We are analyzing https://link.springer.com/article/10.1007/bf00047609.

Title:
Stem cells and the development of mammary cancers in experimental rats and in humans | Cancer and Metastasis Reviews
Description:
Evidence based on immunocytochemical staining and ultrastructure suggests that morphological gradations between epithelial and myoepithelial cells, and possibly between epithelial cells and alveolar-like cells occur in terminal ductal structures of rat and human mammary glands. The benign carcinogen-induced rat and benign human mammary tumors can contain epithelial, myoepithelial-like and alveolar-like cells, whereas the malignant counterparts mainly contain only epithelial-like cells. Clonal epithelial cell lines from normal rat mammary glands, benign tumors, and SV40-transformed human mammary glands can differentiate to either myoepithelial-like or alveolar-like cells. In those of the rat, the differentiation processes occur in steps: intermediate cells along the myoepithelial-like pathway resemble intermediates in terminal ductal structures in vivo, and can also generate certain well-differentiated mesenchymal elements of the original tumours. Differentiation of the benign rat cells to alveolar-like cells with mammatrophic hormones and retinoids in vitro leads to a reduction in their tumor-forming ability in vivo. Cell lines from malignant rat mammary tumors of increasing metastatic potential and from human ductal carcinomas largely fail to yield myoepithelial-like or alveolar-like cells and are relatively slow-growing. Growth of the rat mammary epithelial cells in culture is stimulated by a pituitary-derived mammatrophic growth factor (PMGF), prostaglandin E2, and α-transforming growth factor; the response of the malignant cell lines to PMGF is reduced. It is suggested that stem cells exist in the rat and human glands that are capable of differentiating to the other major cell types of the mammary parenchyma, and that during the carcinogenic process they generate genetically unstable cells which lose their ability to differentiate and attempt to maximise their intrinsically slow growth rate.
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Keywords {🔍}

google, scholar, mammary, cancer, cell, cells, rat, breast, rudland, human, epithelial, res, natl, growth, differentiation, gland, inst, stem, normal, tumor, warburton, monaghan, lines, ormerod, vitro, culture, line, tumors, myoepithelial, york, membrane, glands, smith, mouse, development, malignant, pathol, cultured, biol, metastasis, article, proc, hughes, gusterson, benign, myoepitheliallike, hormones, study, sci, antigen,

Topics {✒️}

1-methyl-1-nitrosourea-induced mammary carcinogenesis month download article/chapter wild-type ret receptor microtubule-disrupting drugs increase carcinogen-induced hyperplastic nodules stem cell line carcinogen-induced tumor epithelium mcf-12a cell phenotype benign carcinogen-induced rat cultured stem cells dmba-induced breast tumors α-transforming growth factor mammary epithelia-prostaglandin e2 stem cell characteristics differentiated mesenchymal elements stem cells exist benign stem cells march 1987 volume 6 mesenchymal tissues participating rat mammary tumor full article pdf rat mammary epithelial cultured mammary epithelial clifton kh dimethyl sulfoxide-induced differentiation mesenchymal induction demonstrated malignant cell lines human tumor cells established cell line pathway resemble intermediates cultured mammary cells cell lines derived sv40 gene expression check access instant access tumor cell populations rat mammary glands aneuploid mammary epithelial rat mammary gland malignant mammary tumors epithelial cell types syngeneic cell lines stromal cell lines privacy choices/manage cookies rat mammary preadipocytes mammary cancer induced epithelial-specific cytodifferentiation mammary carcinomas induced human mammary glands mammary gland carcinogen

Questions {❓}

Ferguson DJP: Ultrastructural characterisation of the proliferative (stem?

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         description:Evidence based on immunocytochemical staining and ultrastructure suggests that morphological gradations between epithelial and myoepithelial cells, and possibly between epithelial cells and alveolar-like cells occur in terminal ductal structures of rat and human mammary glands. The benign carcinogen-induced rat and benign human mammary tumors can contain epithelial, myoepithelial-like and alveolar-like cells, whereas the malignant counterparts mainly contain only epithelial-like cells. Clonal epithelial cell lines from normal rat mammary glands, benign tumors, and SV40-transformed human mammary glands can differentiate to either myoepithelial-like or alveolar-like cells. In those of the rat, the differentiation processes occur in steps: intermediate cells along the myoepithelial-like pathway resemble intermediates in terminal ductal structures in vivo, and can also generate certain well-differentiated mesenchymal elements of the original tumours. Differentiation of the benign rat cells to alveolar-like cells with mammatrophic hormones and retinoids in vitro leads to a reduction in their tumor-forming ability in vivo. Cell lines from malignant rat mammary tumors of increasing metastatic potential and from human ductal carcinomas largely fail to yield myoepithelial-like or alveolar-like cells and are relatively slow-growing. Growth of the rat mammary epithelial cells in culture is stimulated by a pituitary-derived mammatrophic growth factor (PMGF), prostaglandin E2, and α-transforming growth factor; the response of the malignant cell lines to PMGF is reduced. It is suggested that stem cells exist in the rat and human glands that are capable of differentiating to the other major cell types of the mammary parenchyma, and that during the carcinogenic process they generate genetically unstable cells which lose their ability to differentiate and attempt to maximise their intrinsically slow growth rate.
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      headline:Stem cells and the development of mammary cancers in experimental rats and in humans
      description:Evidence based on immunocytochemical staining and ultrastructure suggests that morphological gradations between epithelial and myoepithelial cells, and possibly between epithelial cells and alveolar-like cells occur in terminal ductal structures of rat and human mammary glands. The benign carcinogen-induced rat and benign human mammary tumors can contain epithelial, myoepithelial-like and alveolar-like cells, whereas the malignant counterparts mainly contain only epithelial-like cells. Clonal epithelial cell lines from normal rat mammary glands, benign tumors, and SV40-transformed human mammary glands can differentiate to either myoepithelial-like or alveolar-like cells. In those of the rat, the differentiation processes occur in steps: intermediate cells along the myoepithelial-like pathway resemble intermediates in terminal ductal structures in vivo, and can also generate certain well-differentiated mesenchymal elements of the original tumours. Differentiation of the benign rat cells to alveolar-like cells with mammatrophic hormones and retinoids in vitro leads to a reduction in their tumor-forming ability in vivo. Cell lines from malignant rat mammary tumors of increasing metastatic potential and from human ductal carcinomas largely fail to yield myoepithelial-like or alveolar-like cells and are relatively slow-growing. Growth of the rat mammary epithelial cells in culture is stimulated by a pituitary-derived mammatrophic growth factor (PMGF), prostaglandin E2, and α-transforming growth factor; the response of the malignant cell lines to PMGF is reduced. It is suggested that stem cells exist in the rat and human glands that are capable of differentiating to the other major cell types of the mammary parenchyma, and that during the carcinogenic process they generate genetically unstable cells which lose their ability to differentiate and attempt to maximise their intrinsically slow growth rate.
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