Wang H, Diamond R A, Rothenberg E V
Stowers Institute for Medical Research, California Institute of Technology, Pasadena, CA 91125, USA.
Proc Natl Acad Sci U S A. 1998 Jun 9;95(12):6831-6. doi: 10.1073/pnas.95.12.6831.
Developmental commitment involves activation of lineage-specific genes, stabilization of a lineage-specific gene expression program, and permanent inhibition of inappropriate characteristics. To determine how these processes are coordinated in early T cell development, the expression of T and B lineage-specific genes was assessed in staged subsets of immature thymocytes. T lineage characteristics are acquired sequentially, with germ-line T cell antigen receptor-beta transcripts detected very early, followed by CD3epsilon and terminal deoxynucleotidyl transferase, then pTalpha, and finally RAG1. Only RAG1 expression coincides with commitment. Thus, much T lineage gene expression precedes commitment and does not depend on it. Early in the course of commitment to the T lineage, thymocytes lose the ability to develop into B cells. To understand how this occurs, we also examined expression of well defined B lineage-specific genes. Although lambda5 and Ig-alpha are not expressed, the mu 0 and I mu transcripts from the unrearranged IgH locus are expressed early, in distinct patterns, then repressed just before RAG1 expression. By contrast, RNA encoding the B cell receptor component Ig-beta was found to be transcribed in all immature thymocyte subpopulations and throughout most thymocyte differentiation. Ig-beta expression is down-regulated only during positive selection of CD4(+)CD8(-) cells. Thus several key participants in the B cell developmental program are expressed in non-B lineage-committed cells, and one is maintained even through commitment to an alternative lineage, and repressed only after extensive T lineage differentiation. The results show that transcriptional activation of "lymphocyte-specific" genes can occur in uncommitted precursors, and that T lineage commitment is a composite of distinct positive and negative regulatory events.
发育定向涉及谱系特异性基因的激活、谱系特异性基因表达程序的稳定以及对不适当特征的永久抑制。为了确定这些过程在早期T细胞发育中是如何协调的,我们在未成熟胸腺细胞的不同阶段亚群中评估了T和B谱系特异性基因的表达。T谱系特征是依次获得的,最早检测到种系T细胞抗原受体β转录本,随后是CD3ε和末端脱氧核苷酸转移酶,然后是pTα,最后是RAG1。只有RAG1的表达与定向同时发生。因此,许多T谱系基因的表达先于定向,且不依赖于定向。在定向成为T谱系的早期过程中,胸腺细胞失去了发育成B细胞的能力。为了了解这是如何发生的,我们还检测了明确的B谱系特异性基因的表达。虽然λ5和Ig-α不表达,但未重排的IgH基因座的μ0和Iμ转录本在早期以不同模式表达,然后在RAG1表达之前被抑制。相比之下,编码B细胞受体成分Ig-β的RNA在所有未成熟胸腺细胞亚群中以及在大多数胸腺细胞分化过程中都有转录。Ig-β的表达仅在CD4(+)CD8(-)细胞的阳性选择期间下调。因此,B细胞发育程序中的几个关键参与者在未定向到B谱系的细胞中表达,其中一个甚至在定向到另一个谱系后仍保持表达,并仅在广泛的T谱系分化后才被抑制。结果表明,“淋巴细胞特异性”基因的转录激活可以在未定向的前体细胞中发生,并且T谱系定向是不同的正负调节事件的组合。