The biology of progesterone receptor in the normal mammary gland and in breast cancer
about
Epithelial-Mesenchymal Transition (EMT) and Regulation of EMT Factors by Steroid Nuclear Receptors in Breast Cancer: A Review and in Silico InvestigationScreening for Chemical Contributions to Breast Cancer Risk: A Case Study for Chemical Safety EvaluationReproduction and breast cancer riskLoss of Igfbp7 causes precocious involution in lactating mouse mammary glandBreast-related effects of selective estrogen receptor modulators and tissue-selective estrogen complexesIntegrity of the LXXLL motif in Stat6 is required for the inhibition of breast cancer cell growth and enhancement of differentiation in the context of progesterone.Minireview: Progesterone Regulation of Proliferation in the Normal Human Breast and in Breast Cancer: A Tale of Two Scenarios?Deep sequencing reveals new aspects of progesterone receptor signaling in breast cancer cellsAberrant Proliferation of Differentiating Alveolar Cells Induces Hyperplasia in Resting Mammary Glands of SV40-TAg Transgenic MiceOral contraceptives cause evolutionarily novel increases in hormone exposure: A risk factor for breast cancer.Progesterone receptor activates Msx2 expression by downregulating TNAP/Akp2 and activating the Bmp pathway in EpH4 mouse mammary epithelial cells.Progesterone action in endometrial cancer, endometriosis, uterine fibroids, and breast cancer.Cyclin A2 and its associated kinase activity are required for optimal induction of progesterone receptor target genes in breast cancer cellsDevelopment of Foreign Mammary Epithelial Morphology in the Stroma of Immunodeficient Mice.Generation of breast cancer stem cells by steroid hormones in irradiated human mammary cell linesProgesterone downregulation of miR-141 contributes to expansion of stem-like breast cancer cells through maintenance of progesterone receptor and Stat5a.Influence of domain interactions on conformational mobility of the progesterone receptor detected by hydrogen/deuterium exchange mass spectrometry.Exposure to lard-based high-fat diet during fetal and lactation periods modifies breast cancer susceptibility in adulthood in rats.Progesterone receptor blockade in human breast cancer cells decreases cell cycle progression through G2/M by repressing G2/M genes.Activation of PI3K/Akt/mTOR signaling in the tumor stroma drives endocrine therapy-dependent breast tumor regression.Progesterone-inducible cytokeratin 5-positive cells in luminal breast cancer exhibit progenitor properties.The requirement for p42/p44 MAPK activity in progesterone receptor-mediated gene regulation is target gene-specificFluorescent ligand for human progesterone receptor imaging in live cells.Selective progesterone receptor modulators (SPRMs): progesterone receptor action, mode of action on the endometrium and treatment options in gynecological therapiesResearch resource: progesterone receptor targetome underlying mammary gland branching morphogenesisMolecular expression of vascular endothelial growth factor, prokineticin receptor-1 and other biomarkers in infiltrating canalicular carcinoma of the breastAntiestrogen Resistant Cell Lines Expressing Estrogen Receptor α Mutations Upregulate the Unfolded Protein Response and are Killed by BHPI.Original Research: Featured Article: Imatinib mesylate (Gleevec) inhibits Notch and c-Myc signaling: Five-day treatment permanently rescues mammary development.Lysine methylation of progesterone receptor at activation function 1 regulates both ligand-independent activity and ligand sensitivity of the receptor.The protective effect of longer duration of breastfeeding against pregnancy-associated triple negative breast cancerThe mTOR effectors 4EBP1 and S6K2 are frequently coexpressed, and associated with a poor prognosis and endocrine resistance in breast cancer: a retrospective study including patients from the randomised Stockholm tamoxifen trialsRNPC1 enhances progesterone receptor functions by regulating its mRNA stability in breast cancer.Levonorgestrel intrauterine system in adjuvant tamoxifen treatment: balance of breast risks and endometrial benefits--systematic review of literature.Electroanalytical and surface plasmon resonance sensors for detection of breast cancer and Alzheimer's disease biomarkers in cells and body fluids.Progesterone suppresses triple-negative breast cancer growth and metastasis to the brain via membrane progesterone receptor α.PHYSIOLOGY AND ENDOCRINOLOGY SYMPOSIUM: Effects of insulin on mammary gland differentiation during pregnancy and lactation.Minireview: The Link Between ERα Corepressors and Histone Deacetylases in Tamoxifen Resistance in Breast Cancer.Tumor Phenotype and Gene Expression During Early Mammary Tumor Development in Offspring Exposed to Alcohol In Utero.Potentially functional variants in lncRNAs are associated with breast cancer risk in a Chinese population.Prognostic values of Notch receptors in breast cancer.
