Hereditary low level of plasma ceruloplasmin in LEC rats associated with spontaneous development of hepatitis and liver cancer

Both young (5 weeks old) and old (61-100 weeks old) hereditary hepatitis LEC rats showed a markedly low level of plasma ceruloplasmin (Cp) ferroxidase activity as compared with that of age-matched LEA and BN strain rats. This trait was genetically examined by the use of (BN x LEC) F1 hybrid and (F1 x LEC) backcross rats. The F1 hybrids never developed hepatitis and showed a similar level of Cp to that found in the parental BN rats. Among the backcross rats with about 1:1 segregation rate for hepatitis, affected rats had a remarkably decreased level of Cp, as found in LEC rats, whereas unaffected rats exhibited a similar level of Cp to that of BN, F1 and LEA rats. These results indicate that the low level of Cp is heritable in a single autosomal recessive mode in LEC rats. The observed tight link between the low Cp level and the hepatitis in LEC rats suggests that defective copper metabolism may be associated with the occurrence of hepatitis in LEC rats, since Cp is a copper-binding protein primarily involved in copper transport from the liver.     

Two-dimensional Electrophoretic Analysis of Hepatitis-associated Polypeptides in Liver of LEC Rats Developing Spontaneous Hepatitis

High-resolution two-dimensional polyacrylamide gel electrophoresis in combination with silver staining was used to analyze between 800 and 1000 cytosolic and particulate polypeptides from age-matched livers of normal male Long-Evans rat with Agouti coat color (LEA) and Long-Evans rat with Cinnamon-like coat color (LEC) rats with hereditary trait of hepatitis at ages long before, immediately prior to, and just after the onset of hepatitis. Although the electrophoretic patterns of polypeptide expression were very similar with respect to the overall spot patterns, a number of polypeptides which differed either qualitatively or quantitatively were noted. Two constitutively expressed cytosolic polypeptides, P29.5 (M_r 29.5 kDa/pI 6.73) and P30 (30 kDa/6.70), were not detected in livers of LEC animals at any age. In the normal LEA rats both P29.5 and P30 were detected as early as one day after birth and both were expressed at similar concentrations at all ages. In the LEC rats P30-C (30 kDa/6.68) was constitutively expressed in close proximity to the expected position of P30, and P30-C was not detected in the LEA rats. By means of non-equilibrium pH gradient electrophoresis two relatively basic polypeptides were detected in the LEC rats. P18ne was detected immediately prior to and P27ne immediately after the clinical manifestation of hepatitis. Experiments in F₁ backcross ([LEA × LEC] × LEC) animals, however, failed to demonstrate any genetic link between either the expression or lack of expression of P29.5, P30, P30-C, or P18ne and hepatitis development. P27ne was detected in all backcross animals exhibiting hepatitis, but was never observed in LEC rats prior to the onset of hepatitis. Although we were unable to identify any unique loss of expression of polypeptides which are genetically linked to hepatitis susceptibility in LEC rats, specific subsets of quantitatively modulated polypeptides were detected.     

Long-Evans A and C Rat Strains Susceptible to Clastogenic Effects of Chemicals in the Bone Marrow Cells

The Clastogenic responses to direct- and indirect-acting carcinogens in bone marrow cells of LEA, LEC, Wistar and SD rats were compared. The frequency of chromosome aberrations (CA) induced by n -butyl-N-nitrosourea or methylmethanesulfonate (MMS), which does not need metabolic activation, was significantly higher in both LEA and LEC rats than in Wistar or SD rats. When bone marrow cells of each rat strain were exposed to MMS in vitro , they also showed the same tendency in CA frequency. Therefore, the high sensitivity of both LEA and LEC rats to the Clastogenic effects of direct-acting carcinogens seems to result from the sensitivity of the bone marrow cells themselves. On the other hand, the CA frequency induced by 7,12-dimethylbenz[a]anthracene (DMBA) or aflatoxin bi (AFB₁), which requires metabolic activation, was lower in LEC rats than in the other 3 strains. The CA frequency induced by DMBA or AFB₁ in LEC rats fed Cu-free diet since birth (Cu-free LEC rats) was higher than that in LEC rats given normal diet and lower than that in LEA rats, although the difference was statistically significant only between Cu-free LEC rats and LEC rats treated with DMBA. The copper concentrations in the livers of LEA, Cu-free LEC and LEC male rats aged 4 weeks were 5.0 ±0.4, 33 ±7.7 and 106±3.4 μg/g wet weight, respectively. These results suggest that the lower sensitivity of LEC rats to the Clastogenic effects of indirect-acting carcinogens may be due to the effect of the large amount of copper accumulated in LEC rat liver.     

