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Items: 1 to 20 of 594

1.

B7/CD28-dependent CD4+CD25+ regulatory T cells are essential components of the memory-protective immunity to Candida albicans.

Montagnoli C, Bacci A, Bozza S, Gaziano R, Mosci P, Sharpe AH, Romani L.

J Immunol. 2002 Dec 1;169(11):6298-308.

2.

CD80+Gr-1+ myeloid cells inhibit development of antifungal Th1 immunity in mice with candidiasis.

Mencacci A, Montagnoli C, Bacci A, Cenci E, Pitzurra L, Spreca A, Kopf M, Sharpe AH, Romani L.

J Immunol. 2002 Sep 15;169(6):3180-90.

3.

B7-2 (CD86) controls the priming of autoreactive CD4 T cell response against pancreatic islets.

Yadav D, Judkowski V, Flodstrom-Tullberg M, Sterling L, Redmond WL, Sherman L, Sarvetnick N.

J Immunol. 2004 Sep 15;173(6):3631-9.

4.

Memory Th2 effector cells can develop in the absence of B7-1/B7-2, CD28 interactions, and effector Th cells after priming with an intestinal nematode parasite.

Ekkens MJ, Liu Z, Liu Q, Foster A, Whitmire J, Pesce J, Sharpe AH, Urban JF, Gause WC.

J Immunol. 2002 Jun 15;168(12):6344-51.

6.

Dendritic cells pulsed with fungal RNA induce protective immunity to Candida albicans in hematopoietic transplantation.

Bacci A, Montagnoli C, Perruccio K, Bozza S, Gaziano R, Pitzurra L, Velardi A, d'Ostiani CF, Cutler JE, Romani L.

J Immunol. 2002 Mar 15;168(6):2904-13.

7.

CD7 and CD28 are required for murine CD4+CD25+ regulatory T cell homeostasis and prevention of thyroiditis.

Sempowski GD, Cross SJ, Heinly CS, Scearce RM, Haynes BF.

J Immunol. 2004 Jan 15;172(2):787-94.

8.
9.

Memory IL-22-producing CD4+ T cells specific for Candida albicans are present in humans.

Liu Y, Yang B, Zhou M, Li L, Zhou H, Zhang J, Chen H, Wu C.

Eur J Immunol. 2009 Jun;39(6):1472-9. doi: 10.1002/eji.200838811.

11.

Toll-like receptor 2 suppresses immunity against Candida albicans through induction of IL-10 and regulatory T cells.

Netea MG, Sutmuller R, Hermann C, Van der Graaf CA, Van der Meer JW, van Krieken JH, Hartung T, Adema G, Kullberg BJ.

J Immunol. 2004 Mar 15;172(6):3712-8.

12.

An important role of CD80/CD86-CTLA-4 signaling during photocarcinogenesis in mice.

Loser K, Scherer A, Krummen MB, Varga G, Higuchi T, Schwarz T, Sharpe AH, Grabbe S, Bluestone JA, Beissert S.

J Immunol. 2005 May 1;174(9):5298-305.

14.

The CD28 related molecule ICOS: T cell modulation in the presence and absence of B7.1/2 and regulational expression in multiple sclerosis.

Wiendl H, Neuhaus O, Mehling M, Wintterle S, Schreiner B, Mitsdoerffer M, Wienhold W, Weissert R, Wessels J, Hartung HP, Weller M, Tolosa E, Melms A.

J Neuroimmunol. 2003 Jul;140(1-2):177-87.

PMID:
12864987
15.

Altered CD4+ T cell phenotype and function determine the susceptibility to mucosal candidiasis in transgenic mice expressing HIV-1.

Lewandowski D, Marquis M, Aumont F, Lussier-Morin AC, Raymond M, Sénéchal S, Hanna Z, Jolicoeur P, de Repentigny L.

J Immunol. 2006 Jul 1;177(1):479-91.

16.

The capacity of the natural ligands for CD28 to drive IL-4 expression in naïve and antigen-primed CD4+ and CD8+ T cells.

Bian Y, Hiraoka S, Tomura M, Zhou XY, Yashiro-Ohtani Y, Mori Y, Shimizu J, Ono S, Dunussi-Joannopoulos K, Wolf S, Fujiwara H.

Int Immunol. 2005 Jan;17(1):73-83. Epub 2004 Nov 29.

PMID:
15569772
17.

Comparison of thymocyte development and cytokine production in CD7-deficient, CD28-deficient and CD7/CD28 double-deficient mice.

Heinly CS, Sempowski GD, Lee DM, Patel DD, McDermott PM, Scearce RM, Thompson CB, Haynes BF.

Int Immunol. 2001 Feb;13(2):157-66.

PMID:
11157849
18.

B7 interactions with CD28 and CTLA-4 control tolerance or induction of mucosal inflammation in chronic experimental colitis.

Liu Z, Geboes K, Hellings P, Maerten P, Heremans H, Vandenberghe P, Boon L, van Kooten P, Rutgeerts P, Ceuppens JL.

J Immunol. 2001 Aug 1;167(3):1830-8.

19.

A role for antibodies in the generation of memory antifungal immunity.

Montagnoli C, Bozza S, Bacci A, Gaziano R, Mosci P, Morschhäuser J, Pitzurra L, Kopf M, Cutler J, Romani L.

Eur J Immunol. 2003 May;33(5):1193-204.

20.

Differential regulation of Th1 and Th2 functions of NKT cells by CD28 and CD40 costimulatory pathways.

Hayakawa Y, Takeda K, Yagita H, Van Kaer L, Saiki I, Okumura K.

J Immunol. 2001 May 15;166(10):6012-8.

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