about
Reversible interconversion and maintenance of mammary epithelial cell characteristics by the ligand-regulated EGFR system.Targeting the Hippo Signaling Pathway for Tissue Regeneration and Cancer TherapyRegulation of amphiregulin gene expression by β-catenin signaling in human hepatocellular carcinoma cells: a novel crosstalk between FGF19 and the EGFR systemIgE-based Immunotherapy of Cancer -A Comparative Oncology ApproachIntegrated genomic analysis of colorectal cancer progression reveals activation of EGFR through demethylation of the EREG promoterPGE2/EP3/SRC signaling induces EGFR nuclear translocation and growth through EGFR ligands release in lung adenocarcinoma cells.Somatic cells regulate maternal mRNA translation and developmental competence of mouse oocytesGlobal gene expression profiling in three tumor cell lines subjected to experimental cycling and chronic hypoxia.Differential regulation of breast cancer-associated genes by progesterone receptor isoforms PRA and PRB in a new bi-inducible breast cancer cell line.Oncogenic signaling in amphiregulin and EGFR-expressing PTEN-null human breast cancerIL-25 induces airways angiogenesis and expression of multiple angiogenic factors in a murine asthma model.Biomarkers of erlotinib response in non-small cell lung cancer tumors that do not harbor the more common epidermal growth factor receptor mutations.Hypothermia and rewarming induce gene expression and multiplication of cells in healthy rat prostate tissue.MiR-34a suppresses amphiregulin and tumor metastatic potential of head and neck squamous cell carcinoma (HNSCC)Mesenchymal Stem Cells Shed Amphiregulin at the Surface of Lung Carcinoma Cells in a Juxtacrine Manner.Innate lymphoid cells: critical regulators of allergic inflammation and tissue repair in the lung.Cnidium officinale extract and butylidenephthalide inhibits retinal neovascularization in vitro and in vivoTAZ induces growth factor-independent proliferation through activation of EGFR ligand amphiregulin.Integrin α6β4 Promotes Autocrine Epidermal Growth Factor Receptor (EGFR) Signaling to Stimulate Migration and Invasion toward Hepatocyte Growth Factor (HGF).Increased epidermal growth factor-like ligands are associated with elevated vascular nicotinamide adenine dinucleotide phosphate oxidase in a primate model of atherosclerosis.RNA-sequencing studies identify genes differentially regulated during inflammation-driven lung tumorigenesis and targeted by chemopreventive agents.Amphiregulin activates regulatory T lymphocytes and suppresses CD8+ T cell-mediated anti-tumor response in hepatocellular carcinoma cells.IL-13 receptor α2 is a negative prognostic factor in human lung cancer and stimulates lung cancer growth in mice.GalNAc-T14 promotes metastasis through Wnt dependent HOXB9 expression in lung adenocarcinomaAmphiregulin enhances intercellular adhesion molecule-1 expression and promotes tumor metastasis in human osteosarcomaMembrane-Tethered Intracellular Domain of Amphiregulin Promotes Keratinocyte Proliferation.The EGF receptor ligand amphiregulin controls cell division via FoxM1The role of infectious agents in urogenital cancersExosome-bound WD repeat protein Monad inhibits breast cancer cell invasion by degrading amphiregulin mRNAExpression of amphiregulin predicts poor outcome in patients with pancreatic ductal adenocarcinoma.RNA in blood is altered prior to hemorrhagic transformation in ischemic strokeFGF18 as a prognostic and therapeutic biomarker in ovarian cancer.Epidermal growth factor (EGF) receptor-ligand based molecular staging predicts prognosis in head and neck squamous cell carcinoma partly due to deregulated EGF- induced amphiregulin expression.Cancer-associated fibroblast-secreted CXCL16 attracts monocytes to promote stroma activation in triple-negative breast cancersInduction of amphiregulin by p53 promotes apoptosis via control of microRNA biogenesis in response to DNA damage.The Angiogenic Secretome in VEGF overexpressing Breast Cancer Xenografts.G-protein-coupled receptor 81 promotes a malignant phenotype in breast cancer through angiogenic factor secretion.Abnormal amphiregulin expression correlates with gastric cancer prognosis.miRNA-34c-5p inhibits amphiregulin-induced ovarian cancer stemness and drug resistance via downregulation of the AREG-EGFR-ERK pathway.Chronic myelogenous leukaemia exosomes modulate bone marrow microenvironment through activation of epidermal growth factor receptor.
