Komori H Kiyomi, Hart Traver, LaMere Sarah A, Chew Pamela V, Salomon Daniel R
Department of Molecular and Experimental Medicine, The Scripps Research Institute, La Jolla, CA 92037.
Department of Molecular and Experimental Medicine, The Scripps Research Institute, La Jolla, CA 92037
J Immunol. 2015 Feb 15;194(4):1565-79. doi: 10.4049/jimmunol.1401162. Epub 2015 Jan 9.
Memory T cells are primed for rapid responses to Ag; however, the molecular mechanisms responsible for priming remain incompletely defined. CpG methylation in promoters is an epigenetic modification, which regulates gene transcription. Using targeted bisulfite sequencing, we examined methylation of 2100 genes (56,000 CpGs) mapped by deep sequencing of T cell activation in human naive and memory CD4 T cells. Four hundred sixty-six CpGs (132 genes) displayed differential methylation between naive and memory cells. Twenty-one genes exhibited both differential methylation and gene expression before activation, linking promoter DNA methylation states to gene regulation; 6 of 21 genes encode proteins closely studied in T cells, whereas 15 genes represent novel targets for further study. Eighty-four genes demonstrated differential methylation between memory and naive cells that correlated to differential gene expression following activation, of which 39 exhibited reduced methylation in memory cells coupled with increased gene expression upon activation compared with naive cells. These reveal a class of primed genes more rapidly expressed in memory compared with naive cells and putatively regulated by DNA methylation. These findings define a DNA methylation signature unique to memory CD4 T cells that correlates with activation-induced gene expression.
记忆性T细胞已准备好对抗原作出快速反应;然而,负责启动这一过程的分子机制仍未完全明确。启动子中的CpG甲基化是一种表观遗传修饰,可调节基因转录。我们使用靶向亚硫酸氢盐测序技术,检测了通过对人初始和记忆性CD4 T细胞激活进行深度测序所定位的2100个基因(56,000个CpG位点)的甲基化情况。在初始细胞和记忆性细胞之间,有466个CpG位点(132个基因)表现出差异甲基化。21个基因在激活前既表现出差异甲基化又有基因表达差异,将启动子DNA甲基化状态与基因调控联系起来;21个基因中有6个编码在T细胞中被深入研究的蛋白质,而另外15个基因则代表有待进一步研究的新靶点。84个基因在记忆性细胞和初始细胞之间表现出差异甲基化,且与激活后的差异基因表达相关,其中39个基因在记忆性细胞中甲基化减少,与初始细胞相比,激活后基因表达增加。这些结果揭示了一类在记忆性细胞中比初始细胞表达更快且可能受DNA甲基化调控的启动基因。这些发现定义了一种记忆性CD4 T细胞特有的DNA甲基化特征,该特征与激活诱导的基因表达相关。
