oxopropyl)amine, respectively. The animals were given the respective diets (5% or 25% corn oil) and coffee (instead of drinking water) within one week after the treatment with carcinogen. At four months postinitiation, the pancreata were quantitatively examined for the number and size of preneoplastic foci. In rats, coffee alone inhibited growth of acidophilic foci and, moreover, slightly inhibited the positive modulating effect of fat on growth of these foci, pointing to a negative rather than a positive interaction between these two life-style factors. In hamsters, coffee alone enhanced growth of cystic foci, whereas fat alone enhanced growth of ductular foci. An interaction between fat and coffee on pancreatic carcinogenesis in hamsters could not be demonstrated.

Persistence and accumulation of (potential) single-strand breaks in liver DNA of rats treated with ethyl methanesulphonate

In vivo alkylation of DNA leads to DNA fragmentation in alkaline sucrose gradients. In a previous paper (Chem.-Biol. Interact., 19 (1977) 111) we presented evidence that, depending on the experimental conditions, a major fraction of the single-stranded breaks observed might be derived from alkali-labile alkylphosphotriesters. Using alkaline gradients the present paper shows that injection of ethyl methanesulphonate (EMS) into Sprague-Dawley female rats results in significantly increased liver DNA fragmentation up to at least 56 days after injection. Accumulation of single-strand breaks was indicated by experiments in which at 6 days after the last of a series of 5 weekly EMS injections (5 X 110 mg/kg) 11.4 breaks/10(9) Dalton were found, being 3 times more than the number of breaks observed at 6 days after a single injection of 110 mg/kg EMS (3.8 breaks/10(9) Dalton). In animals treated with methyl methanesulphonate (MMS) single-strand breaks were observed at 4 h, 1 day and 2 days, but not at 6 days after injection (40 mg/kg). Repeated weekly injections of MMS (5 X 40 mg/kg) did not result in increased numbers of breaks when compared with animals receiving a single injection of this agent (1 X 40 mg/kg; animals were killed 1 day after (the last) injection). It is suggested that MMS-induced breaks are derived, either on the gradient or in situ, from apurinic sites, whereas persistent EMS-induced breaks reflect the presence of ethylphosphotriesters. The results are discussed in relation to the lacking capacity of EMS to induce foci of precancerous lesions in rat liver and the non-hepatocarcinogenic properties of both MMS and EMS.

Visualization and Computer-Assisted Quantification of DNA Modifications in Individual Cells

Modification of cellular DNA has been linked with diverging biological effects, such as cell death, cytostatic effects, mutagenesis and carcinogenesis. Important parameters are the pattern and extent of DNA modification, the proliferative activity of the exposed cell, and its capacity to repair relevant DNA damage. The present paper reviews a specific, sensitive, and quantitative immunocytochemical method for the analysis of DNA damage at the single cell level. A number of existing and potential applications in the field of chemical carcinogenesis, chemical mutagenesis, experimental chemotherapy and molecular epidemiology will be discussed.