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Items: 21

1.

Correction to: Virtual memory cells make a major contribution to the response of aged influenza-naïve mice to influenza virus infection.

Lanzer KG, Cookenham T, Reiley WW, Blackman MA.

Immun Ageing. 2018 Aug 21;15:18. doi: 10.1186/s12979-018-0123-x. eCollection 2018.

2.

Virtual memory cells make a major contribution to the response of aged influenza-naïve mice to influenza virus infection.

Lanzer KG, Cookenham T, Reiley WW, Blackman MA.

Immun Ageing. 2018 Aug 8;15:17. doi: 10.1186/s12979-018-0122-y. eCollection 2018. Erratum in: Immun Ageing. 2018 Aug 21;15:18.

3.

Genome-wide identification of interferon-sensitive mutations enables influenza vaccine design.

Du Y, Xin L, Shi Y, Zhang TH, Wu NC, Dai L, Gong D, Brar G, Shu S, Luo J, Reiley W, Tseng YW, Bai H, Wu TT, Wang J, Shu Y, Sun R.

Science. 2018 Jan 19;359(6373):290-296. doi: 10.1126/science.aan8806.

PMID:
29348231
4.

Comparative Safety and Efficacy Profile of a Novel Oil in Water Vaccine Adjuvant Comprising Vitamins A and E and a Catechin in Protective Anti-Influenza Immunity.

Patel S, Faraj Y, Duso DK, Reiley WW, Karlsson EA, Schultz-Cherry S, Vajdy M.

Nutrients. 2017 May 21;9(5). pii: E516. doi: 10.3390/nu9050516.

5.

Interleukin 27R regulates CD4+ T cell phenotype and impacts protective immunity during Mycobacterium tuberculosis infection.

Torrado E, Fountain JJ, Liao M, Tighe M, Reiley WW, Lai RP, Meintjes G, Pearl JE, Chen X, Zak DE, Thompson EG, Aderem A, Ghilardi N, Solache A, McKinstry KK, Strutt TM, Wilkinson RJ, Swain SL, Cooper AM.

J Exp Med. 2015 Aug 24;212(9):1449-63. doi: 10.1084/jem.20141520. Epub 2015 Aug 17.

6.

Maintenance of peripheral T cell responses during Mycobacterium tuberculosis infection.

Reiley WW, Wittmer ST, Ryan LM, Eaton SM, Haynes L, Winslow GM, Woodland DL.

J Immunol. 2012 Nov 1;189(9):4451-8. doi: 10.4049/jimmunol.1201153. Epub 2012 Oct 1.

7.

Inflammatory chemokine receptors regulate CD8(+) T cell contraction and memory generation following infection.

Kohlmeier JE, Reiley WW, Perona-Wright G, Freeman ML, Yager EJ, Connor LM, Brincks EL, Cookenham T, Roberts AD, Burkum CE, Sell S, Winslow GM, Blackman MA, Mohrs M, Woodland DL.

J Exp Med. 2011 Aug 1;208(8):1621-34. doi: 10.1084/jem.20102110. Epub 2011 Jul 25.

8.

Distinct functions of antigen-specific CD4 T cells during murine Mycobacterium tuberculosis infection.

Reiley WW, Shafiani S, Wittmer ST, Tucker-Heard G, Moon JJ, Jenkins MK, Urdahl KB, Winslow GM, Woodland DL.

Proc Natl Acad Sci U S A. 2010 Nov 9;107(45):19408-13. doi: 10.1073/pnas.1006298107. Epub 2010 Oct 20.

9.

In a murine tuberculosis model, the absence of homeostatic chemokines delays granuloma formation and protective immunity.

Khader SA, Rangel-Moreno J, Fountain JJ, Martino CA, Reiley WW, Pearl JE, Winslow GM, Woodland DL, Randall TD, Cooper AM.

J Immunol. 2009 Dec 15;183(12):8004-14. doi: 10.4049/jimmunol.0901937.

10.

Early T-cell responses in tuberculosis immunity.

Winslow GM, Cooper A, Reiley W, Chatterjee M, Woodland DL.

Immunol Rev. 2008 Oct;225:284-99. doi: 10.1111/j.1600-065X.2008.00693.x. Review.

11.

ESAT-6-specific CD4 T cell responses to aerosol Mycobacterium tuberculosis infection are initiated in the mediastinal lymph nodes.

Reiley WW, Calayag MD, Wittmer ST, Huntington JL, Pearl JE, Fountain JJ, Martino CA, Roberts AD, Cooper AM, Winslow GM, Woodland DL.

Proc Natl Acad Sci U S A. 2008 Aug 5;105(31):10961-6. doi: 10.1073/pnas.0801496105. Epub 2008 Jul 30.

12.

Deubiquitinating enzyme CYLD negatively regulates RANK signaling and osteoclastogenesis in mice.

Jin W, Chang M, Paul EM, Babu G, Lee AJ, Reiley W, Wright A, Zhang M, You J, Sun SC.

J Clin Invest. 2008 May;118(5):1858-66. doi: 10.1172/JCI34257.

13.

Cutting edge: T-bet and IL-27R are critical for in vivo IFN-gamma production by CD8 T cells during infection.

Mayer KD, Mohrs K, Reiley W, Wittmer S, Kohlmeier JE, Pearl JE, Cooper AM, Johnson LL, Woodland DL, Mohrs M.

J Immunol. 2008 Jan 15;180(2):693-7.

14.

Regulation of early wave of germ cell apoptosis and spermatogenesis by deubiquitinating enzyme CYLD.

Wright A, Reiley WW, Chang M, Jin W, Lee AJ, Zhang M, Sun SC.

Dev Cell. 2007 Nov;13(5):705-16.

15.

Deubiquitinating enzyme CYLD negatively regulates the ubiquitin-dependent kinase Tak1 and prevents abnormal T cell responses.

Reiley WW, Jin W, Lee AJ, Wright A, Wu X, Tewalt EF, Leonard TO, Norbury CC, Fitzpatrick L, Zhang M, Sun SC.

J Exp Med. 2007 Jun 11;204(6):1475-85. Epub 2007 Jun 4.

16.

Deubiquitinating enzyme CYLD regulates the peripheral development and naive phenotype maintenance of B cells.

Jin W, Reiley WR, Lee AJ, Wright A, Wu X, Zhang M, Sun SC.

J Biol Chem. 2007 May 25;282(21):15884-93. Epub 2007 Mar 27.

17.

Regulation of T cell development by the deubiquitinating enzyme CYLD.

Reiley WW, Zhang M, Jin W, Losiewicz M, Donohue KB, Norbury CC, Sun SC.

Nat Immunol. 2006 Apr;7(4):411-7. Epub 2006 Feb 26.

PMID:
16501569
18.

Regulation of the deubiquitinating enzyme CYLD by IkappaB kinase gamma-dependent phosphorylation.

Reiley W, Zhang M, Wu X, Granger E, Sun SC.

Mol Cell Biol. 2005 May;25(10):3886-95.

20.

Negative regulation of JNK signaling by the tumor suppressor CYLD.

Reiley W, Zhang M, Sun SC.

J Biol Chem. 2004 Dec 31;279(53):55161-7. Epub 2004 Oct 20.

21.

IkappaB kinase is an essential component of the Tpl2 signaling pathway.

Waterfield M, Jin W, Reiley W, Zhang M, Sun SC.

Mol Cell Biol. 2004 Jul;24(13):6040-8.

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