Snowden Andrew W, Gregory Philip D, Case Casey C, Pabo Carl O
Sangamo BioSciences, Point Richmond Tech Center, 501 Canal Boulevard, Suite A100, Richmond, California 94804, USA.
Curr Biol. 2002 Dec 23;12(24):2159-66. doi: 10.1016/s0960-9822(02)01391-x.
Covalent modifications of chromatin have emerged as key determinants of the genome's transcriptional competence. Histone H3 lysine 9 (H3K9) methylation is an epigenetic signal that is recognized by HP1 and correlates with gene silencing in a variety of organisms. Discovery of the enzymes that catalyze H3K9 methylation has identified a second gene-specific function for this modification in transcriptional repression. Whether H3K9 methylation is causative in the initiation and establishment of gene repression or is a byproduct of the process leading to the repressed state remains unknown. To investigate the role of HMTs and specifically H3K9 methylation in gene repression, we have employed engineered zinc-finger transcription factors (ZFPs) to target HMT activity to a specific endogenous gene. By utilizing ZFPs that recognize the promoter of the endogenous VEGF-A gene, and thus employing this chromosomal locus as an in vivo reporter, we show that ZFPs linked to a minimal catalytic HMT domain affect local methylation of histone H3K9 and the consequent repression of target gene expression. Furthermore, amino acid substitutions within the HMT that ablate its catalytic activity effectively eliminate the ability of the ZFP fusions to repress transcription. Thus, H3K9 methylation is a primary signal that is sufficient for initiating a gene repression pathway in vivo.
染色质的共价修饰已成为基因组转录能力的关键决定因素。组蛋白H3赖氨酸9(H3K9)甲基化是一种表观遗传信号,可被异染色质蛋白1(HP1)识别,并且在多种生物体中与基因沉默相关。催化H3K9甲基化的酶的发现确定了这种修饰在转录抑制中的第二种基因特异性功能。H3K9甲基化在基因抑制的起始和建立过程中是否起因果作用,或者是导致基因沉默状态过程的副产物,仍然未知。为了研究组蛋白甲基转移酶(HMTs)特别是H3K9甲基化在基因抑制中的作用,我们利用工程化的锌指转录因子(ZFP)将HMT活性靶向特定的内源性基因。通过利用识别内源性血管内皮生长因子A(VEGF-A)基因启动子的ZFP,从而将这个染色体位点用作体内报告基因,我们表明与最小催化HMT结构域相连的ZFP会影响组蛋白H3K9的局部甲基化以及随后靶基因表达的抑制。此外,HMT内消除其催化活性的氨基酸取代有效地消除了ZFP融合体抑制转录的能力。因此,H3K9甲基化是一种主要信号,足以在体内启动基因抑制途径。
