Department of Cancer Biology, The Scripps Research Institute, Jupiter, FL 33458, USA.
Immunity. 2009 Dec 18;31(6):999-1009. doi: 10.1016/j.immuni.2009.09.024.
Interaction of hematopoietic progenitors with the thymic microenvironment induces them to proliferate, adopt the T lineage fate, and asymmetrically diverge into multiple functional lineages. Progenitors at various developmental stages are stratified within the thymus, implying that the corresponding microenvironments provide distinct sets of signals to progenitors migrating between them. These differences remain largely undefined. Here we used physical and computational approaches to generate a comprehensive spatial map of stromal gene expression in the thymus. Although most stromal regions were characterized by a unique gene expression signature, the central cortex lacked distinctive features. Instead, a key function of this region appears to be the sequestration of unique microenvironments found at the cortical extremities, thus modulating the relative proximity of progenitors moving between them. Our findings compel reexamination of how cell migration, lineage specification, and proliferation are controlled by thymic architecture and provide an in-depth resource for global characterization of this control.
造血祖细胞与胸腺微环境的相互作用诱导它们增殖、采用 T 细胞谱系命运,并不对称地分化为多个功能谱系。处于不同发育阶段的祖细胞在胸腺内分层,这意味着相应的微环境为在它们之间迁移的祖细胞提供了不同的信号集。这些差异在很大程度上尚未得到明确界定。在这里,我们使用物理和计算方法生成了胸腺基质基因表达的综合空间图谱。尽管大多数基质区域的特征是独特的基因表达特征,但中央皮质缺乏独特的特征。相反,该区域的一个关键功能似乎是隔离在皮质末端发现的独特微环境,从而调节在它们之间移动的祖细胞的相对接近度。我们的发现促使重新审视细胞迁移、谱系特化和增殖如何受胸腺结构的控制,并为全面描述这种控制提供了深入的资源。