P2860
Q26770051-60076EFE-9F88-4C99-BE4C-40394FF209C3Q26860299-D2F26078-D7DF-484A-BFB0-955CA9196C6DQ26864320-4330CDC5-4B4A-4AE8-A1EA-C73720E262EBQ27323922-F24D6010-3FB2-4A2B-8607-C2516964F1CCQ30409045-88705E00-821A-41B4-87D5-EF97EB41D5CBQ30578094-D16DD4B8-A7E5-4978-B10A-D88ADEE43BD9Q33631557-9C4A6482-9BAD-4BE8-9F1B-119D32C2B099Q33711732-3301DB3F-E84E-46FA-9B70-CDE0CB43A919Q33809166-F5D79FB5-77C8-4264-BCD1-FE747EF0A171Q33862767-82F7030E-8744-41B1-B9B3-07413DD89FE1Q34212149-C5A4A0D1-FB74-47A7-B805-58AE681B645FQ34321877-398B8203-2A55-40C1-8105-2F07A1F190BDQ34362853-A9323B47-3490-4FFC-B886-0CF21DE17627Q34795257-508DB7F7-8521-49A0-ABB9-8E42F647D0BAQ35023058-352F8DE5-A0EE-4702-98D7-DD5074109CD0Q35205643-937E286E-B064-41EF-BF48-81E94F5CFB50Q35372743-C4154ADA-A6AF-4FAD-8E1B-C5EE32DBA06CQ35849265-B9CF4099-89AD-4AEF-8F07-333AC26B9A7EQ36027031-8BE4DA8A-E577-4041-BE3B-58183659D0E4Q36355880-5F07A12C-695F-4269-8B18-3A498C10D21EQ36547484-925A5932-7786-4D66-B8A1-B859D9D6427BQ36807752-51201C9C-C733-4AF4-925A-A3F549B90665Q36857601-7EE62EFA-A428-42A8-B1E2-29006DCF8C7EQ37186618-1E9B2A9F-FF41-448C-85F2-E291B988A3DAQ37207611-617FCD6D-04BB-4F88-A1F2-6196F5E9B1A0Q37289550-64C03FF0-31CF-4842-8EF3-07278555C1F4Q37319203-F42EEFEA-113A-4C8C-B481-9DA40FCB389FQ37551137-5B6E6BC9-7D47-4A05-A0D5-24F95C9B28E6Q37608465-5B0A5CC4-1357-40BE-8595-7DE5FF71741EQ37619853-DE441F3C-5D6E-4889-A1DF-A08123C1DAEEQ37690538-CAFCF409-ABD3-4E3C-9FA1-D01FEA38DA1FQ37725437-35D55F5E-1608-4C58-9490-C5C237632443Q38141420-0276DE27-A557-4184-B574-28614E163F36Q38193833-CA3ED52C-BAB1-476A-84C5-854A957C4EFCQ38676376-AB09BF0D-EEDE-4C1B-98BE-FD8C622487DFQ38861211-0F3EDC35-61B7-46B1-BEAA-9E56054D0D37Q39434758-EDB42054-94DA-4CAE-B6AF-5587F24E39B1Q39636088-B46C8B85-5A09-4B08-9B18-02767DB8944BQ40248157-E93E61E5-8305-4175-AAB1-640AC23B4F52Q40590401-BD8D552E-1732-48C5-8C3C-E89FF4E04E6F
P2860
The biology of progesterone receptor in the normal mammary gland and in breast cancer
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
The biology of progesterone receptor in the normal mammary gland and in breast cancer
@ast
The biology of progesterone receptor in the normal mammary gland and in breast cancer
@en
type
label
The biology of progesterone receptor in the normal mammary gland and in breast cancer
@ast
The biology of progesterone receptor in the normal mammary gland and in breast cancer
@en
prefLabel
The biology of progesterone receptor in the normal mammary gland and in breast cancer
@ast
The biology of progesterone receptor in the normal mammary gland and in breast cancer
@en
P2860
P1476
The biology of progesterone receptor in the normal mammary gland and in breast cancer
@en
P2093
Alison E Obr
Dean P Edwards
P2860
P356
10.1016/J.MCE.2011.10.030
P577
2011-12-13T00:00:00Z