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Items: 19

1.

Human Adaptive Immunity Rescues an Inborn Error of Innate Immunity.

Israel L, Wang Y, Bulek K, Della Mina E, Zhang Z, Pedergnana V, Chrabieh M, Lemmens NA, Sancho-Shimizu V, Descatoire M, Lasseau T, Israelsson E, Lorenzo L, Yun L, Belkadi A, Moran A, Weisman LE, Vandenesch F, Batteux F, Weller S, Levin M, Herberg J, Abhyankar A, Prando C, Itan Y, van Wamel WJ, Picard C, Abel L, Chaussabel D, Li X, Beutler B, Arkwright PD, Casanova JL, Puel A.

Cell. 2017 Feb 23;168(5):789-800.e10. doi: 10.1016/j.cell.2017.01.039.

PMID:
28235196
2.

MyD88 Adapter-like (Mal)/TIRAP Is Required for Cytokine Production by Splenic Ly6CloTLR2hi but Not by Ly6ChiTLR2hi Monocytes during Trypanosoma cruzi Infection.

Gravina HD, Goes AM, Murta SM, Ropert C.

J Biol Chem. 2016 Nov 4;291(45):23832-23841. Epub 2016 Sep 19.

PMID:
27646001
3.

Type I interferon licenses enhanced innate recognition and transcriptional responses to Franciscella tularensis live vaccine strain.

Richard K, Vogel SN, Perkins DJ.

Innate Immun. 2016 Jul;22(5):363-72. doi: 10.1177/1753425916650027. Epub 2016 May 26.

PMID:
27231145
4.

A Decoy Peptide that Disrupts TIRAP Recruitment to TLRs Is Protective in a Murine Model of Influenza.

Piao W, Shirey KA, Ru LW, Lai W, Szmacinski H, Snyder GA, Sundberg EJ, Lakowicz JR, Vogel SN, Toshchakov VY.

Cell Rep. 2015 Jun 30;11(12):1941-52. doi: 10.1016/j.celrep.2015.05.035. Epub 2015 Jun 18.

5.

Microinjection of Francisella tularensis and Listeria monocytogenes reveals the importance of bacterial and host factors for successful replication.

Meyer L, Bröms JE, Liu X, Rottenberg ME, Sjöstedt A.

Infect Immun. 2015 Aug;83(8):3233-42. doi: 10.1128/IAI.00416-15. Epub 2015 Jun 1.

6.

A CRISPR-Cas system enhances envelope integrity mediating antibiotic resistance and inflammasome evasion.

Sampson TR, Napier BA, Schroeder MR, Louwen R, Zhao J, Chin CY, Ratner HK, Llewellyn AC, Jones CL, Laroui H, Merlin D, Zhou P, Endtz HP, Weiss DS.

Proc Natl Acad Sci U S A. 2014 Jul 29;111(30):11163-8. doi: 10.1073/pnas.1323025111. Epub 2014 Jul 14.

7.

Non-essential role for TLR2 and its signaling adaptor Mal/TIRAP in preserving normal lung architecture in mice.

Ruwanpura SM, McLeod L, Lilja AR, Brooks G, Dousha LF, Seow HJ, Bozinovski S, Vlahos R, Hertzog PJ, Anderson GP, Jenkins BJ.

PLoS One. 2013 Oct 29;8(10):e78095. doi: 10.1371/journal.pone.0078095. eCollection 2013.

8.

Identification of binding sites for myeloid differentiation primary response gene 88 (MyD88) and Toll-like receptor 4 in MyD88 adapter-like (Mal).

Bovijn C, Desmet AS, Uyttendaele I, Van Acker T, Tavernier J, Peelman F.

J Biol Chem. 2013 Apr 26;288(17):12054-66. doi: 10.1074/jbc.M112.415810. Epub 2013 Mar 4.

9.

Fine tuning inflammation at the front door: macrophage complement receptor 3-mediates phagocytosis and immune suppression for Francisella tularensis.

