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1
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84862822422
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Regulating the adaptive immune response to respiratory virus infection
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Braciale TJ, Sun J, Kim TS: Regulating the adaptive immune response to respiratory virus infection. Nat Rev Immunol 2012, 12:295-305.
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(2012)
Nat Rev Immunol
, vol.12
, pp. 295-305
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Braciale, T.J.1
Sun, J.2
Kim, T.S.3
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2
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46949088340
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Protective influenza-specific CD8 T cell responses require interactions with dendritic cells in the lungs
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This paper first demonstrated that the interaction of effector CD8+ T cells and local DCs promotes the accumulation of influenza-specific T cells in the lung
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McGill J, Van Rooijen N, Legge KL: Protective influenza-specific CD8 T cell responses require interactions with dendritic cells in the lungs. J Exp Med 2008, 205:1635-1646. This paper first demonstrated that the interaction of effector CD8+ T cells and local DCs promotes the accumulation of influenza-specific T cells in the lung.
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(2008)
J Exp Med
, vol.205
, pp. 1635-1646
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McGill, J.1
Van, R.N.2
Legge, K.L.3
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3
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77949518873
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IL-15 trans-presentation by pulmonary dendritic cells promotes effector CD8 T cell survival during influenza virus infection
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McGill J, Van Rooijen N, Legge KL: IL-15 trans-presentation by pulmonary dendritic cells promotes effector CD8 T cell survival during influenza virus infection. J Exp Med 2010, 207:521-534.
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J Exp Med
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, pp. 521-534
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McGill, J.1
Van, R.N.2
Legge, K.L.3
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4
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79955021759
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Dendritic cells and CD28 costimulation are required to sustain virus-specific CD8+ T cell responses during the effector phase in vivo
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Dolfi DV, Duttagupta PA, Boesteanu AC, Mueller YM, Oliai CH, Borowski AB, Katsikis PD: Dendritic cells and CD28 costimulation are required to sustain virus-specific CD8+ T cell responses during the effector phase in vivo. J Immunol 2011, 186:4599-4608.
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J Immunol
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Dolfi, D.V.1
Duttagupta, P.A.2
Boesteanu, A.C.3
Mueller, Y.M.4
Oliai, C.H.5
Borowski, A.B.6
Katsikis, P.D.7
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5
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62049085168
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Effector T cells control lung inflammation during acute influenza virus infection by producing IL-10
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This paper first demonstrated that antiviral effector CD8+ T cells exhibit regulatory functions in the lung by producing IL-10
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Sun J, Madan R, Karp CL, Braciale TJ: Effector T cells control lung inflammation during acute influenza virus infection by producing IL-10. Nat Med 2009, 15:277-284. This paper first demonstrated that antiviral effector CD8+ T cells exhibit regulatory functions in the lung by producing IL-10.
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(2009)
Nat Med
, vol.15
, pp. 277-284
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Sun, J.1
Madan, R.2
Karp, C.L.3
Braciale, T.J.4
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6
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79952994082
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CD4+ T cell help and innate-derived IL-27 induce Blimp-1-dependent IL-10 production by antiviral CTLs
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Sun J, Dodd H, Moser EK, Sharma R, Braciale TJ: CD4+ T cell help and innate-derived IL-27 induce Blimp-1-dependent IL-10 production by antiviral CTLs. Nat Immunol 2011, 12:327-334.
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Nat Immunol
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, pp. 327-334
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Sun, J.1
Dodd, H.2
Moser, E.K.3
Sharma, R.4
Braciale, T.J.5
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7
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78651478078
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Antiviral CD8+ T cell effector activities in situ are regulated by target cell type
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This paper first demonstrated that effector activities of antiviral CD8+ T cells are differentially regulated by the target cell types
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Hufford MM, Kim TS, Sun J, Braciale TJ: Antiviral CD8+ T cell effector activities in situ are regulated by target cell type. J Exp Med 2011, 208:167-180. This paper first demonstrated that effector activities of antiviral CD8+ T cells are differentially regulated by the target cell types.