High Susceptibility to Hepatocellular Carcinoma Development in LEC Rats with Hereditary Hepatitis

A remarkably high incidence of hepatocellular carcinomas was observed in long-surviving LEC rats with hereditary hepatitis. Among the 60 LEC rats examined between 12 and 28 months of age from F₂₉, and F₃₀, 55 (92%) developed putative preneoplastic and neoplastic lesions such as hyperplastic foci and nodules, and hepatocellular carcinomas. Of these, hepatocellular carcinomas were observed with a high frequency (46/55; 84%). All rats of advanced age that survived more than 18 months developed hepatocellular carcinomas. These results suggest that the development of liver tumors in LEC rats is an age-associated phenomenon with serial hepatic alterations after the subsidence of acute hepatitis. The long-surviving rats had no normal tissue and showed chronic hepatitis in nontumorous tissues of the liver. Cholangiofibrosis was also found in most rats with hepatic lesions. Metastasis of hepatocellular carcinomas was found in four rats. Histologically, the hepatocellular carcinomas were of a well-differentiated type with a typical trabecular structure. Thus, LEC rats seem to be a promising animal model for studying the pathogenesis of hepatitis and hepatocellular carcinoma.     

Elevated Level of 8-Hydroxydeoxyguanosine in DNA of Liver, Kidneys, and Brain of Long-Evans Cinnamon Rats

Long-Evans Cinnamon (LEG) rats, a mutant strain originating from Long-Evans rats, spontaneously develop hereditary hepatitis followed by hepatocellular carcinoma. The hepatic disorder in LEC rats is associated with their abnormal copper metabolism; metal-catalyzed reactions often give rise to oxygen radicals, which may be related to the carcinogenesis. By means of high-pressure liquid chromatography with electrochemical detection, cellular DNA damage caused by oxygen radicals can be assessed in terms of the amount of 8-hydroxydeoxyguanosine (oh⁸dG). We assayed the amount of oh⁸dG in DNA of liver, kidneys, and brain of LEC and Long-Evans Agouti (LEA) control rats in seven groups (n=3 to 6) aged from 5 weeks to 24 months. Control rats, a healthy sibling line, were age-matched. The amount of oh⁸dG was correlated with the severity of the age-related clinical symptoms in LEC rats. The amount was higher in LEC rats than in the controls, especially in the liver at the acute stage of hepatitis. These findings suggest that oxygen radicals may be important in the carcinogenesis that occurs in LEC rats.     

Enhancing Effect of a Choline–deficient Diet on Alterations of Hepatic Drug–metabolizing Enzymes in Hepatitis– and Hepatoma–predisposed Rats (LEC Rats)

Marked alterations of hepatic drug–metabolizing enzymes were observed in hepatitis– and hepatoma–predisposed rats (LEC rats) fed a choline–deficient diet. The diet enhanced the development of hepatitis with severe jaundice. The levels of two major classes of cytochrome P–450, P–450_PB and P–450_MC, were markedly decreased. GST–Yp was dramatically increased, whereas GST–Ya, Ybl and Yb2 were decreased. LEA rats (the control rats to LEC) fed a choline–deficient diet mimicked LEC rats fed a normal diet in terms of the above enzyme alterations, indicating that hypomethylation is involved in the pathogenesis of hepatitis and hepatoma in LEC rats. Such hypomethylation may initiate the hepatocytes that spontaneously develop hepatitis and hepatoma.     

DNA damage triggers imbalance of proliferation and apoptosis during development of preneoplastic foci in the liver of Long-Evans Cinnamon rats

