Number of Simultaneously Expressed Enzyme Alterations Correlates with Progression of N‐Ethyl‐N‐hydroxyethylnitrosamine‐induced Hepatocarcinogenesis in Rats

Shuji Yamaguchi; Kazuo Hakoi; Keisuke Ozaki; Toshio Kato; Danai Tiwawech; Shizuko Nagao; Hisahide Takahashi; Kazuyuki Matsumoto; Hiroyuki Tsuda

doi:10.1111/j.1349-7006.1993.tb02828.x

. 1993 Dec;84(12):1237–1244. doi: 10.1111/j.1349-7006.1993.tb02828.x

Number of Simultaneously Expressed Enzyme Alterations Correlates with Progression of N‐Ethyl‐N‐hydroxyethylnitrosamine‐induced Hepatocarcinogenesis in Rats

Shuji Yamaguchi ^1,^✉, Kazuo Hakoi ¹, Keisuke Ozaki ¹, Toshio Kato ¹, Danai Tiwawech ¹, Shizuko Nagao ², Hisahide Takahashi ², Kazuyuki Matsumoto ³, Hiroyuki Tsuda ^3,^†

PMCID: PMC5919116 PMID: 7904986

Abstract

Preneoplastic and neoplastic liver cell lesions, induced by EHEN (N‐ethyl‐N‐hydroxyethylnitrosamine) in rats, were investigated to establish the numbers of simultaneously expressed altered enzyme phenotypes within the lesion cells. The lesions were divided into 5 classes on the basis of altered expression in one or more of the following 5 enzymes: glutathione S‐transferase placental form, glucose‐6‐phosphate dehydrogenase, glucose‐6‐phosphatase, adenosine triphosphatase, and γ‐glutamyl transpeptidase. Class 1 lesions contained cells expressing one altered enzyme. Similarly, class 2, 3, 4 and 5 lesions had cells simultaneously expressing 2, 3, 4, and 5 enzyme alterations, respectively. Four histopathological categories of lesions, ACF (altered cell foci) (274 lesions), HN (hyperplastic nodules) (47 lesions), HCC (hepatocellular carcinomas) (99 lesions) and THC (transplanted hepatocellular carcinomas) (5 lesions) were studied. Proliferation potential was assessed in terms of 5‐bromo‐2′‐deoxyuridine (BrdU) incorporation. The distribution profiles of classes 1 to 5 showed a clear reciprocal change from low class (1 to 2 enzymes) predominance in ACF to high class (4 to 5 enzymes) predominance in HN. Increase of BrdU labeling indices was clearly correlated with progression from HN to HCC. Only a small population of class 5 ACF showed a high BrdU labeling index, indicating particular potential for further development. Thus, the stages of EHEN‐induced neoplasia were found to be characterized by gradual increase in the number of altered enzyme phenotypes, with acquisition of proliferative potential being associated with further progression towards malignant conversion.

