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经历早期TCRα重排的T细胞对淋巴外周的不均一性定植。

Uneven colonization of the lymphoid periphery by T cells that undergo early TCR{alpha} rearrangements.

作者信息

Hendricks Deborah W, Fink Pamela J

机构信息

Department of Immunology, University of Washington, Seattle, 98195, USA.

出版信息

J Immunol. 2009 Apr 1;182(7):4267-74. doi: 10.4049/jimmunol.0804180.

Abstract

A sparse population of thymocytes undergoes TCRalpha gene rearrangement early in development, before the double-positive stage. The potential of these cells to contribute to the peripheral T cell pool is unknown. To examine the peripheral T cell compartment expressing a repertoire biased to early TCR gene rearrangements, we developed a mouse model in which TCRalpha rearrangements are restricted to the double-negative stage of thymocyte development. These mice carry floxed RAG2 alleles and a Cre transgene driven by the CD4 promoter. As expected, conventional T cell development is compromised in such Cre(+) RAG2(fl/fl) mice, and the TCRalphabeta(+) T cells that develop are limited in their TCRalpha repertoire, preferentially using early rearranging Valpha genes. In the gut, the Thy-1(+)TCRalphabeta(+) intraepithelial lymphocyte (IEL) compartment is surprisingly intact, whereas the Thy-1(-)TCRalphabeta(+) subset is almost completely absent. Thus, T cells expressing a TCRalpha repertoire that is the product of early gene rearrangements can preferentially populate distinct IEL compartments. Despite this capacity, Cre(+) RAG2(fl/fl) T cell progenitors cannot compete with wild-type T cell progenitors in mixed bone marrow chimeras, suggesting that in normal mice, there is only a small contribution to the peripheral T cell pool by cells that have undergone early TCRalpha rearrangements. In the absence of wild-type competitors, aggressive homeostatic proliferation in the IEL compartment can promote a relatively normal Thy-1(+) TCRalphabeta(+) T cell pool from the limited population derived from Cre(+) RAG2(fl/fl) progenitors.

摘要

在发育早期,即在双阳性阶段之前,一小部分稀疏的胸腺细胞会经历TCRα基因重排。这些细胞对外周T细胞库的贡献潜力尚不清楚。为了研究表达偏向早期TCR基因重排库的外周T细胞区室,我们构建了一种小鼠模型,其中TCRα重排被限制在胸腺细胞发育的双阴性阶段。这些小鼠携带floxed RAG2等位基因和由CD4启动子驱动的Cre转基因。正如预期的那样,在这种Cre(+)RAG2(fl/fl)小鼠中,传统的T细胞发育受到损害,发育出的TCRαβ(+)T细胞的TCRα库有限,优先使用早期重排的Vα基因。在肠道中,Thy-1(+)TCRαβ(+)上皮内淋巴细胞(IEL)区室出人意料地完整,而Thy-1(-)TCRαβ(+)亚群几乎完全缺失。因此,表达作为早期基因重排产物的TCRα库的T细胞可以优先填充不同的IEL区室。尽管有这种能力,但在混合骨髓嵌合体中,Cre(+)RAG2(fl/fl)T细胞祖细胞无法与野生型T细胞祖细胞竞争,这表明在正常小鼠中,经历早期TCRα重排的细胞对外周T细胞库的贡献很小。在没有野生型竞争者的情况下,IEL区室中积极的稳态增殖可以从Cre(+)RAG2(fl/fl)祖细胞衍生的有限群体中促进相对正常的Thy-1(+)TCRαβ(+)T细胞库。

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本文引用的文献

1
Isolation of mouse small intestinal intraepithelial lymphocytes, Peyer's patch, and lamina propria cells.
Curr Protoc Immunol. 2001 May;Chapter 3:Unit 3.19. doi: 10.1002/0471142735.im0319s17.
3
Lineage diversion of T cell receptor transgenic thymocytes revealed by lineage fate mapping.
PLoS One. 2008 Jan 30;3(1):e1512. doi: 10.1371/journal.pone.0001512.
4
The extrathymic T-cell differentiation in the murine gut.
Immunol Rev. 2007 Feb;215:166-77. doi: 10.1111/j.1600-065X.2006.00467.x.
7
The thymus exports long-lived fully committed T cell precursors that can colonize primary lymphoid organs.
Nat Immunol. 2006 Jan;7(1):76-82. doi: 10.1038/ni1293. Epub 2005 Dec 11.
9
IELs: enforcing law and order in the court of the intestinal epithelium.
Immunol Rev. 2005 Aug;206:114-31. doi: 10.1111/j.0105-2896.2005.00284.x.
10
The timing of TCR alpha expression critically influences T cell development and selection.
J Exp Med. 2005 Jul 4;202(1):111-21. doi: 10.1084/jem.20050359.

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