Tumor-necrosis factor impairs CD4+ T cell–mediated immunological control in chronic viral infection
暂无分享,去创建一个
A. Oxenius | M. Heikenwalder | J. Trebicka | D. Maisel | M. Beyer | J. Schultze | P. Lang | J. Chemnitz | A. Hofmann | C. Kurts | P. Knolle | K. Lang | C. Lehmann | R. Schierwagen | G. Fätkenheuer | T. Buch | Yasser Thabet | Z. Abdullah | Lisa M. Schmidleithner | P. Hartmann | A. Popov | Maren Köhne | Jil Sander | Prashant V. Shinde | Zeinab Abdullah
[1] Paul A. Lyons,et al. T cell exhaustion, costimulation and clinical outcome in autoimmunity and infection , 2015, Nature.
[2] C. Hunter,et al. IL-6 as a keystone cytokine in health and disease , 2015, Nature Immunology.
[3] A. Oxenius,et al. Regulation of antiviral T cell responses by type I interferons , 2015, Nature Reviews Immunology.
[4] A. Sher,et al. Type I interferons in infectious disease , 2015, Nature Reviews Immunology.
[5] A. Carrillo-Vico,et al. TNF-α levels in HIV-infected patients after long-term suppressive cART persist as high as in elderly, HIV-uninfected subjects. , 2014, The Journal of antimicrobial chemotherapy.
[6] D. Speiser,et al. T cell differentiation in chronic infection and cancer: functional adaptation or exhaustion? , 2014, Nature Reviews Immunology.
[7] L. BenMohamed,et al. HIV-1 Tat Protein Induces PD-L1 (B7-H1) Expression on Dendritic Cells through Tumor Necrosis Factor Alpha- and Toll-Like Receptor 4-Mediated Mechanisms , 2014, Journal of Virology.
[8] E John Wherry,et al. Molecular and transcriptional basis of CD4⁺ T cell dysfunction during chronic infection. , 2014, Immunity.
[9] D. Douek,et al. Systemic effects of inflammation on health during chronic HIV infection. , 2013, Immunity.
[10] B. Becher,et al. TGF-β Signalling Is Required for CD4+ T Cell Homeostasis But Dispensable for Regulatory T Cell Function , 2013, PLoS biology.
[11] R. Schreiber,et al. Persistent LCMV Infection Is Controlled by Blockade of Type I Interferon Signaling , 2013, Science.
[12] B. Aronow,et al. Blockade of Chronic Type I Interferon Signaling to Control Persistent LCMV Infection , 2013, Science.
[13] M. Sade-Feldman,et al. Tumor necrosis factor-α blocks differentiation and enhances suppressive activity of immature myeloid cells during chronic inflammation. , 2013, Immunity.
[14] T. Mak,et al. Reactive oxygen species delay control of lymphocytic choriomeningitis virus , 2013, Cell Death and Differentiation.
[15] E John Wherry,et al. Network analysis reveals centrally connected genes and pathways involved in CD8+ T cell exhaustion versus memory. , 2012, Immunity.
[16] C. Massone,et al. Safety of anti-tumour necrosis factor agents in patients with chronic hepatitis C infection: a systematic review. , 2011, Rheumatology.
[17] R. Balderas,et al. Repression of the genome organizer SATB1 in regulatory T cells is required for suppressive function and inhibition of effector differentiation , 2011, Nature Immunology.
[18] S. Ghosh,et al. Crosstalk in NF-κB signaling pathways , 2011, Nature Immunology.
[19] E John Wherry,et al. T cell exhaustion , 2011 .
[20] D. Kaufmann,et al. HIV-specific CD4 T cells and immune control of viral replication , 2011, Current opinion in HIV and AIDS.
[21] E. Rosenberg,et al. Transcriptional Profiling of Cd4 T Cells Identifies Distinct Subgroups of Hiv-1 Elite Controllers , 2022 .
[22] R. Obst,et al. Role of antigen persistence and dose for CD4+ T-cell exhaustion and recovery , 2010, Proceedings of the National Academy of Sciences.
[23] S. Sehrawat,et al. Immunity and immunopathology to viruses: what decides the outcome? , 2010, Nature Reviews Immunology.
[24] R. Ahmed,et al. Features of responding T cells in cancer and chronic infection. , 2010, Current opinion in immunology.
[25] D. Solomon,et al. Tumor necrosis factor blockade and the risk of viral infection , 2010, Nature Reviews Rheumatology.
[26] Kristen K. Dang,et al. Genome-Wide mRNA Expression Correlates of Viral Control in CD4+ T-Cells from HIV-1-Infected Individuals , 2010, PLoS pathogens.
