Hall Lisa L, Byron Meg, Sakai Kosuke, Carrel Laura, Willard Huntington F, Lawrence Jeanne B
Department of Cell Biology, University of Massachusetts Medical School, Worcester, MA 01655, USA.
Proc Natl Acad Sci U S A. 2002 Jun 25;99(13):8677-82. doi: 10.1073/pnas.132468999. Epub 2002 Jun 18.
It has been believed that XIST RNA requires a discrete window in early development to initiate the series of chromatin-remodeling events that form the heterochromatic inactive X chromosome. Here we investigate four adult male HT-1080 fibrosarcoma cell lines expressing ectopic human XIST and demonstrate that these postdifferentiation cells can undergo chromosomal inactivation outside of any normal developmental context. All four clonal lines inactivated the transgene-containing autosome to varying degrees and with variable stability. One clone in particular consistently localized the ectopic XIST RNA to a discrete chromosome territory that exhibited striking hallmarks of inactivation, including long-range transcriptional inactivation. Results suggest that some postdifferentiation cell lines are capable of de novo chromosomal inactivation; however, long-term retention of autosomal inactivation was less common, which suggests that autosomal inactivation may confer a selective disadvantage. These results have fundamental significance for understanding genomic programming in early development.
人们一直认为,XIST RNA 需要在早期发育过程中的一个特定窗口期来启动一系列染色质重塑事件,从而形成异染色质化的失活 X 染色体。在此,我们研究了四个表达异位人 XIST 的成年男性 HT-1080 纤维肉瘤细胞系,并证明这些分化后的细胞能够在任何正常发育背景之外发生染色体失活。所有四个克隆系都不同程度地使含有转基因的常染色体失活,且稳定性各异。特别是一个克隆系始终将异位 XIST RNA 定位到一个离散的染色体区域,该区域表现出明显的失活特征,包括长程转录失活。结果表明,一些分化后的细胞系能够进行从头染色体失活;然而,常染色体失活的长期维持并不常见,这表明常染色体失活可能会带来选择性劣势。这些结果对于理解早期发育中的基因组编程具有重要意义。