The mutant strain Long-Evans Cinnamon (LEC) rat accumulates copper, resulting in spontaneous hepatitis and subsequent development of hepatocellular carcinomas (HCCs) in the liver, providing a promising model for investigation of the relationship between hepatitis induced by oxidative stress and hepatocarcinogenesis. We examined DNA strand breaks in peripheral blood cells and p53 expression in livers during acute and chronic hepatitis in LEC rats, along with preneoplastic lesions, and cell proliferation and apoptosis in non-cancerous portions of livers from LEC rats aged 7-115 weeks. Immunohistochemistry using antibodies against glutathione S-transferase placental-form (GST-P), proliferating cell nuclear antigen (PCNA), and in situ DNA nick labeling (TUNEL) were used. Long-Evans Agouti (LEA) rats, a sibling line of the LEC strain, were used as controls. In the LEC rats, DNA strand breaks and expression of p53 were significantly higher than that of LEA rats at 24 weeks of age. The number of GST-P-positive (GST-P+) foci/cm2 increased and peaked at 48 weeks old, and the areas rapidly expanded thereafter. The level of cell proliferation increased with the development of hepatitis and was highest at about 48 weeks old. The induction of apoptosis in LEC rats was transiently higher than that in LEA rats during the period from 24 to 34 weeks of age. However, the ratio of PCNA-positive cells to the apoptotic index showed a growth imbalance in favor of cell proliferation, supporting sustained net growth in LEC rats. These findings suggest that DNA damage, reflected in DNA strand breaks, plays a critical role in the development of hepatocellular preneoplastic foci, with an imbalance between high proliferation and relatively low apoptosis.     

Genetic linkage between copper accumulation and hepatitis/hepatoma development in LEC rats.

The concentration of copper in the livers of Long-Evans rats with cinnamon-like coat color (LEC), in which hepatitis and then hepatomas develop spontaneously, was recently found to be abnormally high. Therefore, we examined the copper concentrations in the livers of LEC F1 backcrosses (LEC F1 x LEC) to determine the linkage of copper accumulation with development of hepatitis. Consistent with a previously reported ratio of rats with hepatitis to rats without hepatitis of about 1:1, hepatitis developed in 14 of 30 F1 backcrosses. The copper concentrations in the livers of all LEC F1 backcrosses with hepatitis were abnormally high and comparable to those of LEC rats. In contrast, the concentrations in all backcrosses without hepatitis were similar to those in normal Long-Evans with agouti coat color or Brown-Norway rats. Copper accumulation was shown to be closely linked with the development of hepatitis in LEC rats and appeared to be a possible cause of hepatitis. The concentrations of copper in the livers of Fischer 344 rats after carbon tetrachloride treatment were in the range for normal liver, indicating that a high copper concentration in the liver is specific to LEC rats and not a specific characteristic of hepatitis. Furthermore, we found that the size and level of ceruloplasmin mRNA in the livers of LEC rats were the same as those in LEA rats and that the size and level of ceruloplasmin polypeptide in their livers and plasma were almost the same as those in LEA rats. Therefore, these results suggest that the copper accumulation is not due to alteration of expression or to gross alteration of the ceruloplasmin gene.     

Two-dimensional electrophoretic analysis of hepatitis-associated polypeptides in liver of LEC rats developing spontaneous hepatitis

High-resolution two-dimensional polyacrylamide gel electrophoresis in combination with silver staining was used to analyze between 800 and 1000 cytosolic and particulate polypeptides from age-matched livers of normal male Long-Evans rat with Agouti coat color (LEA) and Long-Evans rat with Cinnamon-like coat color (LEC) rats with hereditary trait of hepatitis at ages long before, immediately prior to, and just after the onset of hepatitis. Although the electrophoretic patterns of polypeptide expression were very similar with respect to the overall spot patterns, a number of polypeptides which differed either qualitatively or quantitatively were noted. Two constitutively expressed cytosolic polypeptides, P29.5 (Mr 29.5 kDa/pI 6.73) and P30 (30 kDa/6.70), were not detected in livers of LEC animals at any age. In the normal LEA rats both P29.5 and P30 were detected as early as one day after birth and both were expressed at similar concentrations at all ages. In the LEC rats P30-C (30 kDa/6.68) was constitutively expressed in close proximity to the expected position of P30, and P30-C was not detected in the LEA rats. By means of non-equilibrium pH gradient electrophoresis two relatively basic polypeptides were detected in the LEC rats. P18ne was detected immediately prior to and P27ne immediately after the clinical manifestation of hepatitis. Experiments in F1 backcross ([LEA x LEC] x LEC) animals, however, failed to demonstrate any genetic link between either the expression or lack of expression of P29.5, P30, P30-C, or P18ne and hepatitis development. P27ne was detected in all backcross animals exhibiting hepatitis, but was never observed in LEC rats prior to the onset of hepatitis. Although we were unable to identify any unique loss of expression of polypeptides which are genetically linked to hepatitis susceptibility in LEC rats, specific subsets of quantitatively modulated polypeptides were detected.     

