WIP deficiency reveals a differential role for WIP and the actin cytoskeleton in T and B cell activation
about
sameAs
WIP remodeling actin behind the scenes: how WIP reshapes immune and other functionsWIP regulates persistence of cell migration and ruffle formation in both mesenchymal and amoeboid modes of motilityA novel primary human immunodeficiency due to deficiency in the WASP-interacting protein WIPWiskott-Aldrich syndrome protein and the cytoskeletal dynamics of dendritic cellsEnteropathogenic Escherichia coli and vaccinia virus do not require the family of WASP-interacting proteins for pathogen-induced actin assemblyADAP-SLP-76 binding differentially regulates supramolecular activation cluster (SMAC) formation relative to T cell-APC conjugationStoichiometry of Nck-dependent actin polymerization in living cellsBinding of the WASP/N-WASP-interacting protein WIP to actin regulates focal adhesion assembly and adhesionBinding of WIP to actin is essential for T cell actin cytoskeleton integrity and tissue homing.A DOCK8-WIP-WASp complex links T cell receptors to the actin cytoskeleton.Platelet-associated IgAs and impaired GPVI responses in platelets lacking WIP.A peptide derived from the Wiskott-Aldrich syndrome (WAS) protein-interacting protein (WIP) restores WAS protein level and actin cytoskeleton reorganization in lymphocytes from patients with WAS mutations that disrupt WIP bindingSystemic inflammatory response to smoking in chronic obstructive pulmonary disease: evidence of a gender effect.Intestinal microbial diversity during early-life colonization shapes long-term IgE levelsActin-bundling protein L-plastin regulates T cell activation.WASp in immune-system organization and function.The regulation of actin remodeling during T-cell-APC conjugate formation.WASp-deficient B cells play a critical, cell-intrinsic role in triggering autoimmunity.Emerging and diverse roles of protein kinase C in immune cell signalling.Regulation of cytoskeletal dynamics at the immune synapse: new stars join the actin troupeWIP is a chaperone for Wiskott-Aldrich syndrome protein (WASP).Antigen recognition is facilitated by invadosome-like protrusions formed by memory/effector T cells.Synapses: sites of cell recognition, adhesion, and functional specification.Formation of a WIP-, WASp-, actin-, and myosin IIA-containing multiprotein complex in activated NK cells and its alteration by KIR inhibitory signaling.CD44 and beta3 integrin organize two functionally distinct actin-based domains in osteoclastsLipid rafts and regulation of the cytoskeleton during T cell activation.The verprolin family of proteins: regulators of cell morphogenesis and endocytosis.Neuritic complexity of hippocampal neurons depends on WIP-mediated mTORC1 and Abl family kinases activitiesWIP regulates signaling via the high affinity receptor for immunoglobulin E in mast cells.WIP is essential for lytic granule polarization and NK cell cytotoxicityFBP17 Mediates a Common Molecular Step in the Formation of Podosomes and Phagocytic Cups in Macrophages.WIP is critical for T cell responsiveness to IL-2Phosphorylation of WASp is a key regulator of activity and stability in vivo.The cellular context of T cell signaling.UNC-45A Is a Nonmuscle Myosin IIA Chaperone Required for NK Cell Cytotoxicity via Control of Lytic Granule SecretionImmune pathology associated with altered actin cytoskeleton regulation.Gene hunting in the genomic era: approaches to diagnostic dilemmas in patients with primary immunodeficienciesEpigenetically upregulated WIPF1 plays a major role in BRAF V600E-promoted papillary thyroid cancer aggressiveness.3BP2 deficiency impairs the response of B cells, but not T cells, to antigen receptor ligation.Impaired cell adhesion, apoptosis, and signaling in WASP gene-disrupted Nalm-6 pre-B cells and recovery of cell adhesion using a transducible form of WASp.
