Mechanisms for transcellular diapedesis: probing and pathfinding by 'invadosome-like protrusions'.
about
Decreased plasma levels of soluble CD18 link leukocyte infiltration with disease activity in spondyloarthritisPathogenic Triad in Bacterial Meningitis: Pathogen Invasion, NF-κB Activation, and Leukocyte Transmigration that Occur at the Blood-Brain BarrierBiophysical Aspects of T Lymphocyte Activation at the Immune SynapseT Lymphocyte-Endothelial Interactions: Emerging Understanding of Trafficking and Antigen-Specific ImmunityCrossing the Vascular Wall: Common and Unique Mechanisms Exploited by Different Leukocyte Subsets during ExtravasationRegulation of Endothelial Adherens Junctions by Tyrosine PhosphorylationCrossing of the epithelial barriers by Bacillus anthracis: the Known and the UnknownTumors: wounds that do not heal-reduxTrespassing cancer cells: 'fingerprinting' invasive protrusions reveals metastatic culpritsStructure and biomechanics of the endothelial transcellular circumferential invasion array in tumor invasionRoles of endothelial A-type lamins in migration of T cells on and under endothelial layers.Transmigration of melanoma cells through the blood-brain barrier: role of endothelial tight junctions and melanoma-released serine proteasesIntercellular cross-talk in intracerebral hemorrhageCdc42 interacting protein 4 (CIP4) is essential for integrin-dependent T-cell trafficking.Comparison of immortalized bEnd5 and primary mouse brain microvascular endothelial cells as in vitro blood-brain barrier models for the study of T cell extravasation.Podosome rings generate forces that drive saltatory osteoclast migrationMesenchymal stem cells transmigrate between and directly through tumor necrosis factor-α-activated endothelial cells via both leukocyte-like and novel mechanismsRelease of cellular tension signals self-restorative ventral lamellipodia to heal barrier micro-wounds.A chemokine self-presentation mechanism involving formation of endothelial surface microstructuresSynthetic nanoparticles functionalized with biomimetic leukocyte membranes possess cell-like functionsProbing the biomechanical contribution of the endothelium to lymphocyte migration: diapedesis by the path of least resistance.T-lymphocyte passive deformation is controlled by unfolding of membrane surface reservoirs.Meningitic Escherichia coli K1 penetration and neutrophil transmigration across the blood-brain barrier are modulated by alpha7 nicotinic receptorMyosin light chain kinase in microvascular endothelial barrier function.Biomechanical strain as a trigger for pore formation in Schlemm's canal endothelial cellsAn invasive podosome-like structure promotes fusion pore formation during myoblast fusion.Breaking down the barrier: the effects of HIV-1 on the blood-brain barrier.Antigen recognition is facilitated by invadosome-like protrusions formed by memory/effector T cells.Nanoscale Imaging Reveals a Tetraspanin-CD9 Coordinated Elevation of Endothelial ICAM-1 Clusters.Mechanical Criterion for the Rupture of a Cell Membrane under Compression.Brief report: Mechanism of extravasation of infused stem cells.Different phosphoinositide 3-kinase isoforms mediate carrageenan nociception and inflammationMyosin light chain kinase signaling in endothelial barrier dysfunction.Novel