Role of Copper Accumulation in Spontaneous Renal Carcinogenesis in Long-Evans Cinnamon Rats

Spontaneous renal cell tumors in totals of 223 male and female Long-Evans Cinnamon (LEC) rats of 51–120 weeks old, 157 male F344 rats of 51–120 weeks old, and 14 male Long-Evans Agouti (LEA) rats of 51–70 weeks old were examined histologically. The incidences of renal cell tumors increased with age in male and female LEC rats, but no tumors developed in F344 or LEA rats. Dilated atypical tubules of the kidneys were observed at high incidence in aged LEC rats. Copper staining of LEC rat kidneys showed a positive reaction in proximal tubules of the cortex and the outer stripe of the medulla. The renal copper concentration of LEC rats reached a peak in the period of necrotizing hepatitis with renal tubular necrosis, and was higher than that in F344 rats for up to 106 weeks. In contrast, the renal iron concentration of LEC rats was lower than that in F344 rats except in the period of necrotizing hepatitis. Long-term treatment of LEC rats with d -penicillamine, a copper-chelating agent, inhibited accumulation of copper, but not iron, in the kidneys, and inhibited the development of karyomegaly of proximal tubules and dilated atypical tubules. These results suggest that persistent copper accumulation after toxic necrosis of tubules is the major cause of spontaneous renal carcinogenesis in LEC rats.     

Genetic and Epigenetic Resistance of SL/Ni Mice to Lymphomas

The murine spontaneous B lymphoma is etiologically related to the expression of endogenous ecotropic marine leukemia virus (ETV). Although both SL/Kh and SL/Ni mouse strains show a high level of expression of ETV from early in life, the former is a pre-B lymphoma-prone strain and the latter is rather lymphoma-resistant. In order to identify the host background difference related to the lymphomagenesis, we performed a genetic cross study between these two strains. In the reciprocal F₁ generation, the length of the lymphoma latent period was slightly but significantly longer in (SL/Ni XSL/Kh)F₁ than in (SL/Kh × SL/Ni)F₁ (P<0.05). The incidence of overall lymphomas and that of acute pre-B lymphomas was lower in (SL/Ni × SL/Kh)F₁ than in (SL/Kh × SL/Ni)F₁, although the difference was not statistically significant. These observations indicate that an epigenetic maternal resistance mechanism of SL/Ni mice plays a role in the lymphoma resistance. Furthermore, in the backcross combinations without maternal influence of SL/Ni, we observed a genetic mechanism of lymphoma resistance: an SL/Ni-derived recessive lymphoma-resistance gene mapped in the proximal segment of Chr. 4. We named this gene nir-1 (SL/Ni-lymphoma resistance-1). Thus, we have demonstrated epigenetic and genetic mechanisms of lymphoma resistance of the SL/Ni mouse with the high expression of endogenous ETV.     

Role of copper accumulation in spontaneous renal carcinogenesis in Long-Evans Cinnamon rats.

Spontaneous renal cell tumors in totals of 223 male and female Long-Evans Cinnamon (LEC) rats of 51-120 weeks old, 157 male F344 rats of 51-120 weeks old, and 14 male Long-Evans Agouti (LEA) rats of 51-70 weeks old were examined histologically. The incidences of renal cell tumors increased with age in male and female LEC rats, but no tumors developed in F344 or LEA rats. Dilated atypical tubules of the kidneys were observed at high incidence in aged LEC rats. Copper staining of LEC rat kidneys showed a positive reaction in proximal tubules of the cortex and the outer stripe of the medulla. The renal copper concentration of LEC rats reached a peak in the period of necrotizing hepatitis with renal tubular necrosis, and was higher than that in F344 rats for up to 106 weeks. In contrast, the renal iron concentration of LEC rats was lower than that in F344 rats except in the period of necrotizing hepatitis. Long-term treatment of LEC rats with D-penicillamine, a copper-chelating agent, inhibited accumulation of copper, but not iron, in the kidneys, and inhibited the development of karyomegaly of proximal tubules and dilated atypical tubules. These results suggest that persistent copper accumulation after toxic necrosis of tubules is the major cause of spontaneous renal carcinogenesis in LEC rats.     

