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Browsing by Author "Tucker, Hannah L."

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    The Effects of Tamoxifen on Mammary Development in Prepubertal Heifers
    Tucker, Hannah L. (Virginia Tech, 2013-08-28)
    Our purpose was to determine the effects on mammary gland development in prepubertal heifers given the anti-estrogen tamoxifen. Sixteen Holstein calves were randomly assigned to one of two treatment groups: tamoxifen-injected (TAM) or control (CON). Calves were subcutaneously injected daily from 28 to 120 days of age with 0.3 mg/kg tamoxifen or carrier. At 120 days calves were euthanized and udders removed. Weight of trimmed parenchymal tissue (left rear quarter) was dramatically lower in TAM calves than in CON calves (p < 0.0003; 16.1 vs. 34.8 g). Parenchymal samples from three regions of the left rear quarter (lower, middle and outer regions) were processed for immunohistochemical staining for Estrogen Receptor α and Progesterone Receptor, myoepithelial cells, and label retaining cells. Overall, the proportion of neither ER nor PR labeled cells was impacted by TAM treatment. However, imaging analysis indicated a markedly higher intensity of ER expression in CON calves. TAM caused an increase in myoepithelial cell differentiation similar to what is seen in ovariectomy. We were able to effectively use a new technique of multispectral imaging to identify label retaining cells, which led to the discovery of an increase in the percentage of label retaining cells in TAM compared to CON. While treatment with the anti-estrogen tamoxifen reduced mammary parenchymal mass similarly to OVX, the mechanism(s) involved appear to differ. This suggests that the impacts of ovariectomy are only partially explained by the absence of estrogen.
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    Extracellular Proteoglycan Decorin in Bovine Mammary Physiology
    Tucker, Hannah L. (Virginia Tech, 2017-09-27)
    The majority of bovine mammary gland research focuses on the main cell types - mammary epithelial cells and fibroblasts. However, the extracellular matrix (ECM) within the mammary gland is also of importance for its ability to regulate cell shape, proliferation, polarity, differentiation, gene transcription, protein synthesis, and secretion. Decorin is an ECM proteoglycan known to impact mammary cell proliferation in humans and rodents. Prior to this work, very little was known about decorin in bovine mammary biology. A series of bovine mammary cell culture experiments was conducted. The first experiment demonstrated existence of decorin pathway molecules in immortalized bovine mammary cells, but stopped short of demonstrating mature decorin proteoglycan deposition into the extracellular space. During the investigation it was noted that when cultured under basal conditions, intracellular decorin core protein (DCP) localization patterns appeared to be coordinated with specific phases of the cell cycle. Therefore, the objective of the second set of experiments was to characterize DCP localization patterns in bovine mammary epithelial cells (BME) at known phases of the cell cycle. The work was carried out in two sequential experiments. The hypothesis of the first experiment was that DCP accumulates in BME during S-phase of the cell cycle; the research rejected this hypothesis. The hypothesis of the second experiment, formulated after completion of the first experiment for this objective, was that DCP accumulates in BME during metaphase of the cell cycle. However, the experiment was unable to confirm of reject this hypothesis. Major findings were that both BME and mammary fibroblasts produce DCP and known decorin pathway molecules. BME produce intracellular DCP, but it is not accumulated during the S-phase of the cell cycle. However, it is still unknown if DCP is accumulated in BME during metaphase. Future research should focus on further characterization of decorin and its associated pathway molecules to learn if decorin induces proliferation or apoptosis of bovine mammary epithelial cells. This is important because number and activity of mammary epithelial cells ultimately determine milk yield in dairy cows. Fundamental knowledge gained in this research area may one day be applied at the animal-level and lead to gains in milk production efficiency by altering the cellular composition of mammary glands.