about
The multiple roles of the CD8 coreceptor in T cell biology: opportunities for the selective modulation of self-reactive cytotoxic T cellsStructural and functional characterization of a single-chain peptide-MHC molecule that modulates both naive and activated CD8+ T cellsCharacterization of the peptide binding specificity of the HLA class I alleles B*38:01 and B*39:06.Rapid identification of MHC class I-restricted antigens relevant to autoimmune diabetes using retrogenic T cells.Cytokine profile of patients with chronic immune thrombocytopenia affects platelet count recovery after Helicobacter pylori eradication.Gene expression profiling in peripheral blood mononuclear cells of patients with common variable immunodeficiency: modulation of adaptive immune response following intravenous immunoglobulin therapy.Differential Effects of Naja naja atra Venom on Immune Activity.Human limbal fibroblast-like stem cells induce immune-tolerance in autoreactive T lymphocytes from female patients with Hashimoto's thyroiditis.GITR expression on T-cell receptor-stimulated human CD8 T cell in a JNK-dependent pathwaySelective phosphorylation of the Dlg1AB variant is critical for TCR-induced p38 activation and induction of proinflammatory cytokines in CD8+ T cells.Unbiased identification of target antigens of CD8+ T cells with combinatorial libraries coding for short peptides.Global activation of CD8+ cytotoxic T lymphocytes correlates with an impairment in regulatory T cells in patients with generalized vitiligoGranzyme B is dispensable in the development of diabetes in non-obese diabetic mice.Induction of polyclonal CD8+ T cell activation and effector function by Pertussis toxin.Interaction between Toll-like receptors and natural killer cells in the destruction of bile ducts in primary biliary cirrhosisDown regulation of T cell receptor expression in COPD pulmonary CD8 cellsGanglioside GM1 deficiency in effector T cells from NOD mice induces resistance to regulatory T-cell suppressionMouse liver-specific CD8(+) T-cells encounter their cognate antigen and acquire capacity to destroy target hepatocytes.Soluble peptide treatment reverses CD8 T-cell-induced disease in a mouse model of spontaneous tissue-selective autoimmunity.Skeletal muscle interleukin 15 promotes CD8(+) T-cell function and autoimmune myositis.Pathogenic implications for autoimmune mechanisms derived by comparative eQTL analysis of CD4+ versus CD8+ T cells.Enhanced Direct Major Histocompatibility Complex Class I Self-Antigen Presentation Induced by Chlamydia InfectionIdentification of novel IGRP epitopes targeted in type 1 diabetes patients.Differential DNA methylation in umbilical cord blood of infants exposed to low levels of arsenic in utero.Self-peptides prolong survival in murine autoimmunity via reduced IL-2/IL-7-mediated STAT5 signaling, CD8 coreceptor, and V alpha 2 down-regulation.Alveolar epithelial and endothelial cell apoptosis in emphysema: what we know and what we need to know.Cytotoxic T cells modulate inflammation and endogenous opioid analgesia in chronic arthritis.Beyond glycoproteins as galectin counterreceptors: tumor-effector T cell growth control via ganglioside GM1 [corrected].Immune response in chronic obstructive pulmonary disease.Effector and regulatory T cell subsets in diabetes-associated inflammation. Is there a connection with ST2/IL-33 axis? Perspective.Targeted immune interventions for type 1 diabetes: not as easy as it looks!The role of lymphocytes in the development and treatment of alopecia areata.Caerulomycin A suppresses the differentiation of naïve T cells and alleviates the symptoms of experimental autoimmune encephalomyelitis.Cytotoxic lymphocytes and atherosclerosis: significance, mechanisms and therapeutic challenges.Characterization of immune cell phenotypes in adults with autism spectrum disorders.The HLA Region and Autoimmune Disease: Associations and Mechanisms of Action.Selfie: Autoimmunity, boon or bane.Novel model of double transgenic mouse results in autoimmune diabetes in males.Effect of pulse high-volume hemofiltration on Toll-like receptor in patients with severe sepsis.Protective role of LGP2 in influenza virus pathogenesis.
