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Foxn1以剂量敏感的方式维持出生后胸腺微环境。

Foxn1 is required to maintain the postnatal thymic microenvironment in a dosage-sensitive manner.

作者信息

Chen Lizhen, Xiao Shiyun, Manley Nancy R

机构信息

Department of Genetics, Paul D. Coverdell Center, University of Georgia, Athens, GA 30602, USA.

出版信息

Blood. 2009 Jan 15;113(3):567-74. doi: 10.1182/blood-2008-05-156265. Epub 2008 Oct 31.

DOI:10.1182/blood-2008-05-156265
PMID:18978204
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2628364/
Abstract

The postnatal thymus is the primary source of T cells in vertebrates, and many if not all stages of thymocyte development require interactions with thymic epithelial cells (TECs). The Foxn1 gene is a key regulator of TEC differentiation, and is required for multiple aspects of fetal TEC differentiation. Foxn1 is also expressed in the postnatal thymus, but its function after birth is unknown. We generated a Foxn1 allele with normal fetal expression and thymus development, but decreased expression in the postnatal thymus. This down-regulation causes rapid thymic compartment degeneration and reduced T-cell production. TEC subsets that express higher Foxn1 levels are most sensitive to its down-regulation, in particular MHCII(hi)UEA-1(hi) medullary TECs. The requirement for Foxn1 is extremely dosage sensitive, with small changes in Foxn1 levels having large effects on thymus phenotypes. Our results provide the first evidence that Foxn1 is required to maintain the postnatal thymus. Furthermore, the similarities of this phenotype to accelerated aging-related thymic involution support the possibility that changes in Foxn1 expression in TECs during aging contribute to the mechanism of involution.

摘要

出生后的胸腺是脊椎动物T细胞的主要来源,胸腺细胞发育的许多(即便不是所有)阶段都需要与胸腺上皮细胞(TEC)相互作用。Foxn1基因是TEC分化的关键调节因子,在胎儿TEC分化的多个方面发挥作用。Foxn1在出生后的胸腺中也有表达,但其出生后的功能尚不清楚。我们构建了一个Foxn1等位基因,其在胎儿期表达正常且胸腺发育正常,但在出生后的胸腺中表达降低。这种下调导致胸腺区室迅速退化并减少T细胞产生。表达较高Foxn1水平的TEC亚群对其下调最为敏感,尤其是MHCII(hi)UEA-1(hi)髓质TEC。对Foxn1的需求对剂量极为敏感,Foxn1水平的微小变化会对胸腺表型产生很大影响。我们的结果首次证明Foxn1是维持出生后胸腺所必需的。此外,这种表型与加速衰老相关的胸腺退化的相似性支持了衰老过程中TEC中Foxn1表达的变化可能参与退化机制的可能性。

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