BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
about
Evidence for OTUD-6B participation in B lymphocytes cell cycle after cytokine stimulationPar-4 inhibits Akt and suppresses Ras-induced lung tumorigenesisThe role of idelalisib in the treatment of relapsed and refractory chronic lymphocytic leukemiaGq-Coupled Receptors in AutoimmunityPI3K Signaling in Normal B Cells and Chronic Lymphocytic Leukemia (CLL)B cells in chronic graft-versus-host diseaseIdelalisib for the treatment of chronic lymphocytic leukemiaThe Role of TLR4 on B Cell Activation and Anti-β2GPI Antibody Production in the Antiphospholipid SyndromeInterplay of Murine Gammaherpesvirus 68 with NF-kappaB Signaling of the HostDynamic Metabolism in Immune ResponsePDK1 regulates B cell differentiation and homeostasis.Akt1 and Akt2 promote peripheral B-cell maturation and survival.B-cell activating factor-receptor specific activation of tumor necrosis factor receptor associated factor 6 and the phosphatidyl inositol 3-kinase pathway in lymphoma B cellsG alpha q-containing G proteins regulate B cell selection and survival and are required to prevent B cell-dependent autoimmunityLeptin signaling maintains B-cell homeostasis via induction of Bcl-2 and Cyclin D1TCR-induced Akt serine 473 phosphorylation is regulated by protein kinase C-alphaEmergence of the PI3-kinase pathway as a central modulator of normal and aberrant B cell differentiationInnate control of B cell responses.TGFβ activated kinase 1 (TAK1) at the crossroad of B cell receptor and Toll-like receptor 9 signaling pathways in human B cells.Aberrant B-cell homeostasis in chronic GVHDGlycolytic rate and lymphomagenesis depend on PARP14, an ADP ribosyltransferase of the B aggressive lymphoma (BAL) family.Signaling by the tumor necrosis factor receptor superfamily in B-cell biology and diseaseDeficiency of the B cell-activating factor receptor results in limited CD169+ macrophage function during viral infectionTNF superfamily protein-protein interactions: feasibility of small- molecule modulationBAFF promotes proliferation of human mesangial cells through interaction with BAFF-RBAFF activation of the ERK5 MAP kinase pathway regulates B cell survival.Stoichiometry of Heteromeric BAFF and APRIL Cytokines Dictates Their Receptor Binding and Signaling Properties.TRANS PROF DB: A new resource for sharing translational profilesBlyS is up-regulated by hypoxia and promotes migration of human breast cancer cellsRegulation of the PKCθ-NF-κB Axis in T Lymphocytes by the Tumor Necrosis Factor Receptor Family Member OX40The phosphoinositide 3-kinase signaling pathway in normal and malignant B cells: activation mechanisms, regulation and impact on cellular functions.B cells from patients with chronic GVHD are activated and primed for survival via BAFF-mediated pathwaysThe Therapeutic Potential for PI3K Inhibitors in Autoimmune Rheumatic DiseasesMultiple signaling pathways promote B lymphocyte stimulator dependent B-cell growth and survival.Characterization of a late transitional B cell population highly sensitive to BAFF-mediated homeostatic proliferation.p110δ PI3 kinase pathway: emerging roles in cancer.Antibody deficiency associated with an inherited autosomal dominant mutation in TWEAK.The BAFF receptor transduces survival signals by co-opting the B cell receptor signaling pathway.Roles of TRAF molecules in B lymphocyte functionNIK overexpression amplifies, whereas ablation of its TRAF3-binding domain replaces BAFF:BAFF-R-mediated survival signals in B cells.
P2860
Q21136036-A7DD0808-52BB-4BFA-A047-E3785622A7BEQ24316409-7FFC67DF-5FED-4E42-8924-AF734F95C561Q26751006-C40C7B51-31ED-4E90-AF2F-D9B33542D5E8Q26765191-5B8460BD-7774-4BF5-90FE-C1939FB7EBBDQ26782633-FB62C7B0-04E8-4FB9-978F-0511EDB1AA8DQ26861706-92050C42-4F85-4F31-AB0B-2A69F7EB6604Q27015826-BCCC49E6-3292-4A41-8DF7-DF9C3AE0FC1FQ28069430-CFE0C8C5-ACE6-4B93-9BE1-6D1A33760DBDQ28080198-64C525D2-760E-460C-A1E5-49EF2416CB56Q28391962-BF3892FE-A01E-4C56-BC89-09FBACF20890Q33854016-B0FEE00B-A955-414C-8CCE-948EC8F722D1Q33871508-33EF255C-DFC0-4E2F-A8A4-4D0D98819A77Q33946456-08AB26A1-606B-4128-91F1-F6888D923B43Q34044464-FA2DBE56-E024-4B6C-B14F-61E4ED7E8F88Q34068307-21F0AB1F-3A9C-4BFA-A941-1A8C2B31D5BEQ34144420-155C8B64-A0B0-41D8-A004-15E9DB49637AQ34762309-5CFBE61B-24A5-4A48-927A-67EED6637E58Q34958353-40FBB0AF-CCC8-4FD3-BE30-E2691FAADAE6Q35163864-23E03805-BC9D-46E9-A5EE-771AA96F334EQ35171251-9EE102A6-01B7-459C-AA95-6B442374E11EQ35229366-DDE0EFE5-5F62-4160-9A2B-A914B8424C5CQ35452032-DAF97631-1C6D-48C0-B92E-9FE3703C5EDEQ35489105-E2C52377-140D-4FC0-B9A6-EEBAD6D5E4CCQ35534271-F33A629F-E0A6-4D86-A3EC-117ACBF168FFQ35608647-7F2E011F-5AF1-4678-B097-136AF2C176FFQ35671259-6C34FA6A-736B-47B4-BED4-1A816D6B661EQ35783159-5C54A2D0-F086-4428-87BB-ACB17666EFF6Q35896711-6FBCE7E2-5CA5-4DAD-8451-6E91C1941D57Q35951005-4D4BD284-203D-4F8B-A2F6-58AA5F663B4FQ35990308-F6F89C88-8A50-4B86-8A49-63FDBA4427E1Q36150234-6EB17BCE-D345-49C7-8B0D-59DC17E4F449Q36250962-40461BD6-8DFD-49CB-89E8-206D94B5FF31Q36286414-2669645F-A1E9-4EC1-8C6A-F6A9327BB300Q36384731-7A70953F-4121-4135-8807-9687EB4BDEC5Q36446940-D0BE9764-B1BB-42A9-9AD9-11DA6AF707C0Q36647928-045737A9-7B86-493E-822A-64E33EACFA31Q36729652-3F5915EF-090F-4BFC-A9D4-68BD97454088Q36768345-9E31BC0A-0160-473B-97A7-1511A5314D28Q36808885-995CC880-B33D-4302-8E4E-9EFC6A8F5B0CQ36825184-F11D372B-EA3E-4A20-9DFA-EB204D06ED44
P2860
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
@ast
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
@en
type
label
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
@ast
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
@en
prefLabel
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
@ast
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
@en
P2093
P2860
P356
P1476
BAFF controls B cell metabolic fitness through a PKC beta- and Akt-dependent mechanism.
@en
P2093
Alexander Tarakhovsky
Alina Patke
Ingrid Mecklenbräuker
P2860
P304
P356
10.1084/JEM.20060990
P407
P577
2006-10-23T00:00:00Z