P2860
Q27438184-CB88C9CF-50E6-4C35-8277-C7805CA76D35Q28078129-40A0D207-0B8C-44D1-A6C8-D55646F07E9AQ28484499-E379A4F7-92F3-4647-AA33-55C1890DAB44Q28655505-30E5CA17-1034-445A-895E-E26344008C52Q30276647-D5CAC0C4-E0E4-486A-A36E-6BC525716BC7Q33761715-4C8E1130-69EC-4AD9-971C-89FDC749C984Q33790796-C895F2A9-6D75-4502-BD75-7310E9FDF1D8Q34047326-26E8D055-8D04-4915-9C22-08A574476A3DQ34430545-363E5911-1B9E-495C-9887-82A141201989Q35007438-2BFF6FCB-17AC-4CE6-8FCE-D3980D6410C1Q35323302-A7A909F7-19D4-4DD5-8610-8E621610447CQ35632206-6199CF6F-84D1-47AE-9F7D-331E8DBF5152Q35634275-A82A8BCA-A9D3-4B75-A8F4-3356A8503D3CQ35781321-E3B63C19-3EF6-4AF8-AD25-391CBEB10E56Q35990316-4D0B53E2-F92A-42D8-B909-082CD8101C6BQ36059099-32F3D07D-2E47-4BA4-A31A-D4CFE853F2F4Q36082268-C459FC4F-F889-4027-9747-526D4BDA9E46Q36164116-907BC6B8-EC19-4D12-94AA-4ED114C02441Q36283930-A5F5E59C-24FA-4EA4-BF18-64F0FF21688AQ36319377-D200AC3A-C82D-43F3-82F3-723EE762D361Q36481857-E86CA5BC-4D76-497B-83A3-E3ED0029CE96Q36544794-8BB51138-CF22-4D32-B6DD-55F62488E998Q36545018-3CFA3D2C-8080-48C2-83ED-9E76E3EB0CCAQ36561625-D493FE6C-F1B7-4177-AD9A-9F936E9CF85CQ36562200-FE41416A-D7F2-43EC-9182-9C4E140EABB4Q36677686-BAE9E253-3618-400E-AD6C-98CB83D16447Q36678172-3614205C-200D-4907-BFAB-51FC67F9ACC2Q36767079-26E93DB5-457E-456C-93AA-D90A86972FC4Q36981139-6AD568F8-8A56-4757-BB98-EB63216DFDB7Q37080154-65EA8661-6C69-4834-BAA3-A8C73221FE4EQ37118070-015A4DF9-4FE6-4D8F-B08A-0F5E90945351Q37200903-BBC5F8B6-7032-4124-8767-EE5FCBC20622Q37286023-A300875A-E35E-42D5-B488-CF1D65A37D5CQ37336207-BC7BEFD3-F797-4B82-9D67-1274488918D7Q37495171-42A3ED80-F008-497B-B953-EC3D8EF1B1AAQ37519061-EA00E06C-9682-48E5-9EFC-CD6EADCB43C6Q37688631-0524B0C2-066B-4485-8E26-AE283B55D9C0Q37718266-2E04DD06-E560-4720-B1EE-54F60040A9AEQ38705370-86BA2B4E-9325-4553-90CB-8F5A592C95BBQ38769873-544C3CBE-E9B7-4D48-8AC4-A849F06A0DDC
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 30 May 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The multiple roles of amphiregulin in human cancer.
@en
The multiple roles of amphiregulin in human cancer.
@nl
type
label
The multiple roles of amphiregulin in human cancer.
@en
The multiple roles of amphiregulin in human cancer.
@nl
prefLabel
The multiple roles of amphiregulin in human cancer.
@en
The multiple roles of amphiregulin in human cancer.
@nl
P50
P1476
The multiple roles of amphiregulin in human cancer
@en
P2093
Amandine Hurbin
Elisabeth Brambilla
P304
P356
10.1016/J.BBCAN.2011.05.003
P407
P577
2011-05-30T00:00:00Z