Gene network signaling in hormone responsiveness modifies apoptosis and autophagy in breast cancer cells
about
Application of metabolomics in drug resistant breast cancer researchCannibalism, cell survival, and endocrine resistance in breast cancerAutophagy and endocrine resistance in breast cancerTMEM33: a new stress-inducible endoplasmic reticulum transmembrane protein and modulator of the unfolded protein response signalingInfluence of berry polyphenols on receptor signaling and cell-death pathways: implications for breast cancer preventionBCL2 and CASP8 regulation by NF-kappaB differentially affect mitochondrial function and cell fate in antiestrogen-sensitive and -resistant breast cancer cells.Co-inhibition of BCL-W and BCL2 restores antiestrogen sensitivity through BECN1 and promotes an autophagy-associated necrosis.Functional interactions between 17 β -estradiol and progesterone regulate autophagy during acini formation by bovine mammary epithelial cells in 3D culturesHydroxychloroquine inhibits autophagy to potentiate antiestrogen responsiveness in ER+ breast cancer.Motif-guided sparse decomposition of gene expression data for regulatory module identification.Knockdown of estrogen receptor-α induces autophagy and inhibits antiestrogen-mediated unfolded protein response activation, promoting ROS-induced breast cancer cell death.Dynamic modelling of oestrogen signalling and cell fate in breast cancer cellsMYC regulates the unfolded protein response and glucose and glutamine uptake in endocrine resistant breast cancer.Protein tyrosine phosphatase 4A2 expression predicts overall and disease-free survival of human breast cancer and is associated with estrogen and progestin receptor status.Bradykinin inhibits oxidative stress-induced cardiomyocytes senescence via regulating redox state.Radiation persistently promoted oxidative stress, activated mTOR via PI3K/Akt, and downregulated autophagy pathway in mouse intestineAutophagy as a therapeutic target in cancer.Bortezomib enhances the efficacy of fulvestrant by amplifying the aggregation of the estrogen receptor, which leads to a proapoptotic unfolded protein response.ERRγ target genes are poor prognostic factors in Tamoxifen-treated breast cancer.Autophagy: friend or foe in breast cancer development, progression, and treatmentInhibition of Aerobic Glycolysis Represses Akt/mTOR/HIF-1α Axis and Restores Tamoxifen Sensitivity in Antiestrogen-Resistant Breast Cancer CellsUnfolding the Role of Stress Response Signaling in Endocrine Resistant Breast Cancers.Endoplasmic reticulum stress, the unfolded protein response, autophagy, and the integrated regulation of breast cancer cell fate.Everolimus downregulates estrogen receptor and induces autophagy in aromatase inhibitor-resistant breast cancer cells.Insulin-like growth factor 1 attenuates antiestrogen- and antiprogestin-induced apoptosis in ER+ breast cancer cells by MEK1 regulation of the BH3-only pro-apoptotic protein BimEndocrine resistance in breast cancer--An overview and update.A novel chemical, STF-083010, reverses tamoxifen-related drug resistance in breast cancer by inhibiting IRE1/XBP1.Glucose-regulated protein 78 controls cross-talk between apoptosis and autophagy to determine antiestrogen responsivenessAntiestrogen Resistance and the Application of Systems BiologyGX15-070 (obatoclax) induces apoptosis and inhibits cathepsin D- and L-mediated autophagosomal lysis in antiestrogen-resistant breast cancer cells.Endoplasmic reticulum stress, the unfolded protein response, and gene network modeling in antiestrogen resistant breast cancerOn the role of autophagy in human diseases: a gender perspective.Modelling the effect of GRP78 on anti-oestrogen sensitivity and resistance in breast cancer.Mitochondria directly donate their membrane to form autophagosomes during a novel mechanism of parkin-associated mitophagy.Targeting GRP78 and antiestrogen resistance in breast cancer.Mechanisms of autophagy and apoptosis: Recent developments in breast cancer cells.Whole transcriptome analysis of the ERα synthetic fragment P295-T311 (ERα17p) identifies specific ERα-isoform (ERα, ERα36)-dependent and -independent actions in breast cancer cells.MYC-Driven Pathways in Breast Cancer Subtypes.Triptolide-induced apoptosis by inactivating nuclear factor-kappa B apoptotic pathway in multiple myeloma in vitro.BRCA1-mimetic compound NSC35446.HCl inhibits IKKB expression by reducing estrogen receptor-α occupancy in the IKKB promoter and inhibits NF-κB activity in antiestrogen-resistant human breast cancer cells.
