Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
about
The WASP and WAVE family proteinsEphexin4 and EphA2 mediate cell migration through a RhoG-dependent mechanismThe deubiquitinating enzyme USP17 is essential for GTPase subcellular localization and cell motility.Invasion of breast cancer cells into collagen matrix requires TGF-α and Cdc42 signalingAt the leading edge of three-dimensional cell migrationMatrikine and matricellular regulators of EGF receptor signaling on cancer cell migration and invasionA quantitative comparison of human HT-1080 fibrosarcoma cells and primary human dermal fibroblasts identifies a 3D migration mechanism with properties unique to the transformed phenotypeApolar and polar transitions drive the conversion between amoeboid and mesenchymal shapes in melanoma cells.Tumor-associated Endo180 requires stromal-derived LOX to promote metastatic prostate cancer cell migration on human ECM surfaces.Modelling GTPase dynamics to understand RhoA-driven cancer cell invasionInitial steps of metastasis: cell invasion and endothelial transmigrationBreast cancer antiestrogen resistance 3-p130Cas interactions promote adhesion disassembly and invasion in breast cancer cells.Aquaporin-1 facilitates angiogenic invasion in the pathological neovasculature that accompanies cirrhosisFilGAP, a Rho/Rho-associated protein kinase-regulated GTPase-activating protein for Rac, controls tumor cell migrationVincristine enhances amoeboid-like motility via GEF-H1/RhoA/ROCK/Myosin light chain signaling in MKN45 cellsMeasuring collective cell movement and extracellular matrix interactions using magnetic resonance imaging.srGAP1 regulates lamellipodial dynamics and cell migratory behavior by modulating Rac1 activity.A peptide functionalized poly(ethylene glycol) (PEG) hydrogel for investigating the influence of biochemical and biophysical matrix properties on tumor cell migration.The three-way switch operation of Rac1/RhoA GTPase-based circuit controlling amoeboid-hybrid-mesenchymal transition.Comparative mechanisms of cancer cell migration through 3D matrix and physiological microtracksRac GTPase regulation of 3D invasion in neuroblastomas lacking MYCN amplification.Mesenchymal migration as a therapeutic target in glioblastoma.HGF-induced PKCζ activation increases functional CXCR4 expression in human breast cancer cells.A strategy for integrating essential three-dimensional microphysiological systems of human organs for realistic anticancer drug screening.RAC1 activation mediates Twist1-induced cancer cell migration.Abl kinases are required for invadopodia formation and chemokine-induced invasion.Hypoxia and free radicals: role in tumor progression and the use of engineering-based platforms to address these relationships.CD147 promotes Src-dependent activation of Rac1 signaling through STAT3/DOCK8 during the motility of hepatocellular carcinoma cells.Pleiotropic functions of Rho GTPase signaling: a Trojan horse or Achilles' heel for breast cancer treatment?The physics of cancer: the role of physical interactions and mechanical forces in metastasis.Mechanobiology of tumor invasion: engineering meets oncology.The Rho family GEF Asef2 regulates cell migration in three dimensional (3D) collagen matrices through myosin IIThe dynamics of Rho GTPase signaling and implications for targeting cancer and the tumor microenvironment.Interstitial flows promote amoeboid over mesenchymal motility of breast cancer cells revealed by a three dimensional microfluidic model.Targeting CD146 with a 64Cu-labeled antibody enables in vivo immunoPET imaging of high-grade gliomas.Modeling the Transitions between Collective and Solitary Migration Phenotypes in Cancer Metastasis.A potential role of progestin-induced laminin-5/α6-integrin signaling in the formation of side branches in the mammary gland.Dimensional control of cancer cell migrationGlioma is formed by active Akt1 alone and promoted by active Rac1 in transgenic zebrafish.CD147 regulates cancer migration via direct interaction with Annexin A2 and DOCK3-β-catenin-WAVE2 signaling
P2860
Q21183891-2507074A-A4F1-44EA-8107-BD38C4091722Q24294233-A053E63A-AD5A-4E10-A75C-189587BB76BDQ24298336-FE8A8313-490B-4880-AF26-4CCC94AE2BAEQ24317376-0D5DE20C-2050-4832-8986-298F972EF972Q26823247-D7EACAEA-BDF6-4226-9D58-F56F1697D359Q26824518-E58A8011-BD5E-42DF-B320-0EBEFDC910EDQ27300951-BDBEC490-6C04-464E-B34B-B521F11BE480Q27305381-FB9A43A1-1CFB-4BAB-90B4-10970EFA2840Q27316928-C9171B75-40F4-4DB8-A15C-4E2DB4D8652EQ28080261-8D9629E3-2F91-4FD9-A81D-CB24F398882FQ28238397-FFAB8092-40CB-48D7-9403-88E1AD72FF85Q30276922-67445A58-A1AD-4A9D-92DB-CBFCDBF6B2C8Q30496270-A2DFC63A-E6FC-4044-91B1-5A61A09E49C6Q30529774-6617DE39-7494-49B0-A6A4-362F18D34610Q30529813-C0C8A349-2958-4EB1-91D9-09FA7FF4218EQ30540029-5F7CD474-A6AC-4527-8A92-98A56EB918CAQ30555993-A90467DC-3874-4550-A472-540BE410DEC4Q30585708-F97692B9-3C30-4829-968A-DBC63F1BAD50Q30587438-2C528CC6-E28E-49CA-874F-E4636031A920Q30627878-38233643-EE75-4FD3-8D15-A86EF8A5FF9AQ30838566-5F26BD48-895B-4021-9D4D-F25798B04B96Q34002994-A6B63458-9668-474D-92D8-6CCCB00C2BB5Q34126591-88AEF808-EC5F-4B9D-83C9-16B559E02952Q34143251-F61ADE42-4BAA-47BF-95A5-15F03CE9A708Q34260423-56519E59-DCF7-4501-A7D2-480358CABBF1Q34401096-8D641D68-D745-4370-8EAB-C0792D5044CFQ35117865-C80B2665-708C-47AD-B2CE-326445055A3DQ35238440-A7743B28-D2E8-4AC2-B478-90556E262A09Q35287780-7405959A-3385-4D33-9CDB-C88BF05A4EB9Q35684114-BF52D936-FC3F-46B2-BE92-D6C3927AB125Q35877893-5598FA68-4A40-44BD-9CA3-7AFBFC71ABD0Q36124707-DB2AD80F-2C85-4279-BA46-07700CFCA14CQ36147572-F542508C-B5AE-45E0-ACA4-44F63DA3B44DQ36240366-603FB6CB-96D8-4C10-AD1C-AD6088ADC41CQ36332042-AAACF2DB-B3B2-43CE-90A4-28352FA2E9FDQ36339995-77922261-6A75-42BD-856D-D529D0C88E54Q36439454-5AA582A2-0C40-4A98-84C2-B34A654CE2C2Q36554351-4AD7CA5B-BAFD-4B76-87E3-9473ED63A69FQ36627203-4ACE56F1-3473-47EE-BE89-BA2150E344F9Q36905729-FDC040A9-2D2D-486D-AA4C-5DA53A125E8F
P2860
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
@en
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
@nl
type
label
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
@en
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
@nl
prefLabel
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
@en
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
@nl
P2093
P2860
P356
P1433
P1476
Involvement of Rac and Rho signaling in cancer cell motility in 3D substrates.
@en
P2093
P2860
P2888
P304
P356
10.1038/ONC.2009.2
P407
P577
2009-02-23T00:00:00Z
P5875
P6179
1035876137