Tumor microenvironment: a main actor in the metastasis process.
about
Neem components as potential agents for cancer prevention and treatmentSpatial and functional heterogeneities shape collective behavior of tumor-immune networksCrosstalk between cancer cells and blood endothelial and lymphatic endothelial cells in tumour and organ microenvironmentHapten-induced contact hypersensitivity, autoimmune reactions, and tumor regression: plausibility of mediating antitumor immunityBiomimetic tumor microenvironment on a microfluidic platformEndoplasmic reticulum stress-induced resistance to doxorubicin is reversed by paeonol treatment in human hepatocellular carcinoma cellsEnhanced antitumor immunity contributes to the radio-sensitization of ehrlich ascites tumor by the glycolytic inhibitor 2-deoxy-D-glucose in micePreferential, enhanced breast cancer cell migration on biomimetic electrospun nanofiber 'cell highways'Identification of proteins with different abundance associated with cell migration and proliferation in leiomyoma interstitial fluid by proteomics.CTHRC1 acts as a prognostic factor and promotes invasiveness of gastrointestinal stromal tumors by activating Wnt/PCP-Rho signaling.Targeting CD13 (aminopeptidase-N) in turn downregulates ADAM17 by internalization in acute myeloid leukaemia cells.Metastatic tumors to the jaws and mouth.Bioengineered implantable scaffolds as a tool to study stromal-derived factors in metastatic cancer models.Role of NK cell subsets in organ-specific murine melanoma metastasis.Stromal matrix metalloprotease-13 knockout alters Collagen I structure at the tumor-host interface and increases lung metastasis of C57BL/6 syngeneic E0771 mammary tumor cells.Activity of plasma membrane V-ATPases is critical for the invasion of MDA-MB231 breast cancer cells.Tumor mechanics and metabolic dysfunction.The role of the cell-cell interactions in cancer progression.Zerumbone, Sesquiterpene Photochemical from Ginger, Inhibits Angiogenesis.Mesoporous silica nanoparticle delivery of chemically modified siRNA against TWIST1 leads to reduced tumor burden.Interleukin-23 Facilitates Thyroid Cancer Cell Migration and Invasion by Inhibiting SOCS4 Expression via MicroRNA-25.Stressors alter intercellular communication and exosome profile of nasopharyngeal carcinoma cells.Enhanced metastasis in RNF13 knockout mice is mediated by a reduction in GM-CSF levels.Biological rationale for the design of polymeric anti-cancer nanomedicines.A Novel Nanoprobe for Multimodal Imaging Is Effectively Incorporated into Human Melanoma Metastatic Cell Lines.Anti-tumor enhancement of Fei-Liu-Ping ointment in combination with celecoxib via cyclooxygenase-2-mediated lung metastatic inflammatory microenvironment in Lewis lung carcinoma xenograft mouse modelCisplatin-induced mesenchymal stromal cells-mediated mechanism contributing to decreased antitumor effect in breast cancer cells.Melittin suppresses cathepsin S-induced invasion and angiogenesis via blocking of the VEGF-A/VEGFR-2/MEK1/ERK1/2 pathway in human hepatocellular carcinomaCorrelation of hK6 expression with tumor recurrence and prognosis in advanced gastric cancerA New Herbal Formula, KSG-002, Suppresses Breast Cancer Growth and Metastasis by Targeting NF- κ B-Dependent TNF α Production in MacrophagesHypothesis: solid tumours behave as systemic metabolic dictators.DYT-40, a novel synthetic 2-styryl-5-nitroimidazole derivative, blocks malignant glioblastoma growth and invasion by inhibiting AEG-1 and NF-κB signaling pathways.Interrogating tumor metabolism and tumor microenvironments using molecular positron emission tomography imaging. Theranostic approaches to improve therapeutics.The crosstalk: Tumor-infiltrating lymphocytes rich in regulatory T cells suppressed cancer-associated fibroblasts.The function of vacuolar ATPase (V-ATPase) a subunit isoforms in invasiveness of MCF10a and MCF10CA1a human breast cancer cells.Tissues in different anatomical sites can sculpt and vary the tumor microenvironment to affect responses to therapyMetastatic tumors to the gingiva and the presence of teeth as a contributing factor: a literature analysis.Clinical evaluation of systemic and local immune responses in cancer: time for integration.Pathogenesis of Breast Cancer Metastasis to Brain: a Comprehensive Approach to the Signaling Network.Role of estrogen receptor alpha in human cervical cancer-associated fibroblasts: a transcriptomic study.
