scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1049631772 |
P356 | DOI | 10.1038/ONC.2015.1 |
P932 | PMC publication ID | 7331470 |
P698 | PubMed publication ID | 25659585 |
P5875 | ResearchGate publication ID | 272100464 |
P2093 | author name string | M Y Sherman | |
J Gong | |||
T Eguchi | |||
B Song | |||
S K Calderwood | |||
A Murshid | |||
D Weng | |||
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Met, metastasis, motility and more | Q28235183 | ||
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Beyond tumorigenesis: cancer stem cells in metastasis | Q28279788 | ||
Essential role for the c-met receptor in the migration of myogenic precursor cells into the limb bud | Q28506228 | ||
Genomic instability and enhanced radiosensitivity in Hsp70.1- and Hsp70.3-deficient mice | Q28506379 | ||
The Hsp70 and Hsp60 chaperone machines | Q29547601 | ||
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CoREST represses the heat shock response mediated by HSF1. | Q39957026 | ||
Overexpression of the heat-shock protein 70 is associated to imatinib resistance in chronic myeloid leukemia | Q40207892 | ||
Using a xenograft model of human breast cancer metastasis to find genes associated with clinically aggressive disease | Q40402325 | ||
Prognostic significance of co-expression of RON and MET receptors in node-negative breast cancer patients. | Q40443024 | ||
Role of the major heat shock proteins as molecular chaperones | Q40800614 | ||
Transgenic mouse models of mammary tumorigenesis | Q40856673 | ||
Members of the heat-shock protein 70 family promote cancer cell growth by distinct mechanisms | Q41197754 | ||
Members of the 70-kilodalton heat shock protein family contain a highly conserved calmodulin-binding domain | Q43183832 | ||
Mucin 1-specific immunotherapy in a mouse model of spontaneous breast cancer | Q44270295 | ||
Heat-shock protein 70 as a prognostic marker in node-negative breast cancer. | Q44486941 | ||
Targeted expression of HGF/SF in mouse mammary epithelium leads to metastatic adenosquamous carcinomas through the activation of multiple signal transduction pathways. | Q44662285 | ||
C-Met overexpression in node-positive breast cancer identifies patients with poor clinical outcome independent of Her2/neu | Q45083973 | ||
HSP90 inhibition is effective in breast cancer: a phase II trial of tanespimycin (17-AAG) plus trastuzumab in patients with HER2-positive metastatic breast cancer progressing on trastuzumab. | Q45387477 | ||
Stimulation of mammary tumorigenesis by systemic tissue inhibitor of matrix metalloproteinase 4 gene delivery. | Q45876182 | ||
c-MET expression level in primary colon cancer: a predictor of tumor invasion and lymph node metastases. | Q46265281 | ||
Targeting HSP70 for cancer therapy. | Q52295438 | ||
Activation of the c-Src tyrosine kinase is required for the induction of mammary tumors in transgenic mice | Q71606712 | ||
The potential role of HSP70 as an indicator of response to radiation and hyperthermia treatments for recurrent breast cancer | Q71794499 | ||
c-Met autocrine activation induces development of malignant melanoma and acquisition of the metastatic phenotype | Q77583076 | ||
Significant correlation between expression of heat shock proteins 27, 70 and lymphocyte infiltration in esophageal squamous cell carcinoma | Q77648006 | ||
Prevention of spontaneous breast carcinoma by prophylactic vaccination with dendritic/tumor fusion cells | Q78946224 | ||
Correlation of heat shock protein (HSP70) expression with cell proliferation (MIB1), estrogen receptors (ER) and clinicopathological variables in invasive ductal breast carcinomas | Q81563587 | ||
Hsp70: anti-apoptotic and tumorigenic protein | Q84904226 | ||
Wound repair and regeneration | Q29617949 | ||
Induction of mammary tumors by expression of polyomavirus middle T oncogene: a transgenic mouse model for metastatic disease | Q29619726 | ||
Hsp70-Bag3 interactions regulate cancer-related signaling networks | Q30009385 | ||
How the cell copes with stress and the function of heat shock proteins | Q30419921 | ||
Combination of trastuzumab and tanespimycin (17-AAG, KOS-953) is safe and active in trastuzumab-refractory HER-2 overexpressing breast cancer: a phase I dose-escalation study | Q33377626 | ||
Identification of metastasis-related proteins and their clinical relevance to triple-negative human breast cancer | Q33382317 | ||
Targeting HSP70: the second potentially druggable heat shock protein and molecular chaperone? | Q33550062 | ||
Expression of heat shock proteins and heat shock protein messenger ribonucleic acid in human prostate carcinoma in vitro and in tumors in vivo. | Q33736465 | ||
Immunotherapy of radioresistant mammary tumors with early metastasis using molecular chaperone vaccines combined with ionizing radiation | Q33859251 | ||