P2860
Q26852216-DBAF65E9-AFEC-4C6E-B2D6-6A86B912F51CQ27310306-9E26C3A7-40C5-4ED7-A7D2-C66BB7FEDB31Q28257064-67B75ED6-008A-40DF-A7B7-34F98FDE85F3Q28288791-7F067FB3-2DD7-4D25-8F95-64CA760888B6Q28590623-AE363546-92BA-4697-8196-3571A8BD2FF7Q28771478-0F3815C4-013D-478C-BF35-C3647BBA4C64Q30010097-6D6EFDEE-629D-4671-8BB1-BD4DAB375326Q30583693-47CC321B-9888-4A48-960C-8CA655655ECFQ30603428-5ED3814C-D19F-4C54-BF00-75BF5A69BCEAQ30827629-1999407B-FB76-4D7D-978D-AEAA431993B3Q33385900-15D0B7D3-9637-48EA-BB55-956CC1A12E5CQ33394391-0E73974F-19CB-4B0D-8888-2D701424A69EQ33617957-360B7829-565F-45E1-B97F-C7EE00EC9E32Q33725722-41B48313-CAE3-4912-B2B0-6ABAEA6F10CCQ34522338-B15B8EC7-B1DA-45AF-BDB3-2B4D6D6BBC34Q34810230-843A8953-2FCC-440C-A3C6-7B4BA4C12972Q34862221-BD244529-A8DC-4474-865D-2800F49DBBA1Q35237494-92BF0874-D4E0-48DA-93E3-63C0163A0F42Q35564874-863778A7-8350-440E-8702-14D5BB8E78F6Q35606218-C1199922-94FB-49F5-9C41-CB8648ADA7EFQ35612381-05AD5D8C-A3E8-47E0-8526-7389E062B4D0Q35884077-E2EC9672-157B-4F16-B164-6CE01D917A1EQ36012269-E1F30C48-7AE3-45BB-9BFE-FC6B5393D5E4Q36117371-FB5CADAC-480B-4CB9-A987-8A9F433390EAQ36173877-FA8D0FD7-8A64-4076-A104-EA4BC7BDB86CQ36251276-598CB0D5-23F1-401D-A10E-45466F145093Q36267032-3DDEE89E-2FAD-4EB0-B648-B91EAF2A210EQ36341800-29C50FF8-3AFF-4B10-B5D0-0C344AD4C7E5Q36399132-82996144-6054-4951-BF8A-BB2A560B6E00Q36497407-4E631535-A20B-491E-94A3-CB557BF7CDB4Q37136790-7F818D36-2876-4465-A2B1-2178085B0334Q37183078-9448C437-18FE-4768-95EC-0F9B044FE5FBQ37329019-FE93C392-B332-443F-8F0A-2FAD47957A5BQ37446125-FFADBE80-F0FB-4353-BEED-94C34D51413AQ37536040-4D610DD0-78EC-4904-89BC-132E8A7E124CQ37650286-92C893BA-7D80-4CB2-8974-999C4CBEE31FQ37685931-B2BD6804-60B9-45C4-9E9C-9782084BF2FCQ37702380-BFAECBC1-76C4-4304-8119-EC76967886E0Q38406110-BFC1A43D-8D0D-4633-8080-99E369687317Q39400516-3D4CA499-3191-47D9-B52E-A9D485230F04
P2860
WIP deficiency reveals a differential role for WIP and the actin cytoskeleton in T and B cell activation
description
2002 nî lūn-bûn
@nan
2002 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@ast
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@en
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@nl
type
label
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@ast
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@en
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@nl
prefLabel
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@ast
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@en
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@nl
P2093
P1433
P1476
WIP deficiency reveals a diffe ...... ton in T and B cell activation
@en
P2093
Inés M Antón
John H Hartwig
Narayanaswamy Ramesh
Raif S Geha
Sheryl Freeman
Tasha N Sims
P304
P356
10.1016/S1074-7613(02)00268-6
P407
P577
2002-02-01T00:00:00Z