Dai S, Rajaram MV, Curry HM, Leander R, Schlesinger LS.

PLoS Pathog. 2013 Jan;9(1):e1003114. doi: 10.1371/journal.ppat.1003114. Epub 2013 Jan 24. Erratum in: PLoS Pathog. 2016 Mar;12(3):e1005504.

10.

Temporal transcriptional response during infection of type II alveolar epithelial cells with Francisella tularensis live vaccine strain (LVS) supports a general host suppression and bacterial uptake by macropinocytosis.

Bradburne CE, Verhoeven AB, Manyam GC, Chaudhry SA, Chang EL, Thach DC, Bailey CL, van Hoek ML.

J Biol Chem. 2013 Apr 12;288(15):10780-91. doi: 10.1074/jbc.M112.362178. Epub 2013 Jan 15.

11.

TLR9-dependent and independent pathways drive activation of the immune system by Propionibacterium acnes.

Tchaptchet S, Gumenscheimer M, Kalis C, Freudenberg N, Hölscher C, Kirschning CJ, Lamers M, Galanos C, Freudenberg MA.

PLoS One. 2012;7(6):e39155. doi: 10.1371/journal.pone.0039155. Epub 2012 Jun 22.

12.

Targeting Toll-like receptor (TLR) signaling by Toll/interleukin-1 receptor (TIR) domain-containing adapter protein/MyD88 adapter-like (TIRAP/Mal)-derived decoy peptides.

Couture LA, Piao W, Ru LW, Vogel SN, Toshchakov VY.

J Biol Chem. 2012 Jul 13;287(29):24641-8. doi: 10.1074/jbc.M112.360925. Epub 2012 May 30.

13.

Both TLR2 and TRIF contribute to interferon-β production during Listeria infection.

Aubry C, Corr SC, Wienerroither S, Goulard C, Jones R, Jamieson AM, Decker T, O'Neill LA, Dussurget O, Cossart P.

PLoS One. 2012;7(3):e33299. doi: 10.1371/journal.pone.0033299. Epub 2012 Mar 14.

14.

Role of TLR signaling in Francisella tularensis-LPS-induced, antibody-mediated protection against Francisella tularensis challenge.

Cole LE, Mann BJ, Shirey KA, Richard K, Yang Y, Gearhart PJ, Chesko KL, Viscardi RM, Vogel SN.

J Leukoc Biol. 2011 Oct;90(4):787-97. doi: 10.1189/jlb.0111014. Epub 2011 Jul 12.

15.

TLR2 signaling contributes to rapid inflammasome activation during F. novicida infection.

Jones CL, Weiss DS.

PLoS One. 2011;6(6):e20609. doi: 10.1371/journal.pone.0020609. Epub 2011 Jun 16.

16.

IglG and IglI of the Francisella pathogenicity island are important virulence determinants of Francisella tularensis LVS.

Bröms JE, Lavander M, Meyer L, Sjöstedt A.

Infect Immun. 2011 Sep;79(9):3683-96. doi: 10.1128/IAI.01344-10. Epub 2011 Jun 20.

17.

Immunity to Francisella.

Cowley SC, Elkins KL.

Front Microbiol. 2011 Feb 16;2:26. doi: 10.3389/fmicb.2011.00026. eCollection 2011.

18.

Human integrin α(3)β(1) regulates TLR2 recognition of lipopeptides from endosomal compartments.

Marre ML, Petnicki-Ocwieja T, DeFrancesco AS, Darcy CT, Hu LT.

PLoS One. 2010 Sep 22;5(9):e12871. doi: 10.1371/journal.pone.0012871.

19.

The proteasome regulates bacterial CpG DNA-induced signaling pathways in murine macrophages.

Gao JJ, Shen J, Kolbert C, Raghavakaimal S, Papasian CJ, Qureshi AA, Vogel SN, Morrison DC, Qureshi N.

Shock. 2010 Oct;34(4):390-401. doi: 10.1097/SHK.0b013e3181d884ea.

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