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Journal Abstract Search

662 related items for PubMed ID: 31681316

  • 1. LFA-1 Controls Th1 and Th17 Motility Behavior in the Inflamed Central Nervous System.
    Dusi S, Angiari S, Pietronigro EC, Lopez N, Angelini G, Zenaro E, Della Bianca V, Tosadori G, Paris F, Amoruso A, Carlucci T, Constantin G, Rossi B.
    Front Immunol; 2019; 10():2436. PubMed ID: 31681316
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  • 3. Th17 lymphocytes traffic to the central nervous system independently of α4 integrin expression during EAE.
    Rothhammer V, Heink S, Petermann F, Srivastava R, Claussen MC, Hemmer B, Korn T.
    J Exp Med; 2011 Nov 21; 208(12):2465-76. PubMed ID: 22025301
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  • 5. Melatonin controls experimental autoimmune encephalomyelitis by altering the T effector/regulatory balance.
    Álvarez-Sánchez N, Cruz-Chamorro I, López-González A, Utrilla JC, Fernández-Santos JM, Martínez-López A, Lardone PJ, Guerrero JM, Carrillo-Vico A.
    Brain Behav Immun; 2015 Nov 21; 50():101-114. PubMed ID: 26130320
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  • 8. Dulaglutide Modulates the Development of Tissue-Infiltrating Th1/Th17 Cells and the Pathogenicity of Encephalitogenic Th1 Cells in the Central Nervous System.
    Chiou HC, Lin MW, Hsiao PJ, Chen CL, Chiao S, Lin TY, Chen YC, Wu DC, Lin MH.
    Int J Mol Sci; 2019 Mar 29; 20(7):. PubMed ID: 30934882
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  • 9. De novo central nervous system processing of myelin antigen is required for the initiation of experimental autoimmune encephalomyelitis.
    Tompkins SM, Padilla J, Dal Canto MC, Ting JP, Van Kaer L, Miller SD.
    J Immunol; 2002 Apr 15; 168(8):4173-83. PubMed ID: 11937578
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  • 12. Selective CB2 receptor activation ameliorates EAE by reducing Th17 differentiation and immune cell accumulation in the CNS.
    Kong W, Li H, Tuma RF, Ganea D.
    Cell Immunol; 2014 Jan 15; 287(1):1-17. PubMed ID: 24342422
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  • 13. IL-7/IL-7 Receptor Signaling Differentially Affects Effector CD4+ T Cell Subsets Involved in Experimental Autoimmune Encephalomyelitis.
    Arbelaez CA, Glatigny S, Duhen R, Eberl G, Oukka M, Bettelli E.
    J Immunol; 2015 Sep 01; 195(5):1974-83. PubMed ID: 26223651
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  • 15. Regulation of Th1 cells and experimental autoimmune encephalomyelitis by glycogen synthase kinase-3.
    Beurel E, Kaidanovich-Beilin O, Yeh WI, Song L, Palomo V, Michalek SM, Woodgett JR, Harrington LE, Eldar-Finkelman H, Martinez A, Jope RS.
    J Immunol; 2013 May 15; 190(10):5000-11. PubMed ID: 23606540
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  • 16. STEAP4 expression in CNS resident cells promotes Th17 cell-induced autoimmune encephalomyelitis.
    Zhao J, Liao Y, Miller-Little W, Xiao J, Liu C, Li X, Li X, Kang Z.
    J Neuroinflammation; 2021 Apr 20; 18(1):98. PubMed ID: 33879167
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  • 17. Functional and pathogenic differences of Th1 and Th17 cells in experimental autoimmune encephalomyelitis.
    Domingues HS, Mues M, Lassmann H, Wekerle H, Krishnamoorthy G.
    PLoS One; 2010 Nov 29; 5(11):e15531. PubMed ID: 21209700
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  • 18. MicroRNA223 promotes pathogenic T-cell development and autoimmune inflammation in central nervous system in mice.
    Satoorian T, Li B, Tang X, Xiao J, Xing W, Shi W, Lau KH, Baylink DJ, Qin X.
    Immunology; 2016 Aug 29; 148(4):326-38. PubMed ID: 27083389
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  • 19. Silencing c-Rel in macrophages dampens Th1 and Th17 immune responses and alleviates experimental autoimmune encephalomyelitis in mice.
    Zhang H, Bi J, Yi H, Fan T, Ruan Q, Cai L, Chen YH, Wan X.
    Immunol Cell Biol; 2017 Aug 29; 95(7):593-600. PubMed ID: 28202908
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  • 20. Functional characteristics of Th1, Th17, and ex-Th17 cells in EAE revealed by intravital two-photon microscopy.
    Loos J, Schmaul S, Noll TM, Paterka M, Schillner M, Löffel JT, Zipp F, Bittner S.
    J Neuroinflammation; 2020 Nov 26; 17(1):357. PubMed ID: 33243290
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