P2860
Q26858844-19570962-2D4E-4138-B4B5-0D4114B2A207Q27671616-9340ECA9-5C67-4EDE-86B1-870DBE4B52B3Q30277773-BBACD294-EAC8-4B2F-B415-97F1F1A003D2Q33331089-E3F5879E-4912-4B9F-A33F-F7EAE048121CQ33417859-D6388D67-D919-495C-A708-91BB2A54A25AQ33618367-541EF6CC-2BEF-4AEA-8F52-134E12D6716EQ33849987-CEE052C3-1BC7-4ECB-9ED9-FE1B40C96AC9Q33868555-3A1BE688-C0A6-41D0-A7A1-19E2A7D8E62CQ34069924-CB0ADC24-806D-424B-8208-556DAAB54B07Q34150054-1AB5D4DF-DE3B-4205-B78E-916EE9DA912DQ34224580-FEF0EC2A-672F-4C8A-9DBF-F1C7E763D02BQ34287499-8CC7BF46-9ED7-4B75-8EF3-209D5976606FQ34336169-F0135C19-6A3F-469A-8ABB-1818D046B16BQ34706762-94BE302C-D10A-4E0C-A1F3-67C943937768Q34802178-C2000B9F-34C9-4E76-851B-6C801DF848CBQ34971707-B0DB48F4-1F2C-4656-BA8E-049AA63CEFE8Q35180105-706EA464-069A-4473-A02A-3420008C386FQ35737929-20FF0202-5407-4C07-9F49-5CA5A7FBBBE6Q36091144-674B8791-1979-412B-A8EA-0DF7B5705255Q36096978-5AE93799-938D-4664-8E6D-93BA230D2B36Q36293782-861CCAA4-D77D-4CC9-98DB-053492EBD595Q36513486-5D839B8E-21D3-424C-8B23-3E8F99DDF1B7Q36725757-FA3265A5-2371-4F81-87F1-787315257CE6Q37070803-17559723-A315-4C32-BDE6-DDB535E4B210Q37316034-B4C77F25-F24A-47F6-B2D4-A8AE341A8D80Q37479097-8072A0EC-99A4-449E-BC31-C982155B52E1Q37627969-B01C30CC-7946-4BFA-BDB7-31867C5F44C5Q38004594-894C5713-6A24-461E-9C2B-D389C0B0ACD6Q38144104-3073AA61-9058-47B5-98F8-C66C2E375598Q38189119-9D58E518-BA66-4830-8465-0DDE5FB9DCB3Q38225173-346534B4-29A6-4852-913E-D2BD6ADC90C3Q38627998-1ABF8340-7349-42FE-910A-6946F92413C2Q38661294-4803CEFC-A30A-4EE8-B073-5C92A59B72CAQ39283173-867AC269-9960-40FF-BB80-27DC5B0F1994Q39687061-1B80CC66-DD86-466E-BD96-CEC5FBF6ADD7Q40159351-EFF67204-204C-4683-BC48-CC056C6CEEF4Q40245878-BA3302C1-7186-4049-8FC5-42BE3ED379F9Q40561229-4DD32AB6-C120-4B61-A187-FD73098628E8Q41180543-F22F233B-3387-488C-BB36-559208EBDC9FQ42239259-41BF7040-7C09-4167-8E23-49213590ACB6
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
CD8+ T cells in autoimmunity.
@ast
CD8+ T cells in autoimmunity.
@en
type
label
CD8+ T cells in autoimmunity.
@ast
CD8+ T cells in autoimmunity.
@en
prefLabel
CD8+ T cells in autoimmunity.
@ast
CD8+ T cells in autoimmunity.
@en
P1476
CD8+ T cells in autoimmunity.
@en
P2093
Pere Santamaria
Ulrich Walter
P304
P356
10.1016/J.COI.2005.09.014
P577
2005-10-13T00:00:00Z