P2860
Q26866291-230E6154-E8E4-4B3F-990D-115209F0010BQ26995731-B9C10C6C-ADA4-400C-8381-26D2A0B9A362Q27023375-298CE81E-D4CB-4D12-8088-A2DA61D9B64AQ28115071-108EAA13-44BF-4E57-9CA9-D2DB6375ECAEQ28258801-75C3D931-6F39-4BEF-AC58-96ACAE88DF96Q30432099-AE88166D-4C02-4A19-8163-78C07697FCC6Q33523022-814B0CEF-7BE9-40FA-A30D-8F936122C72BQ33660438-C66F08DE-64FF-4096-A48F-BD1C817B9492Q33813981-AD0A3B41-D7B2-4D4A-B03D-21DA8E3F9028Q33852615-2E4E77CD-C7C9-42A7-8D3C-B8567A092B9EQ34072615-F4A0D544-E526-47B5-80DF-65D5CCFB4BFEQ34192940-4895036F-8ED8-4776-8B6D-ADB2F67ED124Q34439115-64BD8DA6-DD36-4C37-8F20-FBE7C5D190CBQ34660130-501E19D3-0695-4459-AAE6-D6E5D0EB84C3Q35034973-F6493553-B60B-43AB-A136-27C96604870AQ35186424-B7842C40-EC8D-414A-81C2-7704148F93C3Q35591562-7B76CAB5-4087-44B5-8794-85CB0CCE46C4Q35596882-788E0D50-870D-440A-8D39-32DEC603118EQ35620279-4A6C2FF5-79CD-4489-AB8C-DFB790973165Q35684456-24407CB9-B4DE-473C-8F0E-9C3FE35ED1CBQ35686894-F65FBCCA-D951-4BB6-A820-947ADEA533A8Q35763853-F3CEA32A-19EA-4E36-B2EA-55EBD05A729CQ35855031-EA05A62D-A1A9-4217-BC5F-7AE4BC0F05DBQ36078905-8251021B-7A4B-4EB6-8219-FFEBA479BA57Q36245560-4E5E731A-98F5-4FC3-8903-7FBBA7BE0880Q36386322-BFAC3DFA-8D17-4F10-964E-B6ABF36ABFBDQ36562140-F51A08E6-9FE5-4084-92EC-716EC0EA3708Q36622926-3C5D1B7E-83B7-4411-8C55-F80813E1E483Q36713946-3C9C1C68-5157-412C-95C2-B6ED856C0316Q36759341-1AB76CC4-9DCC-43C9-B1E2-53A02484C342Q37072811-93F61476-4E92-4DD4-94A9-63351B29CEF4Q37295450-254BD54A-1E25-4982-BA6B-DCBC2BCC7753Q37561430-9FA5C119-EDF6-454A-AD66-A28D1ADF0BC7Q37688798-ECB1B965-11BF-46C4-A378-274666681F69Q38111800-74793FD0-89DC-45E1-B398-AC200364700FQ38833604-73F39A6F-3292-4E25-85C2-7F2FBA9C6E61Q39183133-8AB4B26D-FE97-4E97-8662-EB3EACB884D7Q39428256-DB205A5C-0DC7-4BCB-8FDE-D0BFF0A89C6BQ39493610-BF19DA9C-3ADF-4313-8C9E-2BC192D72163Q42777355-DD70F922-C454-4F75-8460-2F6E65B26F98
P2860
Gene network signaling in hormone responsiveness modifies apoptosis and autophagy in breast cancer cells
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Gene network signaling in horm ...... tophagy in breast cancer cells
@en
Gene network signaling in horm ...... ophagy in breast cancer cells.
@nl
type
label
Gene network signaling in horm ...... tophagy in breast cancer cells
@en
Gene network signaling in horm ...... ophagy in breast cancer cells.
@nl
prefLabel
Gene network signaling in horm ...... tophagy in breast cancer cells
@en
Gene network signaling in horm ...... ophagy in breast cancer cells.
@nl
P2093
P2860
P1476
Gene network signaling in horm ...... tophagy in breast cancer cells
@en
P2093
Alan Zwart
Anatasha Crawford
Ayesha N Shajahan
Jianhua Xuan
Minetta C Liu
Ruchi Nehra
Younsook Cho
P2860
P356
10.1016/J.JSBMB.2008.12.023
P577
2009-03-01T00:00:00Z