Cell proliferation and tumor formation induced by eserine, an acetylcholinesterase inhibitor, in rat mammary gland.

Environmental chemicals may be involved in the etiology of breast cancer. There is substantial evidence that breast cancer risk is associated with prolonged exposure to female hormones. Among these hormonal influences a leading role is attributed to the ovarian hormone estradiol, since breast cancer does not develop in the absence of ovaries. The rat mammary gland has special characteristics that make it an ideal organ for studying development, cell proliferation and transformation. In vivo and in vitro model systems for cell proliferation and mammary carcinogenesis have allowed morphological and biochemical analysis under different experimental conditions. The aim of this study was to examine the effect of eserine, an acetylcholinesterase inhibitor, as are the organophosphorous compounds malathion and parathion, and 17beta estradiol on cell proliferation and tumor formation that takes place in the rat mammary gland after in vivo and in vitro treatment. These studies showed that eserine and 17beta estradiol were capable of inducing carcinogenesis in the epithelium of rat mammary glands. It was found that there was a significant increase in the number of cells per duct of the 44-day-old rat mammary gland after the 10-day eserine treatment, compared to the control. A higher increase was observed in the animals treated for 10 days with eserine followed by 30-daily injections of estrogen in comparison to control animals. In 12 animals, two mammary tumors were directly developed in response to 17beta estradiol injected at 39 days of age with a latency period of 180 and 245 days, respectively. Such tumors were metastatic to the lung. These results suggest that terminal end buds are major targets related to rat mammary carcinogenesis and 17beta estradiol can be an initiator and promoter in this process.

[1]  M. Stampfer,et al.  Growth of normal human mammary cells in culture , 1980, In Vitro.

[2]  G. Calaf,et al.  Influence of hormones on DNA synthesis of breast tumors in culture , 2005, Breast Cancer Research and Treatment.

[3]  Marcel Garcia,et al.  Estrogens and their receptors in breast cancer progression: a dual role in cancer proliferation and invasion. , 2004, Critical reviews in oncology/hematology.

[4]  Meenakshi Singh,et al.  Rat Models of Premalignant Breast Disease , 2000, Journal of Mammary Gland Biology and Neoplasia.

[5]  P. Gimotty,et al.  Mechanism for maintenance of high breast tumor estradiol concentrations in the absence of ovarian function: Role of very high affinity tissue uptake , 1997, Breast Cancer Research and Treatment.

[6]  J. Russo,et al.  17β-Estradiol-Mediated Vessel Assembly and Stabilization in Tumor Angiogenesis Requires TGFβ and EGFR Crosstalk , 2004, Angiogenesis.

[7]  P. Peeters,et al.  Age at menarche and breast cancer risk in nulliparous women , 2004, Breast Cancer Research and Treatment.

[8]  E. Cavalieri,et al.  Genotoxic metabolites of estradiol in breast: potential mechanism of estradiol induced carcinogenesis , 2003, The Journal of Steroid Biochemistry and Molecular Biology.

[9]  M. Valenzuela,et al.  A rat mammary tumor model induced by the organophosphorous pesticides parathion and malathion, possibly through acetylcholinesterase inhibition. , 2001, Environmental health perspectives.

[10]  T. Hei,et al.  Establishment of a radiation- and estrogen-induced breast cancer model. , 2000, Carcinogenesis.

[11]  M. Meguid,et al.  Estrogen receptor expression in benign breast epithelium and breast cancer risk. , 1998, Journal of the National Cancer Institute.

[12]  F P Perera,et al.  Environment and cancer: who are susceptible? , 1997, Science.

[13]  J. Shull,et al.  Ovary-intact, but not ovariectomized female ACI rats treated with 17beta-estradiol rapidly develop mammary carcinoma. , 1997, Carcinogenesis.

[14]  Z. Herceg,et al.  Radiation-induced transformation of SV40-immortalized human thyroid epithelial cells by single and fractionated exposure to gamma-irradiation in vitro. , 1994, International journal of radiation biology.

