Registro:

Referencias:

• Cooper, A.M., Khader, S.A., The role of cytokines in the initiation, expansion, and control of cellular immunity to tuberculosis (2008) Immunol Rev, 226, pp. 191-204
• Ottenhoff, T.H., Kumararatne, D., Casanova, J.L., Novel human immunodeficiencies reveal the essential role of type-I cytokines in immunity to intracellular bacteria (1998) Immunol Today, 19, pp. 491-494
• Hirsch, C.S., Toossi, Z., Othieno, C., Depressed T-cell interferon-gamma responses in pulmonary tuberculosis: Analysis of underlying mechanisms and modulation with therapy (1999) J Infect Dis, 180, pp. 2069-2073
• Lin, Y., Zhang, M., Hofman, F.M., Gong, J., Barnes, P.F., Absence of a prominent Th2 cytokine response in human tuberculosis (1996) Infect Immun, 64, pp. 1351-1356
• Mosenden, R., Taskén, K., Cyclic AMP-mediated immune regulation–overview of mechanisms of action in T cells (2011) Cell Signal, 23, pp. 1009-1016
• Bopp, T., Becker, C., Klein, M., Cyclic adenosine monophosphate is a key component of regulatory T cell-mediated suppression (2007) J Exp Med, 204, pp. 1303-1310
• Vang, A.G., Housley, W., Dong, H., Regulatory T-cells and cAMP suppress effector T-cells independently of PKA-CREM/ICER: A potential role for Epac (2013) Biochem J, 456, pp. 463-473
• Ahuja, N., Kumar, P., Bhatnagar, R., The adenylate cyclase toxins (2004) Crit Rev Microbiol, 30, pp. 187-196
• Rossi Paccani, S., Benagiano, M., Capitani, N., The adenylate cyclase toxins of Bacillus anthracis and Bordetella pertussis promote Th2 cell development by shaping T cell antigen receptor signaling (2009) PLoS Pathog, 5
• Agarwal, N., Lamichhane, G., Gupta, R., Nolan, S., Bishai, W.R., Cyclic AMP intoxication of macrophages by a Mycobacterium tuberculosis adenylate cyclase (2009) Nature, 460, pp. 98-102
• Gupta, S., Winglee, K., Gallo, R., Bishai, W.R., Bacterial subversion of cAMP signalling inhibits cathelicidin expression, which is required for innate resistance to Mycobacterium tuberculosis (2017) J Pathol, 242, pp. 52-61
• Samten, B., Townsend, J.C., Sever-Chroneos, Z., Pasquinelli, V., Barnes, P.F., Chroneos, Z.C., An antibody against the surfactant protein A (SP-A)-binding domain of the SP-A receptor inhibits T cell-mediated immune responses to Mycobacterium tuberculosis (2008) J Leukoc Biol, 84, pp. 115-123
• Samten, B., Ghosh, P., Yi, A.K., Reduced expression of nuclear cyclic adenosine 5’-monophosphate response element-binding proteins and IFN-gamma promoter function in disease due to an intracellular pathogen (2002) J Immunol, 168, pp. 3520-3526
• Samten, B., Howard, S.T., Weis, S.E., Cyclic AMP response element-binding protein positively regulates production of IFN-gamma by T cells in response to a microbial pathogen (2005) J Immunol, 174, pp. 6357-6363
• Samten, B., Townsend, J.C., Weis, S.E., CREB, ATF, and AP-1 transcription factors regulate IFN-gamma secretion by human T cells in response to mycobacterial antigen (2008) J Immunol, 181, pp. 2056-2064
• Samten, B., Thomas, E.K., Gong, J., Barnes, P.F., Depressed CD40 ligand expression contributes to reduced gamma interferon production in human tuberculosis (2000) Infect Immun, 68, pp. 3002-3006
• Hirsch, C.S., Hussain, R., Toossi, Z., Dawood, G., Shahid, F., Ellner, J.J., Cross-modulation by transforming growth factor beta in human tuberculosis: Suppression of antigen-driven blasto-genesis and interferon gamma production (1996) Proc Natl Acad Sci U S A, 93, pp. 3193-3198
• Rothermel, J.D., Stec, W.J., Baraniak, J., Jastorff, B., Botelho, L.H., Inhibition of glycogenolysis in isolated rat hepatocytes by the Rp diastereomer of adenosine cyclic 3’,5’-phosphoro-thioate (1983) J Biol Chem, 258, pp. 12125-12128
• Bos, J.L., Epac: A new cAMP target and new avenues in cAMP research (2003) Nat Rev Mol Cell Biol, 4, pp. 733-738
• Kang, G., Joseph, J.W., Chepurny, O.G., Epac-selective cAMP analog 8-pCPT-2’-O-Me-cAMP as a stimulus for Ca2+-induced Ca2+ release and exocytosis in pancreatic beta-cells (2003) J Biol Chem, 278, pp. 8279-8285
• Lokshin, A., Raskovalova, T., Huang, X., Zacharia, L.C., Jackson, E.K., Gorelik, E., Adenosine-mediated inhibition of the cytotoxic activity and cytokine production by activated natural killer cells (2006) Cancer Res, 66, pp. 7758-7765
• Raskovalova, T., Lokshin, A., Huang, X., Inhibition of cytokine production and cytotoxic activity of human antimelanoma specific CD8+ and CD4+ T lymphocytes by adenosine-protein kinase A type I signaling (2007) Cancer Res, 67, pp. 5949-5956
• Penix, L.A., Sweetser, M.T., Weaver, W.M., Hoeffler, J.P., Kerppola, T.K., Wilson, C.B., The proximal regulatory element of the interferon-gamma promoter mediates selective expression in T cells (1996) J Biol Chem, 271, pp. 31964-31972