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(2011)
J Exp Med
, vol.208
, pp. 167-180
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Hufford, M.M.1
Kim, T.S.2
Sun, J.3
Braciale, T.J.4
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8
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84867322956
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Influenza-infected neutrophils within the infected lungs act as antigen presenting cells for anti-viral CD8(+) T cells
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Hufford MM, Richardson G, Zhou H, Manicassamy B, Garcia-Sastre A, Enelow RI, Braciale TJ: Influenza-infected neutrophils within the infected lungs act as antigen presenting cells for anti-viral CD8(+) T cells. PLoS ONE 2012, 7:e46581.
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(2012)
PLoS ONE
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Hufford, M.M.1
Richardson, G.2
Zhou, H.3
Manicassamy, B.4
Garcia-Sastre, A.5
Enelow, R.I.6
Braciale, T.J.7
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9
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58149288679
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CD8 T cells utilize TRAIL to control influenza virus infection
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Brincks EL, Katewa A, Kucaba TA, Griffith TS, Legge KL: CD8 T cells utilize TRAIL to control influenza virus infection. J Immunol 2008, 181:4918-4925.
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J Immunol
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Brincks, E.L.1
Katewa, A.2
Kucaba, T.A.3
Griffith, T.S.4
Legge, K.L.5
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10
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84871830494
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Multiple redundant effector mechanisms of CD8+ T cells protect against influenza infection
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This paper demonstrated that antiviral CD8+ T cells use multiple mechanisms to control influenza virus infection
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Hamada H, Bassity E, Flies A, Strutt TM, Garcia-Hernandez Mde L, McKinstry KK, Zou T, Swain SL, Dutton RW: Multiple redundant effector mechanisms of CD8+ T cells protect against influenza infection. J Immunol 2013, 190:296-306. This paper demonstrated that antiviral CD8+ T cells use multiple mechanisms to control influenza virus infection.
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(2013)
J Immunol
, vol.190
, pp. 296-306
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Hamada, H.1
Bassity, E.2
Flies, A.3
Strutt, T.M.4
Garcia-Hernandez, M.L.5
McKinstry, K.K.6
Zou, T.7
Swain, S.L.8
Dutton, R.W.9
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11
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77952240977
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Memory CD4+ T cells induce innate responses independently of pathogen
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551p following 564
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Strutt TM, McKinstry KK, Dibble JP, Winchell C, Kuang Y, Curtis JD, Huston G, Dutton RW, Swain SL: Memory CD4+ T cells induce innate responses independently of pathogen. Nat Med 2010, 16:558-564 (551p following 564).
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(2010)
Nat Med
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Strutt, T.M.1
McKinstry, K.K.2
Dibble, J.P.3
Winchell, C.4
Kuang, Y.5
Curtis, J.D.6
Huston, G.7
Dutton, R.W.8
Swain, S.L.9
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12
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65449145937
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Tc17, a unique subset of CD8 T cells that can protect against lethal influenza challenge
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Hamada H, Garcia-Hernandez Mde L, Reome JB, Misra SK, Strutt TM, McKinstry KK, Cooper AM, Swain SL, Dutton RW: Tc17, a unique subset of CD8 T cells that can protect against lethal influenza challenge. J Immunol 2009, 182:3469-3481.
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(2009)
J Immunol
, vol.182
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Hamada, H.1
Garcia-Hernandez, M.L.2
Reome, J.B.3
Misra, S.K.4
Strutt, T.M.5
McKinstry, K.K.6
Cooper, A.M.7
Swain, S.L.8
Dutton, R.W.9
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13
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67649226607
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IL-10 deficiency unleashes an influenza-specific Th17 response and enhances survival against high-dose challenge
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McKinstry KK, Strutt TM, Buck A, Curtis JD, Dibble JP, Huston G, Tighe M, Hamada H, Sell S, Dutton RW et al.: IL-10 deficiency unleashes an influenza-specific Th17 response and enhances survival against high-dose challenge. J Immunol 2009, 182:7353-7363.
