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Items: 1 to 20 of 108

1.

Autophagy is redundant for the host defense against systemic Candida albicans infections.

Smeekens SP, Malireddi RK, Plantinga TS, Buffen K, Oosting M, Joosten LA, Kullberg BJ, Perfect JR, Scott WK, van de Veerdonk FL, Xavier RJ, van de Vosse E, Kanneganti TD, Johnson MD, Netea MG.

Eur J Clin Microbiol Infect Dis. 2014 May;33(5):711-22. doi: 10.1007/s10096-013-2002-x. Epub 2013 Nov 8.

PMID:
24202731
2.

Macrophage autophagy in immunity to Cryptococcus neoformans and Candida albicans.

Nicola AM, Albuquerque P, Martinez LR, Dal-Rosso RA, Saylor C, De Jesus M, Nosanchuk JD, Casadevall A.

Infect Immun. 2012 Sep;80(9):3065-76. doi: 10.1128/IAI.00358-12. Epub 2012 Jun 18.

3.

Redundant role of TLR9 for anti-Candida host defense.

van de Veerdonk FL, Netea MG, Jansen TJ, Jacobs L, Verschueren I, van der Meer JW, Kullberg BJ.

Immunobiology. 2008;213(8):613-20. doi: 10.1016/j.imbio.2008.05.002. Epub 2008 Jun 26.

PMID:
18950591
4.
5.

The Role of Dectin-2 for Host Defense Against Disseminated Candidiasis.

Ifrim DC, Quintin J, Courjol F, Verschueren I, van Krieken JH, Koentgen F, Fradin C, Gow NA, Joosten LA, van der Meer JW, van de Veerdonk F, Netea MG.

J Interferon Cytokine Res. 2016 Apr;36(4):267-76. doi: 10.1089/jir.2015.0040. Epub 2016 Jan 27.

6.

Role of autophagy genetic variants for the risk of Candida infections.

Rosentul DC, Plantinga TS, Farcas M, Oosting M, Hamza OJ, Scott WK, Alexander BD, Yang JC, Laird GM, Joosten LA, van der Meer JW, Perfect JR, Kullberg BJ, van der Ven AJ, Johnson MD, Netea MG.

Med Mycol. 2014 May;52(4):333-41. doi: 10.1093/mmy/myt035. Epub 2014 Apr 8.

7.

Activation of murine invariant NKT cells promotes susceptibility to candidiasis by IL-10 induced modulation of phagocyte antifungal activity.

Haraguchi N, Kikuchi N, Morishima Y, Matsuyama M, Sakurai H, Shibuya A, Shibuya K, Taniguchi M, Ishii Y.

Eur J Immunol. 2016 Jul;46(7):1691-703. doi: 10.1002/eji.201545987. Epub 2016 May 27.

8.

A limited role of iNKT cells in controlling systemic Candida albicans infections.

Tarumoto N, Kinjo Y, Ueno K, Okawara A, Watarai H, Taniguchi M, Maesaki S, Miyazaki Y.

Jpn J Infect Dis. 2012;65(6):522-6.

9.

Normal host defense during systemic candidiasis in mannose receptor-deficient mice.

Lee SJ, Zheng NY, Clavijo M, Nussenzweig MC.

Infect Immun. 2003 Jan;71(1):437-45.

10.

The RIG-I-like helicase receptor MDA5 (IFIH1) is involved in the host defense against Candida infections.

Jaeger M, van der Lee R, Cheng SC, Johnson MD, Kumar V, Ng A, Plantinga TS, Smeekens SP, Oosting M, Wang X, Barchet W, Fitzgerald K, Joosten LAB, Perfect JR, Wijmenga C, van de Veerdonk FL, Huynen MA, Xavier RJ, Kullberg BJ, Netea MG.

Eur J Clin Microbiol Infect Dis. 2015 May;34(5):963-974. doi: 10.1007/s10096-014-2309-2. Epub 2015 Jan 13.

11.
12.

Fas-FasL interactions modulate host defense against systemic Candida albicans infection.

Netea MG, van Der Meer JW, Meis JF, Kullberg BJ.

J Infect Dis. 1999 Nov;180(5):1648-55.

PMID:
10515828
13.

Differential role of NK cells against Candida albicans infection in immunocompetent or immunocompromised mice.

Quintin J, Voigt J, van der Voort R, Jacobsen ID, Verschueren I, Hube B, Giamarellos-Bourboulis EJ, van der Meer JW, Joosten LA, Kurzai O, Netea MG.

Eur J Immunol. 2014 Aug;44(8):2405-14. doi: 10.1002/eji.201343828. Epub 2014 May 27.

14.

Functional genomics identifies type I interferon pathway as central for host defense against Candida albicans.

Smeekens SP, Ng A, Kumar V, Johnson MD, Plantinga TS, van Diemen C, Arts P, Verwiel ET, Gresnigt MS, Fransen K, van Sommeren S, Oosting M, Cheng SC, Joosten LA, Hoischen A, Kullberg BJ, Scott WK, Perfect JR, van der Meer JW, Wijmenga C, Netea MG, Xavier RJ.

Nat Commun. 2013;4:1342. doi: 10.1038/ncomms2343.

15.

A virtual infection model quantifies innate effector mechanisms and Candida albicans immune escape in human blood.

Hünniger K, Lehnert T, Bieber K, Martin R, Figge MT, Kurzai O.

PLoS Comput Biol. 2014 Feb 20;10(2):e1003479. doi: 10.1371/journal.pcbi.1003479. eCollection 2014 Feb.

16.

Role of Dectin-2 for host defense against systemic infection with Candida glabrata.

Ifrim DC, Bain JM, Reid DM, Oosting M, Verschueren I, Gow NA, van Krieken JH, Brown GD, Kullberg BJ, Joosten LA, van der Meer JW, Koentgen F, Erwig LP, Quintin J, Netea MG.

Infect Immun. 2014 Mar;82(3):1064-73. doi: 10.1128/IAI.01189-13. Epub 2013 Dec 16.

17.

Regulation of innate immune response to Candida albicans infections by αMβ2-Pra1p interaction.

Soloviev DA, Jawhara S, Fonzi WA.

Infect Immun. 2011 Apr;79(4):1546-58. doi: 10.1128/IAI.00650-10. Epub 2011 Jan 18.

18.

Recognition and blocking of innate immunity cells by Candida albicans chitin.

Mora-Montes HM, Netea MG, Ferwerda G, Lenardon MD, Brown GD, Mistry AR, Kullberg BJ, O'Callaghan CA, Sheth CC, Odds FC, Brown AJ, Munro CA, Gow NA.

Infect Immun. 2011 May;79(5):1961-70. doi: 10.1128/IAI.01282-10. Epub 2011 Feb 28.

19.

Neutrophil activation by Candida glabrata but not Candida albicans promotes fungal uptake by monocytes.

Duggan S, Essig F, Hünniger K, Mokhtari Z, Bauer L, Lehnert T, Brandes S, Häder A, Jacobsen ID, Martin R, Figge MT, Kurzai O.

Cell Microbiol. 2015 Sep;17(9):1259-76. doi: 10.1111/cmi.12443. Epub 2015 May 5.

PMID:
25850517
20.

Role of TLR1 and TLR6 in the host defense against disseminated candidiasis.

Netea MG, van de Veerdonk F, Verschueren I, van der Meer JW, Kullberg BJ.

FEMS Immunol Med Microbiol. 2008 Jan;52(1):118-23. Epub 2007 Nov 22.

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