Keywords: Altered enzyme phenotype, Hepatocarcinogenesis, Progression

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REFERENCES

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18).Tsuda , H. , Asamoto , M. , Ogiso , T. , Inoue , T. , Ito , N. and Nagao , M.Dose‐dependent induction of liver and thyroid neoplastic lesions by short‐term administration of 2‐amino‐3‐methylimidazo[4,5‐f]quinoline combined with partial hepatectomy followed by phenobarbital or low dose 3′‐methyl‐4‐dimethylaminoazobenzene promotion . Jpn. J. Cancer Res. , 79 , 691 – 697 ( 1988. ). [DOI] [PMC free article] [PubMed] [Google Scholar]
19).Tsuda , H. , Moore , M. A. , Asamoto , M. , Inoue , T. , Fukushima , S. , Ito , N. , Satoh , K. , Amelizad , Z. and Oesch , F.Immunohistochemically demonstrated altered expression of cytochrome P‐450 molecular forms and epoxide hydrolase in N‐ethylhydroxyethylnitrosamine‐induced rat kidney and liver lesions . Carcinogenesis , 8 , 711 – 718 ( 1987. ). [DOI] [PubMed] [Google Scholar]
20).Hacker , H. J. , Moore , M. A. , Mayer , D. and Bannasch , P.Correlative histochemistry of some enzymes of carbohydrate metabolism in preneoplastic and neoplastic lesions in rat liver . Carcinogenesis , 3 , 1265 – 1272 ( 1982. ). [DOI] [PubMed] [Google Scholar]
21).Vesselinovitch , S. D. , Hacker , H. J. and Bannasch , P.Histochemical characterization of focal hepatic lesions induced by single diethylnitrosamine treatment in infant mice . Cancer Res. , 45 , 2274 – 2280 ( 1985. ). [PubMed] [Google Scholar]
22).Bannasch , P. , Hacker , H. J. , Klimek , F. and Mayer , D.Hepatocellular glycogenesis and related pattern of enzymatic changes during hepatocarcinogenesis . Adv. Enzyme Regul. , 22 , 97 – 121 ( 1984. ). [DOI] [PubMed] [Google Scholar]
23).Pitot , H. C. , Glauert , H. P. and Hanigan , M.The significance of selected biochemical markers in the characterization of putative initiated cell populations in rodent liver . Cancer Lett. , 29 , 1 – 14 ( 1985. ). [DOI] [PubMed] [Google Scholar]
24).Tsuda , H. , Ozaki , K. , Uwagawa , S. , Yamaguchi , S. , Hakoi , K. , Aoki , T. , Kato , T. , Sato , K. and Ito , N.Effects of modifying agents on conformity of enzyme phenotype and proliferative potential in focal preneoplastic and neoplastic liver cell lesions in rats . Jpn. J. Cancer Res. , 83 , 1154 – 1165 ( 1992. ). [DOI] [PMC free article] [PubMed] [Google Scholar]
25).Pugh , T. and Goldfarb , S.Quantitative histochemical and autoradiographic studies of hepatocarcinogenesis in rats fed 2‐acetylaminofluorene . Cancer Res. , 38 , 4450 – 4457 ( 1978. ). [PubMed] [Google Scholar]
26).Xu , Y.‐H. , Maronpot , R. and Pitot , H. C.Quantitative stereologic study of the effects of varying the time between initiation and promotion on four histochemical markers in rat liver during hepatocarcinogenesis . Carcinogenesis , 11 , 267 – 282 ( 1990. ). [DOI] [PubMed] [Google Scholar]
27).Rabes , H. M. , Buecher , T. , Hartmann , A. , Linke , J. and Duenwald , H.Clonal growth of carcinogen‐induced enzyme deficient preneoplastic populations in mouse liver . Cancer Res. , 42 , 3220 – 3227 ( 1982. ). [PubMed] [Google Scholar]
28).Moore , M. A. , Hacker , H. J. , Kunz , H. W. and Bannasch , P.Enhancement of NNM‐induced carcinogenesis in the rat liver by phenobarbital: a combined morphological and enzyme histochemical approach . Carcinogenesis , 4 , 473 – 479 ( 1983. ). [DOI] [PubMed] [Google Scholar]
29).Perera , M. I. R. and Shinozuka , H.Accelerated regression of carcinogen‐induced preneoplastic hepatocyte foci by peroxysome proliferators, Br931, 4‐chloro‐6‐(2,3‐xylidino)‐2‐pyrimidinylthio(N‐β‐hydroxyethyl)acetamide, and di(2‐ethylhexyl)phthalate . Carcinogenesis , 5 , 1193 – 1198 ( 1984. ). [DOI] [PubMed] [Google Scholar]
30).Ito , N. , Moore , M. A. and Bannasch , P.Modification of the development of N‐nitrosomorpholine‐induced hepatic lesions by 2‐acetylaminofluorene, phenobarbital and 4,4′‐diaminodiphenylmethane: a sequential histological and histochemical analysis . Carcinogenesis , 5 , 335 – 342 ( 1984. ). [DOI] [PubMed] [Google Scholar]
31).Kitagawa , T. , Watanabe , R. and Sugano , H.Induction of γ‐glutamyltranspeptidase activity by dietary phenobarbital in “spontaneous” hepatic tumors of C3H mice . Gann , 71 , 536 – 542 ( 1980. ). [PubMed] [Google Scholar]
32).Moore , M. A. , Nakamura , T. and Ito , N.Immunohistochemically demonstrated glucose‐6‐phosphate dehydro‐genase, γ‐glutamyltranspeptidase, ornithine decarboxylase and glutathione S‐transferase enzymes: absence of direct correlation with cell proliferation in rat liver putative preneoplastic lesions . Carcinogenesis , 7 , 1419 – 1424 ( 1986. ). [DOI] [PubMed] [Google Scholar]
33).Ogawa , K. , Solt , D. B. and Farber , E.Phenotypic diversity as an early property of putative preneoplastic hepatocyte populations in liver carcinogenesis . Cancer Res. , 40 , 725 – 733 ( 1980. ). [PubMed] [Google Scholar]
34).Rao , S. M. , Usuda , N. , Subbarao , V. and Reddy , J. K.Absence of γ‐glutamyltranspeptidase activity in neoplastic lesions induced in the liver of male F344 rats by di(2‐ethylhexyl)phthalate, a peroxisome proliferator . Carcinogenesis , 8 , 1347 – 1350 ( 1987. ). [DOI] [PubMed] [Google Scholar]