[27] S. Habib,et al. Infliximab therapy for HIV positive Crohn's disease: A case report. , 2009, Journal of Crohn's & colitis.
[28] G. McFadden,et al. Cytokine determinants of viral tropism , 2009, Nature Reviews Immunology.
[29] A. Zajac,et al. A Vital Role for Interleukin-21 in the Control of a Chronic Viral Infection , 2009, Science.
[30] K. Sauer,et al. IL-21 Is Required to Control Chronic Viral Infection , 2009, Science.
[31] J. Weber,et al. IL-21R on T Cells Is Critical for Sustained Functionality and Control of Chronic Viral Infection , 2009, Science.
[32] G. Freeman,et al. PD-1 and its ligands in tolerance and immunity. , 2008, Annual review of immunology.
[33] J. Reveille,et al. The use of anti-tumour necrosis factor therapy in HIV-positive individuals with rheumatic disease , 2007, Annals of the rheumatic diseases.
[34] Tanya M. Teslovich,et al. Chronic CD4+ T-Cell Activation and Depletion in Human Immunodeficiency Virus Type 1 Infection: Type I Interferon-Mediated Disruption of T-Cell Dynamics , 2007, Journal of Virology.
[35] T. Zander,et al. RNA fingerprints provide direct evidence for the inhibitory role of TGFbeta and PD-1 on CD4+ T cells in Hodgkin lymphoma. , 2007, Blood.
[36] E. Wherry,et al. Molecular signature of CD8+ T cell exhaustion during chronic viral infection. , 2007, Immunity.
[37] J. Christensen,et al. Differential induction of CD94 and NKG2 in CD4 helper T cells. A consequence of influenza virus infection and interferon‐γ? , 2007, Immunology.
[38] P. Lambert,et al. Protracted Course of Lymphocytic Choriomeningitis Virus WE Infection in Early Life: Induction but Limited Expansion of CD8+ Effector T Cells and Absence of Memory CD8+ T Cells , 2007, Journal of Virology.
[39] K. Rajewsky,et al. Canonical NF-kappaB activity, dispensable for B cell development, replaces BAFF-receptor signals and promotes B cell proliferation upon activation. , 2006, Immunity.
[40] Pablo Tamayo,et al. Gene set enrichment analysis: A knowledge-based approach for interpreting genome-wide expression profiles , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[41] R. Jonsson,et al. A regulatory polymorphism in PDCD1 is associated with susceptibility to systemic lupus erythematosus in humans , 2002, Nature Genetics.
[42] R. Pollard,et al. Kinetics of tumor necrosis factor alpha and soluble TNFRII in HIV-infected patients treated with a triple combination of stavudine, didanosine, and hydroxyurea. , 1997, AIDS research and human retroviruses.
[43] S. Frøland,et al. Effects of intravenous immunoglobulin in vivo on abnormally increased tumor necrosis factor-alpha activity in human immunodeficiency virus type 1 infection. , 1997, The Journal of infectious diseases.
[44] N. Liabakk,et al. Serum Levels of Tumor Necrosis Factor-α (TNFα) and Soluble TNF Receptors in Human Immunodeficiency Virus Type 1 Infection-Correlations to Clinical, Immunologic, and Virologic Parameters , 1994 .
[45] P. Borrow,et al. Molecular basis of viral persistence: a single amino acid change in the glycoprotein of lymphocytic choriomeningitis virus is associated with suppression of the antiviral cytotoxic T-lymphocyte response and establishment of persistence , 1991, Journal of virology.
[46] R. Ahmed,et al. Selection of genetic variants of lymphocytic choriomeningitis virus in spleens of persistently infected mice. Role in suppression of cytotoxic T lymphocyte response and viral persistence , 1984, The Journal of experimental medicine.
[47] M. V. Doyle,et al. Susceptibility of newborn mice with H-2k backgrounds to lymphocytic choriomeningitis virus infection. , 1980, Immunology.
[48] E. Wherry,et al. Acquired transcriptional programming in functional and exhausted virus-specific CD8 T cells. , 2012, Current opinion in HIV and AIDS.
[49] H. Lodish,et al. Troglitazone antagonizes tumor necrosis factor-alpha-induced reprogramming of adipocyte gene expression by inhibiting the transcriptional regulatory functions of NF-kappaB. , 2003, The Journal of biological chemistry.
[50] N. Liabakk,et al. Tumor necrosis factor (TNF) system levels in human immunodeficiency virus-infected patients during highly active antiretroviral therapy: persistent TNF activation is associated with virologic and immunologic treatment failure. , 1999, The Journal of infectious diseases.