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J Immunol
, vol.182
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McKinstry, K.K.1
Strutt, T.M.2
Buck, A.3
Curtis, J.D.4
Dibble, J.P.5
Huston, G.6
Tighe, M.7
Hamada, H.8
Sell, S.9
Dutton, R.W.10
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14
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77951490811
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A detrimental effect of interleukin- 10 on protective pulmonary humoral immunity during primary influenza A virus infection
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Sun K, Torres L, Metzger DW: A detrimental effect of interleukin- 10 on protective pulmonary humoral immunity during primary influenza A virus infection. J Virol 2010, 84:5007-5014.
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(2010)
J Virol
, vol.84
, pp. 5007-5014
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Sun, K.1
Torres, L.2
Metzger, D.W.3
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15
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84868521662
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Persistent loss of IL-27 responsiveness in CD8+ memory T cells abrogates IL-10 expression in a recall response
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Perona-Wright G, Kohlmeier JE, Bassity E, Freitas TC, Mohrs K, Cookenham T, Situ H, Pearce EJ, Woodland DL, Mohrs M: Persistent loss of IL-27 responsiveness in CD8+ memory T cells abrogates IL-10 expression in a recall response. Proc Natl Acad Sci USA 2012, 109:18535-18540.
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Proc Natl Acad Sci USA
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Perona-Wright, G.1
Kohlmeier, J.E.2
Bassity, E.3
Freitas, T.C.4
Mohrs, K.5
Cookenham, T.6
Situ, H.7
Pearce, E.J.8
Woodland, D.L.9
Mohrs, M.10
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16
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60149106361
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Selected Toll-like receptor ligands and viruses promote helper-independent cytotoxic T cell priming by upregulating CD40L on dendritic cells
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Johnson S, Zhan Y, Sutherland RM, Mount AM, Bedoui S, Brady JL, Carrington EM, Brown LE, Belz GT, Heath WR et al.: Selected Toll-like receptor ligands and viruses promote helper-independent cytotoxic T cell priming by upregulating CD40L on dendritic cells. Immunity 2009, 30:218-227.
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Immunity
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Johnson, S.1
Zhan, Y.2
Sutherland, R.M.3
Mount, A.M.4
Bedoui, S.5
Brady, J.L.6
Carrington, E.M.7
Brown, L.E.8
Belz, G.T.9
Heath, W.R.10
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17
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84863821907
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Pulmonary infection with influenza A virus induces site-specific germinal center and T follicular helper cell responses
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Boyden AW, Legge KL, Waldschmidt TJ: Pulmonary infection with influenza A virus induces site-specific germinal center and T follicular helper cell responses. PLoS ONE 2012, 7:e40733.
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PLoS ONE 2012
, vol.7
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Boyden, A.W.1
Legge, K.L.2
Waldschmidt, T.J.3
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18
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77954393782
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Identification of a novel antigen-presenting cell population modulating antiinfluenza type 2 immunity
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Yoo JK, Galligan CL, Virtanen C, Fish EN: Identification of a novel antigen-presenting cell population modulating antiinfluenza type 2 immunity. J Exp Med 2010, 207:1435-1451.
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Yoo, J.K.1
Galligan, C.L.2
Virtanen, C.3
Fish, E.N.4
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19
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84870272262
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LAPCs promote follicular helper T cell differentiation of Ag-primed CD4+ T cells during respiratory virus infection
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Yoo JK, Fish EN, Braciale TJ: LAPCs promote follicular helper T cell differentiation of Ag-primed CD4+ T cells during respiratory virus infection. J Exp Med 2012, 209:1853-1867.
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J Exp Med
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, pp. 1853-1867
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Yoo, J.K.1
Fish, E.N.2
Braciale, T.J.3
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20
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84870283741
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B and T cells collaborate in antiviral responses via IL-6, IL-21, and transcriptional activator and coactivator, Oct2 and OBF-1
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Karnowski A, Chevrier S, Belz GT, Mount A, Emslie D, D'Costa K, Tarlinton DM, Kallies A, Corcoran LM: B and T cells collaborate in antiviral responses via IL-6, IL-21, and transcriptional activator and coactivator, Oct2 and OBF-1. J Exp Med 2012, 209:2049-2064.