Heat shock proteins in cancer: diagnostic, prognostic, predictive, and treatment implications | Q33899708 | ||
Mechanisms of HGF/Met signaling to Brk and Sam68 in breast cancer progression | Q34085432 | ||
The turn motif is a phosphorylation switch that regulates the binding of Hsp70 to protein kinase C. | Q34134869 | ||
Wound-healing assay. | Q34373085 | ||
OstemiR: a novel panel of microRNA biomarkers in osteoblastic and osteocytic differentiation from mesencymal stem cells | Q34637681 | ||
Heat shock factor 1 represses estrogen-dependent transcription through association with MTA1. | Q34699433 | ||
Matrix metalloproteinase genes are associated with breast cancer risk and survival: the Breast Cancer Health Disparities Study | Q34733697 | ||
A unique role for heat shock protein 70 and its binding partner tissue transglutaminase in cancer cell migration | Q35423309 | ||
High levels of nuclear heat-shock factor 1 (HSF1) are associated with poor prognosis in breast cancer | Q35546764 | ||
Hsp90 molecular chaperone inhibitors: are we there yet? | Q35655105 | ||
Molecular chaperones in mammary cancer growth and breast tumor therapy | Q35843133 | ||
HSP90 and HSP70 proteins are essential for stabilization and activation of WASF3 metastasis-promoting protein | Q35880133 | ||
Heat shock protein Hsp72 plays an essential role in Her2-induced mammary tumorigenesis | Q36208512 | ||
Scatter factor: molecular characteristics and effect on the invasiveness of epithelial cells | Q36223889 | ||
Hsp70 is a novel posttranscriptional regulator of gene expression that binds and stabilizes selected mRNAs containing AU-rich elements | Q36506606 | ||
Sca-1 identifies the tumor-initiating cells in mammary tumors of BALB-neuT transgenic mice | Q36982130 | ||
Prognostic significance of heat shock protein 70 expression in early gastric carcinoma | Q36983407 | ||
Hsp90, an unlikely ally in the war on cancer | Q37274497 | ||
MET signalling: principles and functions in development, organ regeneration and cancer | Q37811895 | ||
Inhibition of HSP70: a challenging anti-cancer strategy | Q38023055 | ||
The heat shock response | Q38152771 | ||
Molecular cochaperones: tumor growth and cancer treatment | Q38166376 | ||
Expression of c-met is a strong independent prognostic factor in breast carcinoma | Q38472256 | ||
Analysis of cellular migration using a two-chamber methodology | Q39478456 | ||
HSF1, a versatile factor in tumorogenesis | Q39584867 | ||
c-Met is essential for wound healing in the skin | Q39735911 | ||
P433 | issue | 43 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | tumor initiation | Q7852676 |
P304 | page(s) | 5460-5471 | |
P577 | publication date | 2015-02-09 | |
P1433 | published in | Oncogene | Q1568657 |
P1476 | title | Targeting the hsp70 gene delays mammary tumor initiation and inhibits tumor cell metastasis | |
P478 | volume | 34 |
Q90162116 | A Novel Model of Cancer Drug Resistance: Oncosomal Release of Cytotoxic and Antibody-Based Drugs |
Q47362562 | A Workflow Guide to RNA-seq Analysis of Chaperone Function and Beyond |
Q38752925 | Anticancer Effects of Targeting Hsp70 in Tumor Stromal Cells. |
Q37535974 | Arresting the colonial destiny of metastatic seeds with DNA aptamers. |
Q50354200 | Cancer cell responses to Hsp70 inhibitor JG-98: Comparison with Hsp90 inhibitors and finding synergistic drug combinations. |
Q55311846 | Discovery and optimization of cardenolides inhibiting HSF1 activation in human colon HCT-116 cancer cells. |
Q39122582 | Exosomes in cancer theranostic: Diamonds in the rough |
Q92156072 | Extracellular Hsp70 Reduces the Pro-Tumor Capacity of Monocytes/Macrophages Co-Cultivated with Cancer Cells |
Q90080306 | Heat Shock Proteins Are Essential Components in Transformation and Tumor Progression: Cancer Cell Intrinsic Pathways and Beyond |
Q37013952 | Heat Shock Proteins Promote Cancer: It's a Protection Racket |
Q50567847 | Heat shock proteins and cancer: intracellular chaperones or extracellular signalling ligands? |
Q42498952 | Heat-shock protein 70 expression in the equine cornea |
Q53097440 | Intracellular MMP3 Promotes HSP Gene Expression in Collaboration With Chromobox Proteins. |
Q90248977 | Membrane-bound exosomal HSP70 as a biomarker for detection and monitoring of malignant solid tumours: a pilot study |
Q39292455 | Molecular Chaperone Accumulation in Cancer and Decrease in Alzheimer's Disease: The Potential Roles of HSF1. |
Q50133361 | Organoids with cancer stem cell-like properties secrete exosomes and HSP90 in a 3D nanoenvironment |
Q47241645 | Regulation of Mammary Luminal Cell Fate and Tumorigenesis by p38α. |
Q38745407 | miR-218 Inhibits Proliferation, Migration, and EMT of Gastric Cancer Cells by Targeting WASF3. |
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