[b1] 1).Satoh , K. , Kitahara , A. , Soma , Y. , Hatayama , I. and Sato , K.Purification, induction and distribution of placental glutathione transferase: a new marker enzyme for preneoplastic cells in the rat chemical carcinogenesis . Proc. Natl. Acad. Sci. USA , 82 , 3964 – 3968 ( 1985. ). [DOI] [PMC free article] [PubMed] [Google Scholar]

[b2] 2).Sato , K.Glutathione transferases as markers of preneoplasia and neoplasia . Adv. Cancer Res. , 52 , 205 – 255 ( 1989. ). [DOI] [PubMed] [Google Scholar]

[b3] 3).Tatematsu , M. , Mera , Y. , Ito , N. , Satoh , K. and Sato , K.Relative merits of immunohistochemical demonstration of placental, A, B and C forms of glutathione S‐transferase as markers of altered foci during liver carcinogenesis . Carcinogenesis , 6 , 1621 – 1626 ( 1985. ). [DOI] [PubMed] [Google Scholar]

[b4] 4).Tatematsu , M. , Mera , Y. , Inoue , T. , Satoh , K. and Ito , N.Stable phenotypic expression of glutathione S‐transferase placental type and unstable phenotypic expression of γ‐glutamyltransferase in rat liver preneoplastic and neoplastic lesions . Carcinogenesis , 9 , 215 – 220 ( 1988. ). [DOI] [PubMed] [Google Scholar]

[b5] 5).Ogiso , T. , Tatematsu , M. , Tamano , S. , Tsuda , H. and Ito , N.Comparative effects of carcinogens on the induction of placental glutathione S‐transferase‐positive liver nodules in a short‐term assay and of hepatocellular carcinomas in a long‐term assay . Toxicol. Pathol. , 13 , 257 – 265 ( 1985. ). [DOI] [PubMed] [Google Scholar]

[b6] 6).Tatematsu , M. , Aoki , T. , Kagawa , M. , Mera , Y. and Ito , N.Reciprocal relationship between development of glutathione S‐transferase positive liver foci and proliferation of surrounding hepatocytes in rats . Carcinogenesis , 9 , 221 – 226 ( 1988. ). [DOI] [PubMed] [Google Scholar]

[b7] 7).Pitot , H. C. , Barsness , L. , Goldworthy , T. and Kitagawa , T.Biochemical characterization of stages of hepatocarcinogenesis after a single dose of diethylnitrosamine . Nature , 271 , 456 – 458 ( 1978. ). [DOI] [PubMed] [Google Scholar]

[b8] 8).Rao , M. S. , Tatematsu , M. , Subbarao , V. , Ito , N. and Reddy , J. K.Analysis of peroxisome proliferator‐induced preneoplastic and neoplastic lesions of rat liver for placental form of glutathione S‐transferase and 7‐glutamyltranspeptidase . Cancer Res. , 46 , 5287 – 5290 ( 1986. ). [PubMed] [Google Scholar]

[b9] 9).Hendrich , S. , Campbell , H. A. and Pilot , H. C.Quantitative stereological evaluation of four histochemical markers of altered foci in multistage hepatocarcinogenesis in the rat . Carcinogenesis , 8 , 1245 – 1250 ( 1987. ). [DOI] [PubMed] [Google Scholar]

[b10] 10).Ito , N. , Tsuda , H. , Tatematsu , M. , Inoue , T. , Tagawa , Y. , Aoki , T. , Uwagawa , S. , Kagawa , M. , Ogiso , T. , Masui , T. , Imaida , K. , Fukushima , S. and Asamoto , M.Enhancing effects of various hepatocarcinogens on induction of preneoplastic glutathione S‐transferase placental form positive foci in rats—an approach for a new medium‐term bioassay system . Carcinogenesis , 9 , 387 – 394 ( 1988. ). [DOI] [PubMed] [Google Scholar]

[b11] 11).Morstyn , G. , Hsu , S.‐M. , Kinsella , T. , Gratzner , H. , Russo , A. and Mitchell , J. B.Bromodeoxyuridine in tumors and chromosomes detected with a monoclonal antibody . J. Clin. Invest. , 72 , 1844 – 1850 ( 1983. ). [DOI] [PMC free article] [PubMed] [Google Scholar]

[b12] 12).Lanier , T. L. , Berger , E. K. and Echo , P. I.Comparison of 5‐bromo‐2‐deoxyuridine and [³H]thymidine for studies of hepatocellular proliferation in rodents . Carcinogenesis , 10 , 1341 – 1343 ( 1989. ). [DOI] [PubMed] [Google Scholar]

