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SLAM 在 NKT 细胞发育中的作用通过 NOD 小鼠的转基因互补揭示。

Role of SLAM in NKT cell development revealed by transgenic complementation in NOD mice.

机构信息

Comparative Genomics Centre, James Cook University, Townsville, Queensland 4811, Australia.

出版信息

J Immunol. 2011 Apr 1;186(7):3953-65. doi: 10.4049/jimmunol.1003305. Epub 2011 Feb 25.

DOI:10.4049/jimmunol.1003305
PMID:21357537
Abstract

Allelic variation of SLAM expression on CD4(+)CD8(+) thymocytes has been proposed to play a major role in NKT cell development. In this article, this hypothesis is tested by the production of subcongenic mouse strains and Slamf1 transgenic lines. The long isoform of the C57BL/6 allele of Slamf1 was transgenically expressed on CD4(+)CD8(+) thymocytes under control of an hCD2 minigene. NOD.Nkrp1b.Tg(Slamf1)1 mice, which had a 2-fold increase in SLAM protein expression on CD4(+)CD8(+) thymocytes, had a 2-fold increase in numbers of thymic NKT cells. The additional thymic NKT cells in NOD.Nkrp1b.Tg(Slamf1)1 mice were relatively immature, with a similar subset distribution to those of congenic NOD.Nkrp1b.Nkt1 and NOD.Nkrp1b.Slamf1 mice, which also express increased levels of SLAM on CD4(+)CD8(+) thymocytes and produce larger numbers of NKT cells. Transgenic enhancement of SLAM expression also increased IL-4 and IL-17 production in response to TCR-mediated stimulation. Paradoxically, NOD.Nkrp1b.Tg(Slamf1)2 mice, which had a 7-fold increase in SLAM expression, showed no significant increase in NKT cells numbers; on the contrary, at high transgene copy number, SLAM expression levels correlated inversely with NKT cell numbers, consistent with a contribution to negative selection. These data confirm a role for SLAM in controlling NKT cell development and are consistent with a role in both positive and negative thymic selection of NKT cells.

摘要

CD4(+)CD8(+)胸腺细胞上 SLAM 表达的等位基因变异被认为在 NKT 细胞发育中起主要作用。本文通过产生亚纯合小鼠品系和 Slamf1 转基因系来检验这一假说。在 hCD2 微基因的控制下,C57BL/6 等位基因的 Slamf1 长异构体在 CD4(+)CD8(+)胸腺细胞上被转基因表达。NOD.Nkrp1b.Tg(Slamf1)1 小鼠的 SLAM 蛋白在 CD4(+)CD8(+)胸腺细胞上的表达增加了 2 倍,其胸腺 NKT 细胞数量也增加了 2 倍。NOD.Nkrp1b.Tg(Slamf1)1 小鼠中额外的胸腺 NKT 细胞相对不成熟,与具有相同 SLAM 表达水平的 NOD.Nkrp1b.Nkt1 和 NOD.Nkrp1b.Slamf1 小鼠相似,它们也产生更多数量的 NKT 细胞。SLAM 表达的转基因增强还增加了 TCR 介导刺激下的 IL-4 和 IL-17 的产生。矛盾的是,NOD.Nkrp1b.Tg(Slamf1)2 小鼠的 SLAM 表达增加了 7 倍,但 NKT 细胞数量没有显著增加;相反,在高转基因拷贝数下,SLAM 表达水平与 NKT 细胞数量呈负相关,这与阴性选择的贡献一致。这些数据证实了 SLAM 在控制 NKT 细胞发育中的作用,并与 NKT 细胞在胸腺内阳性和阴性选择中的作用一致。

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