Coevolution of prostate cancer and bone stroma in three-dimensional coculture: implications for cancer growth and metastasis.
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Near IR heptamethine cyanine dye-mediated cancer imagingInsidious changes in stromal matrix fuel cancer progressionUnderstanding the Warburg effect and the prognostic value of stromal caveolin-1 as a marker of a lethal tumor microenvironmentA systematic review on in vitro 3D bone metastases models: A new horizon to recapitulate the native clinical scenario?Recapitulation of tumor heterogeneity and molecular signatures in a 3D brain cancer model with decreased sensitivity to histone deacetylase inhibitionOxidative stress, inflammation, and cancer: how are they linked?RANK-mediated signaling network and cancer metastasis.The chemokine CXCL16 and its receptor, CXCR6, as markers and promoters of inflammation-associated cancers.LHRH-conjugated lytic peptides directly target prostate cancer cells.Evaluation of cellular determinants required for in vitro xenotropic murine leukemia virus-related virus entry into human prostate cancer and noncancerous cellsProstate cancer and bone: the elective affinities.Angiopoietins promote ovarian cancer progression by establishing a procancer microenvironment.Chemokine signaling in cancer: Implications on the tumor microenvironment and therapeutic targetingPreclinical characterization of mitochondria-targeted small molecule hsp90 inhibitors, gamitrinibs, in advanced prostate cancerSpontaneous cancer-stromal cell fusion as a mechanism of prostate cancer androgen-independent progressionTargeting L1 cell adhesion molecule expression using liposome-encapsulated siRNA suppresses prostate cancer bone metastasis and growth.Differentiation of human mesenchymal stem cell spheroids under microgravity conditions.In vivo targeting of ADAM9 gene expression using lentivirus-delivered shRNA suppresses prostate cancer growth by regulating REG4 dependent cell cycle progressionTargeted inhibition of mitochondrial Hsp90 suppresses localised and metastatic prostate cancer growth in a genetic mouse model of disease.Loss of let-7 microRNA upregulates IL-6 in bone marrow-derived mesenchymal stem cells triggering a reactive stromal response to prostate cancer.Transgenic expression of polyomavirus middle T antigen in the mouse prostate gives rise to carcinoma.Spherical cancer models in tumor biology.Establishment and characterization of a pair of non-malignant and malignant tumor derived cell lines from an African American prostate cancer patient.EPLIN downregulation promotes epithelial-mesenchymal transition in prostate cancer cells and correlates with clinical lymph node metastasis.Stromal fibroblast-derived miR-409 promotes epithelial-to-mesenchymal transition and prostate tumorigenesis.Human breast cancer histoid: an in vitro 3-dimensional co-culture model that mimics breast cancer tissueThe pro-metastatic role of bone marrow-derived cells: a focus on MSCs and regulatory T cellsCo-Targeting Prostate Cancer Epithelium and Bone Stroma by Human Osteonectin-Promoter-Mediated Suicide Gene Therapy Effectively Inhibits Androgen-Independent Prostate Cancer GrowthBone matrix osteonectin limits prostate cancer cell growth and survival.Future perspectives of prostate cancer therapy.A 3D in vitro model of patient-derived prostate cancer xenograft for controlled interrogation of in vivo tumor-stromal interactions.Active sonic hedgehog signaling between androgen independent human prostate cancer cells and normal/benign but not cancer-associated prostate stromal cells.Matricellular proteins as regulators of cancer metastasis to bone.Patient survival and tumor characteristics associated with CHEK2:p.I157T - findings from the Breast Cancer Association ConsortiumEpithelial-mesenchymal transition and migration of prostate cancer stem cells is driven by cancer-associated fibroblasts in an HIF-1α/β-catenin-dependent pathway.Combined Dynamic Alterations in Urinary VEGF Levels and Tissue ADAM9 Expression as Markers for Lethal Phenotypic Progression of Prostate Cancer.Tumor-stroma co-evolution in prostate cancer progression and metastasis.Elevated serum CXCL16 is an independent predictor of poor survival in ovarian cancer and may reflect pro-metastatic ADAM protease activity.Can stroma reaction predict cancer lethality?Mesenchymal niches of bone marrow in cancer.
P2860
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P2860
Coevolution of prostate cancer and bone stroma in three-dimensional coculture: implications for cancer growth and metastasis.
description
2008 nî lūn-bûn
@nan
2008 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Coevolution of prostate cancer ...... cancer growth and metastasis.
@ast
Coevolution of prostate cancer ...... cancer growth and metastasis.
@en
type
label
Coevolution of prostate cancer ...... cancer growth and metastasis.
@ast
Coevolution of prostate cancer ...... cancer growth and metastasis.
@en
prefLabel
Coevolution of prostate cancer ...... cancer growth and metastasis.
@ast
Coevolution of prostate cancer ...... cancer growth and metastasis.
@en
P2093
P2860
P1433
P1476
Coevolution of prostate cancer ...... cancer growth and metastasis.
@en
P2093
Andrew Law
Asha S Multani
Chia-Ling Hsieh
Fray F Marshall
Haiyen E Zhau
Ilsa M Coleman
Leland W K Chung
Li-Chin Wu
Mahul B Amin
P2860
P304
9996-10003
P356
10.1158/0008-5472.CAN-08-2492
P407
P577
2008-12-01T00:00:00Z