[b13] 13).Meijer , A. E. F. H. and de Vries , G. P.Semipermeable membranes for improving the histochemical demonstration of enzyme activities in tissue sections. IV. Glucose‐6‐phosphate dehydrogenase and 6‐phosphogluconate dehydrogenase . Histochemistry , 40 , 349 – 359 ( 1974. ). [DOI] [PubMed] [Google Scholar]

[b14] 14).Lojda , Z. , Grossrau , R. and Schiebler , T. H. “ Enzyme Histochemical Methods ” ( 1976. ). Springer Verlag; , Berlin , Heidelberg , New York . [Google Scholar]

[b15] 15).Hsu , S.‐M. , Raine , L. and Farger , H.Use of avidin‐biotin‐peroxidase complex (ABC) in immunoperoxidase techniques: a procedure . J. Histochem. Cytochem. , 29 , 577 – 580 ( 1981. ). [DOI] [PubMed] [Google Scholar]

[b16] 16).Farber , E.Pre‐cancerous steps in carcinogenesis. Their physiological adaptive nature . Biochim. Biophys. Acta , 738 , 171 – 180 ( 1985. ). [DOI] [PubMed] [Google Scholar]

[b17] 17).Farber , E. , Parker , S. and Gruenstein , M.The resistance of putative premalignant liver cell populations, hyperplastic nodules, to the acute cytotoxic effects of some carcinogens . Cancer Res. , 36 , 3879 – 3887 ( 1976. ). [PubMed] [Google Scholar]

[b18] 18).Tsuda , H. , Asamoto , M. , Ogiso , T. , Inoue , T. , Ito , N. and Nagao , M.Dose‐dependent induction of liver and thyroid neoplastic lesions by short‐term administration of 2‐amino‐3‐methylimidazo[4,5‐f]quinoline combined with partial hepatectomy followed by phenobarbital or low dose 3′‐methyl‐4‐dimethylaminoazobenzene promotion . Jpn. J. Cancer Res. , 79 , 691 – 697 ( 1988. ). [DOI] [PMC free article] [PubMed] [Google Scholar]

[b19] 19).Tsuda , H. , Moore , M. A. , Asamoto , M. , Inoue , T. , Fukushima , S. , Ito , N. , Satoh , K. , Amelizad , Z. and Oesch , F.Immunohistochemically demonstrated altered expression of cytochrome P‐450 molecular forms and epoxide hydrolase in N‐ethylhydroxyethylnitrosamine‐induced rat kidney and liver lesions . Carcinogenesis , 8 , 711 – 718 ( 1987. ). [DOI] [PubMed] [Google Scholar]

[b20] 20).Hacker , H. J. , Moore , M. A. , Mayer , D. and Bannasch , P.Correlative histochemistry of some enzymes of carbohydrate metabolism in preneoplastic and neoplastic lesions in rat liver . Carcinogenesis , 3 , 1265 – 1272 ( 1982. ). [DOI] [PubMed] [Google Scholar]

[b21] 21).Vesselinovitch , S. D. , Hacker , H. J. and Bannasch , P.Histochemical characterization of focal hepatic lesions induced by single diethylnitrosamine treatment in infant mice . Cancer Res. , 45 , 2274 – 2280 ( 1985. ). [PubMed] [Google Scholar]

[b22] 22).Bannasch , P. , Hacker , H. J. , Klimek , F. and Mayer , D.Hepatocellular glycogenesis and related pattern of enzymatic changes during hepatocarcinogenesis . Adv. Enzyme Regul. , 22 , 97 – 121 ( 1984. ). [DOI] [PubMed] [Google Scholar]

[b23] 23).Pitot , H. C. , Glauert , H. P. and Hanigan , M.The significance of selected biochemical markers in the characterization of putative initiated cell populations in rodent liver . Cancer Lett. , 29 , 1 – 14 ( 1985. ). [DOI] [PubMed] [Google Scholar]

[b24] 24).Tsuda , H. , Ozaki , K. , Uwagawa , S. , Yamaguchi , S. , Hakoi , K. , Aoki , T. , Kato , T. , Sato , K. and Ito , N.Effects of modifying agents on conformity of enzyme phenotype and proliferative potential in focal preneoplastic and neoplastic liver cell lesions in rats . Jpn. J. Cancer Res. , 83 , 1154 – 1165 ( 1992. ). [DOI] [PMC free article] [PubMed] [Google Scholar]