• Cremer, T.J., Fatehchand, K., Shah, P., MiR-155 induction by microbes/microbial ligands requires NF-κB-dependent de novo protein synthesis (2012) Front Cell Infect Microbiol, 2, p. 73
• Rothchild, A.C., Sissons, J.R., Shafiani, S., MiR-155-regulated molecular network orchestrates cell fate in the innate and adaptive immune response to Mycobacterium tuberculosis (2016) Proc Natl Acad Sci U S A, 113, pp. E6172-E6181
• Wang, J., Yang, K., Zhou, L., MicroRNA-155 promotes autophagy to eliminate intracellular mycobacteria by targeting Rheb (2013) PLoS Pathog, 9
• Wang, C., Yang, S., Sun, G., Comparative miRNA expression profiles in individuals with latent and active tuberculosis (2011) PLoS One, 6
• Bonecini-Almeida, M.G., Ho, J.L., Boéchat, N., Down-modulation of lung immune responses by interleukin-10 and transforming growth factor beta (TGF-beta) and analysis of TGF-beta receptors I and II in active tuberculosis (2004) Infect Immun, 72, pp. 2628-2634
• Kobayashi, T., Matsuoka, K., Sheikh, S.Z., IL-10 regulates Il12b expression via histone deacetylation: Implications for intestinal macrophage homeostasis (2012) J Immunol, 189, pp. 1792-1799
• Lyakh, L.A., Sanford, M., Chekol, S., Young, H.A., Roberts, A.B., TGF-beta and vitamin D3 utilize distinct pathways to suppress IL-12 production and modulate rapid differentiation of human monocytes into CD83+ dendritic cells (2005) J Immunol, 174, pp. 2061-2070
• Weng, L., Wang, W., Su, X., The effect of cAMP-PKA activation on TGF-β1-induced profibrotic signaling (2015) Cell Physiol Biochem, 36, pp. 1911-1927
• Spensieri, F., Fedele, G., Fazio, C., Bordetella pertussis inhibition of interleukin-12 (IL-12) p70 in human monocyte-derived dendritic cells blocks IL-12 p35 through adenylate cyclase toxin-dependent cyclic AMP induction (2006) Infect Immun, 74, pp. 2831-2838
• Knapp, G.S., McDonough, K.A., Cyclic AMP signaling in mycobacteria (2014) Microbiol Spectr, 2
• Tasken, K., Ruppelt, A., Negative regulation of T-cell receptor activation by the cAMP-PKA-Csk signalling pathway in T-cell lipid rafts (2006) Front Biosci, 11, pp. 2929-2939
• Torgersen, K.M., Vang, T., Abrahamsen, H., Yaqub, S., Taskén, K., Molecular mechanisms for protein kinase A-mediated modulation of immune function (2002) Cell Signal, 14, pp. 1-9
• Johansson, C.C., Dahle, M.K., Blomqvist, S.R., A winged helix forkhead (FOXD2) tunes sensitivity to cAMP in T lymphocytes through regulation of cAMP-dependent protein kinase RIalpha (2003) J Biol Chem, 278, pp. 17573-17579
• Liu, L., Yen, J.H., Ganea, D., A novel VIP signaling pathway in T cells cAMP–>protein tyrosine phosphatase (SHP-2?)–>JAK2/ STAT4–>Th1 differentiation (2007) Peptides, 28, pp. 1814-1824
• Hickey, F.B., Brereton, C.F., Mills, K.H., Adenylate cycalse toxin of Bordetella pertussis inhibits TLR-induced IRF-1 and IRF-8 activation and IL-12 production and enhances IL-10 through MAPK activation in dendritic cells (2008) J Leukoc Biol, 84, pp. 234-243
• Platzer, C., Meisel, C., Vogt, K., Platzer, M., Volk, H.D., Up-regulation of monocytic IL-10 by tumor necrosis factor-alpha and cAMP elevating drugs (1995) Int Immunol, 7, pp. 517-523
• Aziz, M., Holodick, N.E., Rothstein, T.L., Wang, P., B-1a cells protect mice from sepsis: Critical role of CREB (2017) J Immunol, 199, pp. 750-760
• Aronoff, D.M., Carstens, J.K., Chen, G.H., Toews, G.B., Peters-Golden, M., Short communication: Differences between macrophages and dendritic cells in the cyclic AMP-dependent regulation of lipopolysaccharide-induced cytokine and che-mokine synthesis (2006) J Interferon Cytokine Res, 26, pp. 827-833
• Rueda, C.M., Jackson, C.M., Chougnet, C.A., Regulatory T-cell-mediated suppression of conventional T-cells and dendritic cells by different cAMP intracellular pathways (2016) Front Immunol, 7, p. 216
• Whittaker, E., Nicol, M., Zar, H.J., Kampmann, B., Regulatory T cells and pro-inflammatory responses predominate in children with tuberculosis (2017) Front Immunol, 8, p. 448
• Pyne, D.V., McDonald, W.A., Morton, D.S., Inhibition of interferon, cytokine, and lymphocyte proliferative responses in elite swimmers with altitude exposure (2000) J Interferon Cytokine Res, 20, pp. 411-418
• Kammer, G.M., Khan, I.U., Malemud, C.J., Deficient type I protein kinase A isozyme activity in systemic lupus erythematosus T lymphocytes (1994) J Clin Invest, 94, pp. 422-430
• Bernardin, G., Kisoka, R.L., Delporte, C., Robberecht, P., Vincent, J.L., Impairment of beta-adrenergic signaling in healthy peripheral blood mononuclear cells exposed to serum from patients with septic shock: Involvement of the inhibitory pathway of adenylyl cyclase stimulation (2003) Shock, 19, pp. 108-112

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------