Stem cells in mammary development and carcinogenesis: implications for prevention and treatment.
about
Mammary gland-derived nestin-positive cell populations can be isolated from human male and female donors.IL-6 triggers malignant features in mammospheres from human ductal breast carcinoma and normal mammary glandRole of nuclear receptors in breast cancer stem cellsDo relevant markers of cancer stem cells CD133 and Nestin indicate a poor prognosis in glioma patients? A systematic review and meta-analysisNeuroblastoma cell lines contain pluripotent tumor initiating cells that are susceptible to a targeted oncolytic virusSpheres derived from lung adenocarcinoma pleural effusions: molecular characterization and tumor engraftmentInterlobular and intralobular mammary stroma: genotype may not reflect phenotypeCadmium malignantly transforms normal human breast epithelial cells into a basal-like phenotypeMolecular imaging of metastatic potential.CD44v6 regulates growth of brain tumor stem cells partially through the AKT-mediated pathway.Telomerase-immortalized human mammary stem/progenitor cells with ability to self-renew and differentiateChromatin remodeling in mammary gland differentiation and breast tumorigenesis.Analysis of marker-defined HNSCC subpopulations reveals a dynamic regulation of tumor initiating properties.Selective small molecule Stat3 inhibitor reduces breast cancer tumor-initiating cells and improves recurrence free survival in a human-xenograft model.Simvastatin prevents skeletal metastasis of breast cancer by an antagonistic interplay between p53 and CD44.Distinct populations of tumor-initiating cells derived from a tumor generated by rat mammary cancer stem cells.Endothelial cell differentiation of human breast tumour stem/progenitor cells.Identification of a subset of breast carcinomas characterized by expression of cytokeratin 15: relationship between CK15+ progenitor/amplified cells and pre-malignant lesions and invasive disease.The human DEK oncogene stimulates β-catenin signaling, invasion and mammosphere formation in breast cancer.PIAS1 regulates breast tumorigenesis through selective epigenetic gene silencingDesign and in vitro evaluation of layer by layer siRNA nanovectors targeting breast tumor initiating cellsInterleukin-6 and pro inflammatory status in the breast tumor microenvironmentDifferential gene expression profiling of functionally and developmentally distinct human prostate epithelial populationsA novel Monoclonal Antibody against Notch1 Targets Leukemia-associated Mutant Notch1 and Depletes Therapy Resistant Cancer Stem Cells in Solid Tumors.Metformin: multi-faceted protection against cancer.Exposure of tumor-associated macrophages to apoptotic MCF-7 cells promotes breast cancer growth and metastasis.Characterization and Clinical Implication of Th1/Th2/Th17 Cytokines Produced from Three-Dimensionally Cultured Tumor Tissues Resected from Breast Cancer Patients.Staurosporine Induced Apoptosis May Activate Cancer Stem-Like Cells (CD44(+)/CD24(-)) in MCF-7 by Upregulating Mucin1 and EpCAM.Demystifying basal-like breast carcinomasOverexpression of Id1 in transgenic mice promotes mammary basal stem cell activity and breast tumorigenesisLeptin and Adiponectin Modulate the Self-renewal of Normal Human Breast Epithelial Stem Cells.Cancer stem cell-driven efficacy of trastuzumab (Herceptin): towards a reclassification of clinically HER2-positive breast