[b25] 25).Pugh , T. and Goldfarb , S.Quantitative histochemical and autoradiographic studies of hepatocarcinogenesis in rats fed 2‐acetylaminofluorene . Cancer Res. , 38 , 4450 – 4457 ( 1978. ). [PubMed] [Google Scholar]

[b26] 26).Xu , Y.‐H. , Maronpot , R. and Pitot , H. C.Quantitative stereologic study of the effects of varying the time between initiation and promotion on four histochemical markers in rat liver during hepatocarcinogenesis . Carcinogenesis , 11 , 267 – 282 ( 1990. ). [DOI] [PubMed] [Google Scholar]

[b27] 27).Rabes , H. M. , Buecher , T. , Hartmann , A. , Linke , J. and Duenwald , H.Clonal growth of carcinogen‐induced enzyme deficient preneoplastic populations in mouse liver . Cancer Res. , 42 , 3220 – 3227 ( 1982. ). [PubMed] [Google Scholar]

[b28] 28).Moore , M. A. , Hacker , H. J. , Kunz , H. W. and Bannasch , P.Enhancement of NNM‐induced carcinogenesis in the rat liver by phenobarbital: a combined morphological and enzyme histochemical approach . Carcinogenesis , 4 , 473 – 479 ( 1983. ). [DOI] [PubMed] [Google Scholar]

[b29] 29).Perera , M. I. R. and Shinozuka , H.Accelerated regression of carcinogen‐induced preneoplastic hepatocyte foci by peroxysome proliferators, Br931, 4‐chloro‐6‐(2,3‐xylidino)‐2‐pyrimidinylthio(N‐β‐hydroxyethyl)acetamide, and di(2‐ethylhexyl)phthalate . Carcinogenesis , 5 , 1193 – 1198 ( 1984. ). [DOI] [PubMed] [Google Scholar]

[b30] 30).Ito , N. , Moore , M. A. and Bannasch , P.Modification of the development of N‐nitrosomorpholine‐induced hepatic lesions by 2‐acetylaminofluorene, phenobarbital and 4,4′‐diaminodiphenylmethane: a sequential histological and histochemical analysis . Carcinogenesis , 5 , 335 – 342 ( 1984. ). [DOI] [PubMed] [Google Scholar]

[b31] 31).Kitagawa , T. , Watanabe , R. and Sugano , H.Induction of γ‐glutamyltranspeptidase activity by dietary phenobarbital in “spontaneous” hepatic tumors of C3H mice . Gann , 71 , 536 – 542 ( 1980. ). [PubMed] [Google Scholar]

[b32] 32).Moore , M. A. , Nakamura , T. and Ito , N.Immunohistochemically demonstrated glucose‐6‐phosphate dehydro‐genase, γ‐glutamyltranspeptidase, ornithine decarboxylase and glutathione S‐transferase enzymes: absence of direct correlation with cell proliferation in rat liver putative preneoplastic lesions . Carcinogenesis , 7 , 1419 – 1424 ( 1986. ). [DOI] [PubMed] [Google Scholar]

[b33] 33).Ogawa , K. , Solt , D. B. and Farber , E.Phenotypic diversity as an early property of putative preneoplastic hepatocyte populations in liver carcinogenesis . Cancer Res. , 40 , 725 – 733 ( 1980. ). [PubMed] [Google Scholar]

[b34] 34).Rao , S. M. , Usuda , N. , Subbarao , V. and Reddy , J. K.Absence of γ‐glutamyltranspeptidase activity in neoplastic lesions induced in the liver of male F344 rats by di(2‐ethylhexyl)phthalate, a peroxisome proliferator . Carcinogenesis , 8 , 1347 – 1350 ( 1987. ). [DOI] [PubMed] [Google Scholar]

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Number of Simultaneously Expressed Enzyme Alterations Correlates with Progression of N‐Ethyl‐N‐hydroxyethylnitrosamine‐induced Hepatocarcinogenesis in Rats

Shuji Yamaguchi

Kazuo Hakoi

Keisuke Ozaki

Toshio Kato

Danai Tiwawech

Shizuko Nagao

Hisahide Takahashi

Kazuyuki Matsumoto

Hiroyuki Tsuda

Abstract

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Number of Simultaneously Expressed Enzyme Alterations Correlates with Progression of N‐Ethyl‐N‐hydroxyethylnitrosamine‐induced Hepatocarcinogenesis in Rats

Shuji Yamaguchi

Kazuo Hakoi

Keisuke Ozaki

Toshio Kato

Danai Tiwawech

Shizuko Nagao

Hisahide Takahashi

Kazuyuki Matsumoto

Hiroyuki Tsuda

Abstract

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