Reprogramming of active and repressive histone modifications following nuclear transfer with rabbit mesenchymal stem cells and adult fibroblasts.

Alessandro Brero, Ru Hao, Matthias Schieker, Matthias Wierer, Eckhard Wolf, Thomas Cremer, Valeri Zakhartchenko
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引用次数: 13

Abstract

Following nuclear transfer (NT) the epigenetic state of a donor nucleus must be reprogrammed to an embryonic one. To evaluate the efficiency of nuclear reprogramming, we monitored the levels of histone H3 di/tri-methylated on lysine 4 (H3K4m2/3), a marker for transcriptionally active/permissive euchromatin, and of histone H3 tri-methylated on lysine 27 (H3K27m3), a modification associated with facultative heterochromatin, in embryos cloned using rabbit mesenchymal stem cells (MSC) and adult fibroblasts (RAF) isolated from the same animals. In vivo fertilized, in vitro cultured embryos served as controls. H3K27m3 was undetectable in all stages of control embryos except for weak staining in a few blastocyst cells. A similar situation was found in all NT embryos irrespective of the type of donor cells used, although both MSC and RAF stained substantially for H3K27m3. H3K4m2/3 levels were very high in one- and two-cell control embryos, but then decreased to reach a minimum at the eight-cell stage, and finally increased again to initial levels at the morula and blastocyst stage. Reprogramming of H3K4m2/3 differed remarkably among the different types NT embryos as well as between NT embryos and control embryos, and was apparently dependent on the type of donor cells. Interestingly, abnormal reprogramming of H3K4m2/3 was observed in NT embryos derived from both MSC and RAF, donor cell types with markedly different proliferation capacity. Our study demonstrates that the repressive chromatin modification, H3K27m3, is faithfully reprogrammed in NT embryos derived from MSC or RAF, while reprogramming of the activating chromatin modification, H3K4m2/3, is quite variable and does not reflect the situation observed in control embryos derived by fertilization.

兔间充质干细胞和成纤维细胞核移植后活性和抑制性组蛋白修饰的重编程。
核移植(NT)后,供体细胞核的表观遗传状态必须重新编程为胚胎状态。为了评估核重编程的效率,我们监测了用兔间充质干细胞(MSC)和成体成纤维细胞(RAF)克隆的胚胎中赖氨酸4上组蛋白H3二甲基化/三甲基化(H3K4m2/3)和赖氨酸27上组蛋白H3三甲基化(H3K27m3)的水平,赖氨酸4是转录活性/允许性常染色质的标记物,赖氨酸27是与同时性异染色质相关的修饰物。体内受精,体外培养的胚胎作为对照。H3K27m3在对照胚胎的所有阶段均未检测到,仅在少数囊胚细胞中有微弱的染色。尽管MSC和RAF都对H3K27m3进行了大量染色,但在所有NT胚胎中都发现了类似的情况,而不考虑使用的供体细胞类型。H3K4m2/3水平在1细胞和2细胞对照胚胎中非常高,但在8细胞阶段下降到最低水平,最后在桑葚胚和囊胚阶段再次上升到初始水平。H3K4m2/3的重编程在不同类型的NT胚胎之间以及在NT胚胎和对照胚胎之间存在显著差异,并且明显依赖于供体细胞的类型。有趣的是,H3K4m2/3在来自MSC和RAF的NT胚胎中都观察到异常重编程,这两种供体细胞类型具有明显不同的增殖能力。我们的研究表明,抑制染色质修饰H3K27m3在MSC或RAF衍生的NT胚胎中被忠实地重编程,而激活染色质修饰H3K4m2/3的重编程则非常可变,并且不能反映受精衍生的对照胚胎中观察到的情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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