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Items: 1 to 20 of 89

1.
2.

Lymphocyte activation gene-3 (CD223) regulates the size of the expanding T cell population following antigen activation in vivo.

Workman CJ, Cauley LS, Kim IJ, Blackman MA, Woodland DL, Vignali DA.

J Immunol. 2004 May 1;172(9):5450-5.

3.

Cutting edge: molecular analysis of the negative regulatory function of lymphocyte activation gene-3.

Workman CJ, Dugger KJ, Vignali DA.

J Immunol. 2002 Nov 15;169(10):5392-5.

4.

Regulation of expression of the human lymphocyte activation gene-3 (LAG-3) molecule, a ligand for MHC class II.

Bruniquel D, Borie N, Hannier S, Triebel F.

Immunogenetics. 1998 Jul;48(2):116-24.

PMID:
9634475
5.

Biochemical analysis of the regulatory T cell protein lymphocyte activation gene-3 (LAG-3; CD223).

Li N, Workman CJ, Martin SM, Vignali DA.

J Immunol. 2004 Dec 1;173(11):6806-12.

6.
7.

Phenotypic analysis of the murine CD4-related glycoprotein, CD223 (LAG-3).

Workman CJ, Rice DS, Dugger KJ, Kurschner C, Vignali DA.

Eur J Immunol. 2002 Aug;32(8):2255-63.

8.

Negative regulation of T cell homeostasis by lymphocyte activation gene-3 (CD223).

Workman CJ, Vignali DA.

J Immunol. 2005 Jan 15;174(2):688-95.

9.
10.

Soluble human lymphocyte activation gene-3 modulates allospecific T cell responses.

Subramanyam M, Wands G, Nabioullin R, Tepper MA.

Int Immunol. 1998 May;10(5):679-89.

11.

LAG-3: a regulator of T-cell and DC responses and its use in therapeutic vaccination.

Triebel F.

Trends Immunol. 2003 Dec;24(12):619-22. Review.

PMID:
14644131
12.

Expression of lymphocyte activation gene 3 (LAG-3) on B cells is induced by T cells.

Kisielow M, Kisielow J, Capoferri-Sollami G, Karjalainen K.

Eur J Immunol. 2005 Jul;35(7):2081-8.

13.

Vbeta-restricted T cell adherence to endothelial cells: a mechanism for superantigen-dependent vascular injury.

Brogan PA, Shah V, Klein N, Dillon MJ.

Arthritis Rheum. 2004 Feb;50(2):589-97.

14.

LAG-3 is not responsible for selecting T helper cells in CD4-deficient mice.

Miyazaki T, Dierich A, Benoist C, Mathis D.

Int Immunol. 1996 May;8(5):725-9.

16.

CD4+ Th-APC with acquired peptide/MHC class I and II complexes stimulate type 1 helper CD4+ and central memory CD8+ T cell responses.

Umeshappa CS, Huang H, Xie Y, Wei Y, Mulligan SJ, Deng Y, Xiang J.

J Immunol. 2009 Jan 1;182(1):193-206.

17.

[Coreceptor function of CD4 in response to MHC class I molecule].

Zvezdova ES, Grinenko TS, Pobezinskaia EL, Pobezinskiĭ LA, Kazanskiĭ DB.

Mol Biol (Mosk). 2008 Jul-Aug;42(4):662-72. Russian.

PMID:
18856067
18.

Role of LAG-3 in regulatory T cells.

Huang CT, Workman CJ, Flies D, Pan X, Marson AL, Zhou G, Hipkiss EL, Ravi S, Kowalski J, Levitsky HI, Powell JD, Pardoll DM, Drake CG, Vignali DA.

Immunity. 2004 Oct;21(4):503-13.

19.

Active CD4+ helper T cells directly stimulate CD8+ cytotoxic T lymphocyte responses in wild-type and MHC II gene knockout C57BL/6 mice and transgenic RIP-mOVA mice expressing islet beta-cell ovalbumin antigen leading to diabetes.

Ye Z, Ahmed KA, Hao S, Zhang X, Xie Y, Munegowda MA, Meng Q, Chibbar R, Xiang J.

Autoimmunity. 2008 Nov;41(7):501-11. doi: 10.1080/08916930802069256.

PMID:
18855194
20.

TGF-beta signaling regulates CD8+ T cell responses to high- and low-affinity TCR interactions.

Mehal WZ, Sheikh SZ, Gorelik L, Flavell RA.

Int Immunol. 2005 May;17(5):531-8.

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