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J Exp Med
, vol.209
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Karnowski, A.1
Chevrier, S.2
Belz, G.T.3
Mount, A.4
Emslie, D.5
D'costa, K.6
Tarlinton, D.M.7
Kallies, A.8
Corcoran, L.M.9
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21
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84861423126
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Interleukin-2 inhibits germinal center formation by limiting T follicular helper cell differentiation
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Ballesteros-Tato A, Leon B, Graf BA, Moquin A, Adams PS, Lund FE, Randall TD: Interleukin-2 inhibits germinal center formation by limiting T follicular helper cell differentiation. Immunity 2012, 36:847-856.
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Immunity
, vol.36
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Ballesteros-Tato, A.1
Leon, B.2
Graf, B.A.3
Moquin, A.4
Adams, P.S.5
Lund, F.E.6
Randall, T.D.7
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22
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84863991008
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Multifunctional CD4 cells expressing gamma interferon and perforin mediate protection against lethal influenza virus infection
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This paper demonstrated that influenza infection in the lung induces the development of cytotoxic CD4+ T cells at the site of infection and the transfer of these CD4+ T cells confers both cytokine and cytotoxicitydependent protection against influenza challenge
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Brown DM, Lee S, Garcia-Hernandez Mde L, Swain SL: Multifunctional CD4 cells expressing gamma interferon and perforin mediate protection against lethal influenza virus infection. J Virol 2012, 86:6792-6803. This paper demonstrated that influenza infection in the lung induces the development of cytotoxic CD4+ T cells at the site of infection and the transfer of these CD4+ T cells confers both cytokine and cytotoxicitydependent protection against influenza challenge.
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(2012)
J Virol
, vol.86
, pp. 6792-6803
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Brown, D.M.1
Lee, S.2
Garcia-Hernandez, M.L.3
Swain, S.L.4
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23
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84862776631
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Preexisting influenza-specific CD4+ T cells correlate with disease protection against influenza challenge in humans
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This paper demonstrated that preexisting CD4+ T cells with cytotoxic potential correlate with disease protection against influenza challenge in humans
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Wilkinson TM, Li CK, Chui CS, Huang AK, Perkins M, Liebner JC, Lambkin-Williams R, Gilbert A, Oxford J, Nicholas B et al.: Preexisting influenza-specific CD4+ T cells correlate with disease protection against influenza challenge in humans. Nat Med 2012, 18:274-280. This paper demonstrated that preexisting CD4+ T cells with cytotoxic potential correlate with disease protection against influenza challenge in humans.
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(2012)
Nat Med
, vol.18
, pp. 274-280
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Wilkinson, T.M.1
Li, C.K.2
Chui, C.S.3
Huang, A.K.4
Perkins, M.5
Liebner, J.C.6
Lambkin-Williams, R.7
Gilbert, A.8
Oxford, J.9
Nicholas, B.10
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24
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84864746073
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Memory CD4+ T cells protect against influenza through multiple synergizing mechanisms
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McKinstry KK, Strutt TM, Kuang Y, Brown DM, Sell S, Dutton RW, Swain SL: Memory CD4+ T cells protect against influenza through multiple synergizing mechanisms. J Clin Invest 2012, 122:2847-2856.
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J Clin Invest
, vol.122
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McKinstry, K.K.1
Strutt, T.M.2
Kuang, Y.3
Brown, D.M.4
Sell, S.5
Dutton, R.W.6
Swain, S.L.7
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25
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50549095577
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Activation of invariant NKT cells enhances the innate immune response and improves the disease course in influenza A virus infection
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Ho LP, Denney L, Luhn K, Teoh D, Clelland C, McMichael AJ: Activation of invariant NKT cells enhances the innate immune response and improves the disease course in influenza A virus infection. Eur J Immunol 2008, 38:1913-1922.
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Eur J Immunol
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Ho, L.P.1
Denney, L.2
Luhn, K.3
Teoh, D.4
Clelland, C.5
McMichael, A.J.6
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26
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77957884099
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The invariant NKT cell subset in anti-viral defenses: A dark horse in anti-influenza immunity?