role of ASC as a regulator of metastatic phenotype.Soft matrix is a natural stimulator for cellular invasiveness.Trojan Horse Transit Contributes to Blood-Brain Barrier Crossing of a Eukaryotic Pathogen.Recent developments and complexities in neutrophil transmigrationDifferential induction of CCL5 by pathogenic and non-pathogenic strains of West Nile virus in brain endothelial cells and astrocytes.Review: leucocyte-endothelial cell crosstalk at the blood-brain barrier: a prerequisite for successful immune cell entry to the brain.The spatial and developmental relationships in the macrophage family
P2860
Q22000831-5E32EA5B-6C21-487B-8410-3E561EE39AE1Q26765875-D8699FE6-EE6C-4940-84EC-6ED1DE386AD3Q26766483-396C7182-65DB-4416-8687-01C8747AE27CQ26774645-E3B45FBF-A08F-466E-AE66-7449C58A464BQ26777119-883BF1E4-5F8D-4080-9E81-2E496E88B0C5Q26778080-384D6373-FD2B-48FF-8F04-A13E7AE50C3FQ26779228-02DD178B-9830-4D45-9875-2E392A8FC808Q26853439-EBBC4EE0-50FA-42C4-B17B-1391BC715F82Q26997307-1DD77ABE-F029-44E4-ABF6-E13CE23CABA6Q27319976-3C7B23FC-0FC7-42C5-81B8-7AFFDD733374Q27329601-77BB9427-3FEB-4DC0-9B05-548E603297B5Q27335558-C7248F26-461B-4E4C-8D24-2F316D1ECDA0Q27692109-1E62D5A8-B7E0-46A6-B8A3-7C5BDA395473Q30496633-9185C74F-94F2-4C9E-9D21-64B4DB15BB2FQ30498346-945D65AB-BF9C-4F0F-95D9-3118D456B5AEQ30503864-ECD598BF-ADA1-4A3A-9193-6AB794FA86C0Q30525829-7A791FD6-1DEA-4289-A698-340899C0E247Q30539318-3E74F76D-1A30-4012-B14A-155381D25EAAQ30540297-FECBADD6-3B0E-4B1A-8662-7B7D818B8010Q30543404-132321E7-5572-4498-BC92-24425B3801E9Q30586671-FBAA1EE3-73C4-4BAC-B1F9-2C0C9CD4825AQ30834296-059510F4-6B2C-4F04-A088-2D7F6A8F6867Q31031689-F659B7A4-CB76-4A76-A1B6-3036BC5C0E68Q33954983-7A1524F6-0BAE-4D42-91EC-54D847585987Q34244117-AA3678DB-09BC-43C4-B3FA-85CD4BD15F62Q34368627-29FF1F30-E753-4BA2-9913-B763011ABDE3Q35114694-29F00A1A-8A20-49B4-806E-39569578A89AQ35884077-7FBB6309-E3E2-45DC-A60C-ED1AC5FF0D35Q35885720-B8DE13B2-1577-4ACD-9ED9-E054BA7DAB7EQ36230643-C2D53330-090B-4AF7-A567-66A476CD1A21Q36429175-3D2B4CFA-C046-4657-B7B5-F9C78091D554Q36458539-39172A41-EEA0-4951-B941-89A58A2A46C9Q37076073-54892D69-1A6B-493C-B99D-F14BD8990812Q37321065-C2CC0AE9-89C0-4AF4-8DE7-B4C0AE77F50BQ37582531-3656DA5D-3A5E-47F1-A446-E8E99988693FQ37617655-5A703EBB-B44A-4D96-9D8D-436AE13CE97EQ37623395-D2D3E0E7-0EDC-4A61-90C0-887A8C53AC8DQ37680645-A29419E0-9A1A-4898-ACF9-A17DA8F5A044Q37800163-B5BB17C8-3676-4927-B72E-DD4A25DA51A8Q37890186-8E92DE10-26A7-4691-8355-C74948010661
P2860
Mechanisms for transcellular diapedesis: probing and pathfinding by 'invadosome-like protrusions'.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on September 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Mechanisms for transcellular d ...... 'invadosome-like protrusions'.
@en
Mechanisms for transcellular d ...... 'invadosome-like protrusions'.
@nl
type
label
Mechanisms for transcellular d ...... 'invadosome-like protrusions'.
@en
Mechanisms for transcellular d ...... 'invadosome-like protrusions'.
@nl
prefLabel
Mechanisms for transcellular d ...... 'invadosome-like protrusions'.
@en
Mechanisms for transcellular d ...... 'invadosome-like protrusions'.
@nl
P356
P1476
Mechanisms for transcellular d ...... 'invadosome-like protrusions'
@en
P2093
Christopher V Carman
P304
P356
10.1242/JCS.047522
P407
P577
2009-09-01T00:00:00Z