P2860
Q26995699-50D24DBE-DBE6-470C-8A15-9054699DB1ACQ27319519-497EF21E-5824-4F72-88DE-8A1C8F0A72B8Q28081431-C3EDEE9F-AA97-41EE-A5B2-D966490499AFQ28387629-2DAF2837-16FA-4A87-AB74-5D909F2D6384Q28485304-D80E4294-2564-4217-BB50-CDEE7EC71499Q28487624-763B131A-631C-4134-BF99-8E70761688AFQ28543176-50EBB045-1D0D-43A9-A01A-ACFA6108DDB9Q30599338-F060423C-C9D5-43A2-B9E2-FA4ACAF051B9Q33684657-0D0EC11B-37D8-4627-9FA7-4BB34F2A0BC6Q33891101-C79700E3-0725-411C-804C-88F0289E9551Q34483504-F40B51AA-4A59-4B33-96BE-C8E87CF0FF90Q34577367-32AD4050-DE2F-4327-B7B0-5E3EE1397718Q34713778-93D78DA1-F606-4296-8BCD-A6FC462D3E0EQ34775804-C8EEFE34-397F-4ACB-A780-388C9E6012B1Q34980059-AEEA031D-61C3-41BF-B4DE-231C2E4AFE04Q35055604-5B9E7EA4-A961-49B1-83DD-3DAA93932442Q35117423-6DD53375-A085-4C1E-B2FC-E90D10988A6DQ35531372-5B047AAC-CA40-4873-A3B4-7A4FA81A14A7Q35843962-AEC53F94-E1E0-49DD-8C39-B609B3658B52Q36103833-37F9D90A-57B7-4EB5-958E-FD129630C25CQ36121973-45264CFD-A2BB-45B7-9004-6A0B6CE6E928Q36123966-83A8201E-548A-4E75-852D-28DCDB2007D1Q36137690-829268E8-43FC-460A-9E2E-67E1EEEE5E1BQ36160333-81811085-FB13-409D-8DDD-213253FE40DCQ36184142-35B27BC6-52AA-4299-9305-730BFE394D22Q36307838-9749E856-3851-4638-B17A-D0DC6B4228ECQ36454593-846037A2-CF94-4D85-AFBF-D82B8CEDA99EQ36502706-5BD2263D-391B-4287-9B65-254CAC9AA0CEQ36908718-049BD7A5-9234-4E80-AF30-7C97F6DC5E68Q36931363-A421C158-CBA2-4942-B9D1-5D536E16762AQ36942376-7DBCC5D3-B9B1-4503-A38D-EB2D1C110562Q36960228-50F8C3A5-C63E-402B-9ED9-34539B9FE031Q37236103-52AA9DFF-D8B3-4DA9-ABF9-09E6A4828E0FQ37267037-2189F9ED-2CA4-427C-B984-DBB3796A8D59Q37289316-DCBC1E02-D563-4132-A6C8-F9741F78D725Q37690485-0D8EA22F-02A1-4F93-9F83-08D78F3A571AQ38104368-B21595FB-3CCF-4F8F-BAF3-20C0A2DECEA9Q38150174-3F6DC402-FA02-4A75-9A8B-DF517DDFC7A8Q38281325-CDB2CD3B-2143-4F23-956E-600B86AA8D5FQ38455904-E8D65B89-6E6D-404D-BDB8-C3CFCA5F54B8
P2860
Tumor microenvironment: a main actor in the metastasis process.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Tumor microenvironment: a main actor in the metastasis process.
@en
Tumor microenvironment: a main actor in the metastasis process.
@nl
type
label
Tumor microenvironment: a main actor in the metastasis process.
@en
Tumor microenvironment: a main actor in the metastasis process.
@nl
prefLabel
Tumor microenvironment: a main actor in the metastasis process.
@en
Tumor microenvironment: a main actor in the metastasis process.
@nl
P2860
P1476
Tumor microenvironment: a main actor in the metastasis process
@en
P2093
Daniela Spano
P2860
P2888
P304
P356
10.1007/S10585-012-9457-5
P577
2012-02-10T00:00:00Z