Genetic Regulation of Development of Thymic Lymphomas Induced by N-Propyl-N-nitrosourea in the Rat

To clarify the linkage between Hbb and Tls-1 (thymic lymphoma susceptible-1) loci and to investigate other loci concerned in thymic lymphomagenesis, the BUF/Mna rat, which is highly sensitive to the lymphomagenic activity of N -propyl- N -nitrosourea (PNU), the WKY/NCrj rat, reported to be resistant, and their cross offspring were subjected to genetic analysis. F₁ hybrid and backcross generations were raised from the 2 strains, and 6 genetic markers including Hbb were analyzed in individuals of the backcross generation. However, no linkage between Hbb and Tls-1 loci could be demonstrated since WKY rats also developed a high incidence of thymic lymphomas in response to PNU. Nevertheless, thymic lymphomas developed more rapidly and reached a larger size in the BUF rats. F₁ rats expressed a rather rapid and large tumor growth phenotype, while the [(WKY × BUF) × WKY] backcross generation consisted of rats with either rapidly growing or slowly growing tumors. It was thus concluded that rapid development of thymic lymphomas is determined by a gene, provisionally designated Tls-3 . Analysis of the relationship between 6 genetic markers and development of thymic lymphoma in the backcross generation demonstrated that the Tls-3 locus is loosely linked to the Gc locus, suggesting a possible location on rat chromosome 14. Tls-3 may not be identical with Tls-1 and other genes known to be relevant to thymic tumors, but its relationship with Tls-2 remains obscure.     

The high hepatocarcinogen susceptibility of LEC rats is genetically independent of abnormal copper accumulation in the liver

We previously reported that LEC rats, which show a spontaneousoccurrence of liver injury and hepatocellular carcinoma (HCC),are highly susceptible to chemical carcinogens such as diethylnitrosamine(DEN). Since abnormal copper accumulation in the liver of LECrats was found to be a cause of liver injury, it is necessaryto elucidate whether the carcinogen susceptibility of LEC ratsis related to the accumulation of copper in the liver. In thisstudy we have examined the relationship between the susceptibilityof F1 [LEC x LEA or LEC x Fischer 344 (F344)] and F1 backcrossrats to DEN and hepatic copper concentration, as copper accumulationhas been demonstrated to be inherited as an autosomal recessivetrait. The groups of F1 and F1 backcross rats were given a singleintraperitoneal injection of DEN (20 mg/kg body wt) and subjectedto a modified Solt—Farber protocol for assaying glutathioneS-transferase placental form (GST-P)-positive foci. The hepaticcopper concentration was examined by atomic absorption. Althoughno F1 rats showed a high copper concentration in the liver,the numbers of foci were as high as those in LEC rats whichaccumulate copper. Backcross rats separated into high and lowcopper concentration groups at an almost 1: 1 ratio, but therewas no significant difference in the mean numbers of foci betweenthese two groups. The results clearly indicate that the highsusceptibility of LEC rats to DEN is genetically independentof copper accumulation in the liver. A possible dominant inheritanceof this high carcinogen susceptibility was suggested. Biochemicalmeasurement of cytochromes P450 and b5 in the liver of F1 ratsindicated that alterations in drug metabolizing enzymes maybe partially responsible for the high carcinogen susceptibilityof LEC rats.     

Abnormal Copper Accumulation in Non-cancerous and Cancerous Liver Tissues of LEC Rats Developing Hereditary Hepatitis and Spontaneous Hepatoma

We studied the copper concentrations in the non-cancerous and cancerous liver tissues of LEC rats with hereditary hepatitis and spontaneous hepatoma by atomic absorption spectrophotometry. Copper concentration in the non-cancerous livers of 29-month-old male LEC rats was comparable to that in the livers of LEC rats aged 2, 3 and 8 months whose hepatic copper concentrations were more than 40 times those of normal LEA rats. Copper concentration in spontaneously developed hepatocellular carcinomas of the 29-month-old male LEC rats was lower than that in the surrounding non-cancerous liver tissues, but was still more than 39 times that of 8-month-old male LEA rats. These findings suggest that in LEC rats an abnormal copper metabolism may be maintained during the process of hepatic carcinogenesis.     

Abnormal copper accumulation in non-cancerous and cancerous liver tissues of LEC rats developing hereditary hepatitis and spontaneous hepatoma

We studied the copper concentrations in the non-cancerous and cancerous liver tissues of LEC rats with hereditary hepatitis and spontaneous hepatoma by atomic absorption spectrophotometry. Copper concentration in the non-cancerous livers of 29-month-old male LEC rats was comparable to that in the livers of LEC rats aged 2, 3 and 8 months whose hepatic copper concentrations were more than 40 times those of normal LEA rats. Copper concentration in spontaneously developed hepatocellular carcinomas of the 29-month-old male LEC rats was lower than that in the surrounding non-cancerous liver tissues, but was still more than 39 times that of 8-month-old male LEA rats. These findings suggest that in LEC rats an abnormal copper metabolism may be maintained during the process of hepatic carcinogenesis.     

