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  • Title: Prolactin gene-disruption arrests mammary gland development and retards T-antigen-induced tumor growth.
    Author: Vomachka AJ, Pratt SL, Lockefeer JA, Horseman ND.
    Journal: Oncogene; 2000 Feb 21; 19(8):1077-84. PubMed ID: 10713693.
    Abstract:
    Prolactin (PRL), interacting with other hormones from the pituitary, gonad, and placenta, activates specific signals that drive the appropriately timed morphological and functional development of the mammary gland. A mouse model of isolated PRL deficiency (PRL-/-) was created by gene disruption in an effort to further understand the molecular basis of mammary gland development and breast cancer. Whereas primary ductal growth was normal in PRL-/- mice, ductal arborization was minimal (branches/mm2=1.5+/-0.5), and lobular budding was absent. Replacement therapy with PRL injections stimulated a modest degree of lobular budding and ductal arborization (3.75+/-0.9). Pituitary transplants to the kidney capsule of PRL-/- mice restored lobular budding and ductal arborization, to the full extent of that seen in control animals (20. 3+/-5.5). Pregnancy, established by mating progesterone-treated PRL-/- females with PRL-/- males, led to complete morphological development of the mammary gland, appropriate to the gestational stage. PRL treatment stimulated tyrosine phosphorylation and DNA binding activity of Stat5a, but not Stat1 in PRL-/- or PRL+/- females, and Stat5a, but not Stat1, was elevated by estradiol within 24 h. PRL-deficient mice were crossed with mice expressing a dominant oncogene (polyoma middle-T antigen driven by the MMTV promoter, PyVT mice). Palpable (1 mm3) tumors were detected an average of 9 days earlier in hormonally normal females (PRL+/-:PyVT) compared with littermates that were PRL-deficient (PRL-/-:PyVT). The growth rate of PyVT-induced tumors was 30% faster in PRL+/-, than in PRL-/- females.
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