[15]  J. Willey,et al.  Malignant transformatin of human bronchial epithelial cells by radon-simulated α-particles , 1994 .

[16]  J. Willey,et al.  Malignant transformation of human bronchial epithelial cells by radon-simulated alpha-particles. , 1994, Carcinogenesis.

[17]  J. Russo,et al.  Transformation of human breast epithelial cells by chemical carcinogens. , 1993, Carcinogenesis.

[18]  J. Rhim,et al.  Neoplastic Transformation in Human Cell Culture: Mechanisms of Carcinogenesis , 1991 .

[19]  R. Maronpot Modification of Tumor Development in Rodents , 1991 .

[20]  J. Russo,et al.  Mammary tumorigenesis. , 1991, Progress in experimental tumor research.

[21]  J. Rhim,et al.  Neoplastic transformation of immortalized human epidermal keratinocytes by ionizing radiation. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[22]  S. Miyamoto,et al.  Neoplastic transformation of mouse mammary epithelial cells by in vitro exposure to N-methyl-N-nitrosourea. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[23]  I. Silman,et al.  Modes of attachment of acetylcholinesterase to the surface membrane. , 1987, European journal of biochemistry.

[24]  J. Russo,et al.  Influence of age and gland topography on cell kinetics of normal human breast tissue. , 1987, Journal of the National Cancer Institute.

[25]  R. Dickson,et al.  Estrogenic regulation of growth and polypeptide growth factor secretion in human breast carcinoma. , 1987, Endocrine reviews.

[26]  R. Guzman,et al.  In vitro transformation of mouse mammary epithelial cells grown serum-free inside collagen gels. , 1987, Cancer research.

[27]  M. Stampfer,et al.  Induction of transformation and continuous cell lines from normal human mammary epithelial cells after exposure to benzo[a]pyrene. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[28]  B. Macmahon,et al.  Age at menarche, urine estrogens and breast cancer risk , 1982, International journal of cancer.

[29]  D. Mccormick,et al.  Lifetime dose-response relationships for mammary tumor induction by a single administration of N-methyl-N-nitrosourea. , 1981, Cancer research.

[30]  J. Russo,et al.  Influence of differentiation and cell kinetics on the susceptibility of the rat mammary gland to carcinogenesis. , 1980, Cancer research.

[31]  M. Banerjee,et al.  Neoplastic transformation of epithelial cells in whole mammary gland in vitro. , 1979, Proceedings of the National Academy of Sciences of the United States of America.

[32]  A. Rowan Guide for the Care and Use of Laboratory Animals , 1979 .

[33]  J. Russo,et al.  DNA labeling index and structure of the rat mammary gland as determinants of its susceptibility to carcinogenesis. , 1978, Journal of the National Cancer Institute.

[34]  J. Barrett,et al.  Relationship between somatic mutation and neoplastic transformation. , 1978, Proceedings of the National Academy of Sciences of the United States of America.

[35]  T. Kakunaga Neoplastic transformation of human diploid fibroblast cells by chemical carcinogens. , 1978, Proceedings of the National Academy of Sciences of the United States of America.

[36]  P. Gullino,et al.  N-nitrosomethylurea as mammary gland carcinogen in rats. , 1975, Journal of the National Cancer Institute.

[37]  B. Macmahon,et al.  Etiology of human breast cancer: a review. , 1973, Journal of the National Cancer Institute.

[38]  C K Wanebo,et al.  Breast cancer after exposure to the atomic bombings of Hiroshima and Nagasaki. , 1968, The New England journal of medicine.

[39]  A. Karczmar,et al.  Anticholinesterase Agents. , 1963, Science.

[40]  C. Huggins,et al.  Induction and extinction of mammary cancer. A striking effect of hydrocarbons permits analysis of mechanisms of causes and cure of breast cancer. , 1962, Science.

[41]  A. Lathrop,et al.  Further investigations on the origin of tumors in mice. III. On the part played by internal secretion in the spontaneous development of tumors. , 1916, The Journal of cancer research.