carcinomas.Stacking the DEK: from chromatin topology to cancer stem cells.Establishment of a human colorectal cancer cell line P6C with stem cell properties and resistance to chemotherapeutic drugs.Clinical trial design for testing the stem cell model for the prevention and treatment of cancer.Microfluidic system for formation of PC-3 prostate cancer co-culture spheroidsImplications of the cancer stem-cell hypothesis for breast cancer prevention and therapy.Targeted overexpression of EZH2 in the mammary gland disrupts ductal morphogenesis and causes epithelial hyperplasia.Epithelial transformation by KLF4 requires Notch1 but not canonical Notch1 signalingForkhead transcription factor foxq1 promotes epithelial-mesenchymal transition and breast cancer metastasis
P2860
Q21999274-9861C1A7-A85D-44BA-9B58-4778E7CEBF0CQ24669531-3A516535-6C02-41A6-AF64-DEC5724349A8Q26750359-CA32B0ED-9A06-4B95-B929-FC6E336BB566Q26865791-7568584C-0BFE-4B8D-8D27-37A6AA3A9287Q28474594-DDA6BB62-0894-4BA4-A052-5A47F50DB63DQ28742459-CC25CB2E-0A94-4A33-8F76-F62A7C583328Q33361045-91CA19DD-3D1D-4BD7-B02E-20AE20FAB983Q33562964-FBA4F9CB-B3E8-4D2B-A6B2-F8EC5274B73DQ33917943-2D3960D0-CDCD-4D41-A44F-9A2609122825Q34018947-2237D435-3C74-4C6F-BB5D-8D21BB5B17B4Q34069482-A7934F0D-E74A-4789-849E-9AD572F6FADCQ34080232-EB8818E9-01E6-4BA1-AF9F-B242FC528781Q34140296-B73408E9-AE2C-4EA7-992F-F8FFA54D3786Q34373888-1E2743A5-8366-48AD-8E41-E61A1E5D5151Q34719626-C09C6AB3-E282-4A34-AA0A-5302968339C4Q34867642-338F7DAB-B522-45C8-AAB3-C4BA9B6C7B44Q34919522-F90548FB-5EF4-4009-B490-2D9232A5854EQ34977042-E73EFFC3-8E1D-409C-94E5-5C3114FF060FQ35050767-F256DD4A-5202-4742-94C5-FBCBB7513F6BQ35107382-EE26333B-555B-4F60-9028-B067D4F2E87AQ35138242-517647A7-F7FA-4F13-AD72-D155B3E67F10Q35427020-CB3561EC-B211-4563-8EFD-0A01E530A56CQ35538243-98B948CF-19EC-4E46-9BA2-A1DC21981D62Q35687072-0745EB0A-C6B0-49CD-8D1C-B6F63C265CDCQ35764409-827DFB6B-B95F-4A06-B641-114790B07A16Q35813735-26448D63-2633-484F-81F3-C9F71596A3A8Q36038030-69BF3B19-3C94-490E-BE9E-978A85E0CB9FQ36048537-8F10A722-6693-426C-86C7-848BC1F34B54Q36172507-20982852-6483-4E5C-9C8D-A8ED8A6F7C71Q36232031-19B26A00-7F58-4E33-8F0F-206ADEC3450AQ36349530-B458548E-CFB9-48F5-B0D0-D49057E5418DQ36544839-4D2F041C-1C12-4EF6-AB83-1821081E16ACQ36604651-9DEAC726-2C9B-4B31-B498-BD060C3EA624Q36907415-764421C6-51DE-4B13-BC5C-E7614B3AAED7Q37132809-050D19B7-E045-43F6-B8E6-013FE5632DD9Q37173989-FC382F07-5019-49DB-91EB-CD6E86F503BDQ37186412-1210A964-8EC6-4BFE-A273-5E56D4B03291Q37316555-60CDCEC5-552B-4347-B33F-003155ED9E6EQ37480416-28A37005-61EA-48B5-B9CE-788A8C362E2CQ37529876-AF5C72EE-59C4-4487-A6F5-FE7DB691B3C5
P2860
Stem cells in mammary development and carcinogenesis: implications for prevention and treatment.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Stem cells in mammary developm ...... for prevention and treatment.
@ast
Stem cells in mammary developm ...... for prevention and treatment.
@en
type
label
Stem cells in mammary developm ...... for prevention and treatment.
@ast
Stem cells in mammary developm ...... for prevention and treatment.
@en
prefLabel
Stem cells in mammary developm ...... for prevention and treatment.
@ast
Stem cells in mammary developm ...... for prevention and treatment.
@en
P2093
P356
P1476
Stem cells in mammary developm ...... for prevention and treatment.
@en
P2093
Gabriela Dontu
Max S Wicha
Suling Liu
P2888
P304
P356
10.1385/SCR:1:3:207
P577
2005-01-01T00:00:00Z
P6179
1032132014