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Kulkarni RR, Haeryfar SM, Sharif S: The invariant NKT cell subset in anti-viral defenses: A dark horse in anti-influenza immunity? J Leukoc Biol 2010, 88:635-643.
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J Leukoc Biol
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Kulkarni, R.R.1
Haeryfar, S.M.2
Sharif, S.3
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27
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57449088879
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Invariant NKT cells reduce the immunosuppressive activity of influenza A virus-induced myeloid-derived suppressor cells in mice and humans
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This paper demonstrated that NKT cells reduce the activities of myeloidderived suppressor cells and so promote antiviral T cell responses during influenza infection
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De Santo C, Salio M, Masri SH, Lee LY, Dong T, Speak AO, Porubsky S, Booth S, Veerapen N, Besra GS et al.: Invariant NKT cells reduce the immunosuppressive activity of influenza A virus-induced myeloid-derived suppressor cells in mice and humans. J Clin Invest 2008, 118:4036-4048. This paper demonstrated that NKT cells reduce the activities of myeloidderived suppressor cells and so promote antiviral T cell responses during influenza infection.
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J Clin Invest
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, pp. 4036-4048
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De Santo, C.1
Salio, M.2
Masri, S.H.3
Lee, L.Y.4
Dong, T.5
Speak, A.O.6
Porubsky, S.7
Booth, S.8
Veerapen, N.9
Besra, G.S.10
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28
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79956215450
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Potential role of invariant NKT cells in the control of pulmonary inflammation and CD8+ T cell response during acute influenza A virus H3N2 pneumonia
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Paget C, Ivanov S, Fontaine J, Blanc F, Pichavant M, Renneson J, Bialecki E, Pothlichet J, Vendeville C, Barba-Spaeth G et al.: Potential role of invariant NKT cells in the control of pulmonary inflammation and CD8+ T cell response during acute influenza A virus H3N2 pneumonia. J Immunol 2011, 186:5590-5602.
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J Immunol
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Paget, C.1
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Pichavant, M.5
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Bialecki, E.7
Pothlichet, J.8
Vendeville, C.9
Barba-Spaeth, G.10
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29
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84857880036
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Pivotal advance: Invariant NKT cells reduce accumulation of inflammatory monocytes in the lungs and decrease immune-pathology during severe influenza A virus infection
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Kok WL, Denney L, Benam K, Cole S, Clelland C, McMichael AJ, Ho LP: Pivotal advance: invariant NKT cells reduce accumulation of inflammatory monocytes in the lungs and decrease immune-pathology during severe influenza A virus infection. J Leukoc Biol 2012, 91:357-368.
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J Leukoc Biol
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Kok, W.L.1
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Cole, S.4
Clelland, C.5
McMichael, A.J.6
Ho, L.P.7
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30
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84858587977
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Interleukin-22 is produced by invariant natural killer T lymphocytes during influenza A virus infection: Potential role in protection against lung epithelial damages
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Paget C, Ivanov S, Fontaine J, Renneson J, Blanc F, Pichavant M, Dumoutier L, Ryffel B, Renauld JC, Gosset P et al.: Interleukin-22 is produced by invariant natural killer T lymphocytes during influenza A virus infection: potential role in protection against lung epithelial damages. J Biol Chem 2012, 287:8816-8829.
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J Biol Chem
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Paget, C.1
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Pichavant, M.6
Dumoutier, L.7
Ryffel, B.8
Renauld, J.C.9
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31
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Immunosurveillance and Immunoregulation by gd T cells
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Girard M: Immunosurveillance and Immunoregulation by gd T cells. J Invest Dermatol 2006, 126:25-31.
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The aminobisphosphonate pamidronate controls influenza pathogenesis by expanding a gammadelta T cell population in humanized mice
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Tu W, Zheng J, Liu Y, Sia SF, Liu M, Qin G, Ng IH, Xiang Z, Lam KT, Peiris JS et al.: The aminobisphosphonate pamidronate controls influenza pathogenesis by expanding a gammadelta T cell population in humanized mice. J Exp Med 2011, 208:1511-1522.
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Tu, W.1
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