KANSL3 缺失会导致内细胞质量缺陷和早期胚胎死亡。

IF 2.7 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ashmita Chander, Jesse Mager
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引用次数: 0

摘要

赖氨酸乙酰化是转录活跃基因座上的一个显著组蛋白标记。在许多赖氨酸乙酰转移酶中,已知非特异性致死复合体(NSL)成员介导组蛋白 H4 的修饰。除了组蛋白修饰外,NSL 复合物的核心成员 KAT8 调节复合物亚基 3 基因(Kansl3)也被证明参与了其他一些细胞过程,如有丝分裂和线粒体活动。虽然已经对 NSL 复合物成员进行了功能研究,但包括 Kansl3 在内的四个核心蛋白都没有在小鼠早期发育过程中进行过研究。在这里,我们发现同源基因敲除的 Kansl3 胚胎在着床前阶段是致死的,无法从透明带孵化出来。当在体外移除透明带时,Kansl3 基因无效的胚胎会形成异常的外植体,其内细胞团(ICM)形态受到严重破坏。我们记录了胚泡阶段的系特异性缺陷,内细胞团细胞数量显著减少,但滋养层细胞数量没有差异。在无效突变体中,上胚层和原始内胚层细胞系都发生了改变,细胞数量减少。这些结果表明,Kansl3 在小鼠胚胎早期发育过程中是不可或缺的,并且在 ICM 和滋养层细胞系中都存在缺陷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Loss of KANSL3 leads to defective inner cell mass and early embryonic lethality

e–Lysine acetylation is a prominent histone mark found at transcriptionally active loci. Among many lysine acetyl transferases, nonspecific lethal complex (NSL) members are known to mediate the modification of histone H4. In addition to histone modifications, the KAT8 regulatory complex subunit 3 gene (Kansl3), a core member of NSL complex, has been shown to be involved in several other cellular processes such as mitosis and mitochondrial activity. Although functional studies have been performed on NSL complex members, none of the four core proteins, including Kansl3, have been studied during early mouse development. Here we show that homozygous knockout Kansl3 embryos are lethal at peri-implantation stages, failing to hatch out of the zona pellucida. When the zona pellucida is removed in vitro, Kansl3 null embryos form an abnormal outgrowth with significantly disrupted inner cell mass (ICM) morphology. We document lineage-specific defects at the blastocyst stage with significantly reduced ICM cell number but no difference in trophectoderm cell numbers. Both epiblast and primitive endoderm lineages are altered with reduced cell numbers in null mutants. These results show that Kansl3 is indispensable during early mouse embryonic development and with defects in both ICM and trophectoderm lineages.

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来源期刊
CiteScore
5.20
自引率
0.00%
发文量
78
审稿时长
6-12 weeks
期刊介绍: Molecular Reproduction and Development takes an integrated, systems-biology approach to understand the dynamic continuum of cellular, reproductive, and developmental processes. This journal fosters dialogue among diverse disciplines through primary research communications and educational forums, with the philosophy that fundamental findings within the life sciences result from a convergence of disciplines. Increasingly, readers of the Journal need to be informed of diverse, yet integrated, topics impinging on their areas of interest. This requires an expansion in thinking towards non-traditional, interdisciplinary experimental design and data analysis.
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