Abnormal Hepatic Iron Accumulation in LEC Rats

The LEC (Long-Evans cinnamon) rat is a mutant strain displaying hereditary hepatitis and spontaneous hepatocellular carcinoma, and shows abnormal hepatic copper accumulation similar to that occurring in Wilson's disease. We evaluated the iron metabolism of LEC rats compared to LEA (Long-Evans agouti) rats. Hepatic iron and ferritin concentrations were remarkably increased depending on age in LEC rats but not in LEA rats. Increased hepatic iron is normally associated with decreased serum transferrin and total iron binding capacity in hepatic iron overload. In LEC rats, however, both serum transferrin and total iron binding capacity increased with increasing hepatic iron. This increase of serum transferrin and hepatic iron may be an additional important factor contributing to liver injury in LEC rats.     

Expression of cytochrome P450 in LEC rats during the development of hereditary hepatitis and hepatoma

The expression of 14 forms of cytochrome P450 in the liver aswell as changes in the testosterone hydroxylation activitiesof hepatic microsomes were investigated during the developmentof hepatitis in Long-Evans Cinnamon (LEC) rats. P4501A1 and-1A2 (3-methylcholanthrene-inducible forms) and P4502B1 and-2B2 (phenobarbital-inducible forms) were barely detected inthe hepatic microsomes of male and female LEC rats. In immaturemale rats, the levels of male-specific forms (P4502C11 and -2C13)were higher in LEC rats than in control Long-Evans Agouti (LEA)rats. P4502C11 appeared in female LEC rats from 4 to 16 weeksof age, reflecting that testosterone 2- and 16-hydroxylationactivities were detected at significant levels in female LECrats. In immature female rats, the level of P4502C12 (a majorfemale-specific form) was higher in LEC rats than in LEA rats.The level of P4502C13 in male LEC rats and that of P4502C12in female LEC rats decreased markedly with ageing or duringthe development of hepatitis. The level of P4503A2 (a male-predominantform) was especially high in immature male and female LEC rats,reflecting that both rats had high 2ß- and 6ß-hydroxylationactivities toward testosterone. These sex-specific forms areregulated by androgens and by pituitary growth hormone. Thus,there may be abnormalities of the hypothalamo–pituitary-gonadalaxis in LEC rats. Furthermore, P4503A2 efficiently activatesaflatoxin B1, a potent hepatocarcinogen, and the increased levelsof this form in LEC rats may be related to the onset of hepatitisor liver cancer.     

The WD Gene for Wilson's Disease Links to the Hepatitis of LEG Rats

LEC rats develop an autosomal recessive hepatitis and subsequently liver cancer associated with copper accumulation in the liver similar to that of Wilson's disease. Using 71 backcross [(WKAH x LEC) x LEC] rats, linkage analysis of the hepatitis with the WD gene for Wilson's disease revealed identical segregation and no recombination event between these two genes. This result indicates that the WD gene is a prime candidate for the hts gene responsible for the hepatitis of LEG rats, and suggests that the hepatitis of LEC rats may be caused by a defect in a copper-transporting ATPase expressed in the liver.     

Genetic Controls of Susceptibility and Resistance to 4-Nitroquinoline 1-Oxide-induced Tongue Carcinomas in Rats

We analyzed the incidence of infiltrative mass-type tongue carcinomas (IMTC) induced in 550 rats by continuous oral administration of 0.001% 4-nitroquinoline 1-oxide solution for 180 days. The study included various crosses of susceptible Dark-Agouti rats (DA) and resistant Wistar/Furth rats (WF). DA showed a 93.6% incidence of IMTC measuring more than 5 mm in their largest diameter, while WF showed only a 4% incidence. Reciprocal F₁ and F₂ hybrids mated by DA and WF showed 47.5% and 45.8% incidences, respectively. Meanwhile, reciprocal backcrossed hybrids to DA and WF showed 73.7%, and 24.6% incidences, respectively. Segregation of the incidences suggests that there are two autosomal dominant genes, one linked to the susceptibility of DA and the other to the resistance of WF.