Myosin light chain kinase mediates transcellular intravasation of breast cancer cells through the underlying endothelial cells: a three-dimensional FRET study.
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Rho, ROCK and actomyosin contractility in metastasis as drug targetsNon-muscle myosin II in disease: mechanisms and therapeutic opportunitiesPhysical biology in cancer. 4. Physical cues guide tumor cell adhesion and migrationA Novel Role of E-Cadherin-Based Adherens Junctions in Neoplastic Cell DisseminationTumor stiffness is unrelated to myosin light chain phosphorylation in cancer cellsStructure and biomechanics of the endothelial transcellular circumferential invasion array in tumor invasionInside-out regulation of ICAM-1 dynamics in TNF-alpha-activated endotheliumTransmigration of melanoma cells through the blood-brain barrier: role of endothelial tight junctions and melanoma-released serine proteasesβ-Adrenergic inhibition of contractility in L6 skeletal muscle cellsThree-dimensional microfluidic model for tumor cell intravasation and endothelial barrier function.Pathway-based classification of cancer subtypes.Transmigration characteristics of breast cancer and melanoma cells through the brain endothelium: Role of Rac and PI3K.Colon cancer cell-derived 12(S)-HETE induces the retraction of cancer-associated fibroblast via MLC2, RHO/ROCK and Ca2+ signalling.Predicting targeted drug combinations based on Pareto optimal patterns of coexpression network connectivityMicrofluidic devices for studying heterotypic cell-cell interactions and tissue specimen cultures under controlled microenvironments.Comparative genomic and transcriptomic analyses of LNCaP and C4-2B prostate cancer cell lines.Genes influenced by the non-muscle isoform of Myosin light chain kinase impact human cancer prognosisNovel three dimensional human endocervix cultures respond to 28-day hormone treatment.Hyaluronan regulation of endothelial barrier function in cancer.Tetraspanin CD9 determines invasiveness and tumorigenicity of human breast cancer cellsIntegrin α2β1 mediates tyrosine phosphorylation of vascular endothelial cadherin induced by invasive breast cancer cells.Mutant B-Raf(V600E) Promotes Melanoma Paracellular Transmigration by Inducing Thrombin-mediated Endothelial Junction BreakdownComputational and experimental models of cancer cell response to fluid shear stress.Cancer cell-derived 12(S)-HETE signals via 12-HETE receptor, RHO, ROCK and MLC2 to induce lymph endothelial barrier breaching.Blood-brain barrier remodeling during brain metastasis formation.The role of the tissue microenvironment in the regulation of cancer cell motility and invasion.The biomechanical properties of 3d extracellular matrices and embedded cells regulate the invasiveness of cancer cells.Endothelial cell's biomechanical properties are regulated by invasive cancer cells.Role of the blood-brain barrier in the formation of brain metastases.Initial afferent lymphatic vessels controlling outbound leukocyte traffic from skin to lymph nodes.Into rather unexplored terrain-transcellular transport across the blood-brain barrier.When the endothelium scores an own goal: endothelial cells actively augment metastatic extravasation through endothelial-mesenchymal transition.Tumor cell intravasation.Thrombin-unique coagulation system protein with multifaceted impacts on cancer and metastasis.Cancer cells remodel themselves and vasculature to overcome the endothelial barrier.Blockade of Rho-associated protein kinase (ROCK) inhibits the contractility and invasion potential of cancer stem like cells.Transforming Growth Factor-β Drives the Transendothelial Migration of Hepatocellular Carcinoma Cells.The pretubulysin-induced exposure of collagen is caused by endothelial cell retraction that results in an increased adhesion and decreased transmigration of tumor cells.Foe or friend? Janus-faces of the neurovascular unit in the formation of brain metastases.Fluid shear stress and tumor metastasis.
P2860
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P2860
Myosin light chain kinase mediates transcellular intravasation of breast cancer cells through the underlying endothelial cells: a three-dimensional FRET study.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Myosin light chain kinase medi ...... three-dimensional FRET study.
@ast
Myosin light chain kinase medi ...... three-dimensional FRET study.
@en
type
label
Myosin light chain kinase medi ...... three-dimensional FRET study.
@ast
Myosin light chain kinase medi ...... three-dimensional FRET study.
@en
prefLabel
Myosin light chain kinase medi ...... three-dimensional FRET study.
@ast
Myosin light chain kinase medi ...... three-dimensional FRET study.
@en
P2093
P2860
P356
P1476
Myosin light chain kinase medi ...... three-dimensional FRET study.
@en
P2093
Luke Liang
Peter H S Sporn
Robert B Wysolmerski
Robert W Dettman
Satya Khuon
Teng-Leong Chew
P2860
P304
P356
10.1242/JCS.053793
P407
P577
2010-01-12T00:00:00Z