A knockout-first model of H3f3a gene targeting leads to developmental lethality

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-01-19 DOI:10.1002/dvg.23507
Kelly Bush, Vanessa Cervantes, Jennifer Q. Yee, Rachel H. Klein, Paul S. Knoepfler
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引用次数: 4

Abstract

Histone variant H3.3 is encoded by two genes, H3f3a and H3f3b, which can be expressed differentially depending on tissue type. Previous work in our lab has shown that knockout of H3f3b causes some neonatal lethality and infertility in mice, and chromosomal defects in mouse embryonic fibroblasts (MEFs). Studies of H3f3a and H3f3b null mice by others have produced generally similar phenotypes to what we found in our H3f3b nulls, but the relative impacts of the loss of either H3f3a or H3f3b have varied depending on the approach and genetic background. Here we used a knockout-first approach to target the H3f3a gene for inactivation in C57BL6 mice. Homozygous H3f3a targeting produced a lethal phenotype at or before birth. E13.5 null embryos had some potential morphological differences from WT littermates including smaller size and reduced head size. An E18.5 null embryo was smaller than its control littermates with several potential defects including small head and brain size as well as small lungs, which would be consistent with a late gestation lethal phenotype. Despite a reduction in H3.3 and total H3 protein levels, the only histone H3 post-translational modification in the small panel assessed that was significantly altered was the unique H3.3 mark phospho-Serine31, which was consistently increased in null neurospheres. H3f3a null neurospheres also exhibited consistent gene expression changes including in protocadherins. Overall, our findings are consistent with the model that there are differential, cell-type-specific contributions of H3f3a and H3f3b to H3.3 functions in epigenetic and developmental processes.

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H3f3a基因靶向的敲除优先模型导致发育致死性
组蛋白变异H3.3由H3f3a和H3f3b两个基因编码,根据组织类型表达差异。我们实验室之前的工作表明,敲除H3f3b会导致小鼠的一些新生儿死亡和不育,以及小鼠胚胎成纤维细胞(mef)的染色体缺陷。其他人对H3f3a和H3f3b缺失小鼠的研究产生了与我们在H3f3b缺失小鼠中发现的大体相似的表型,但H3f3a或H3f3b缺失的相对影响因方法和遗传背景而异。在这里,我们使用敲除优先的方法来靶向C57BL6小鼠的H3f3a基因失活。纯合子H3f3a在出生前或出生前产生致死表型。E13.5零胚与WT胎仔在形态上存在一些潜在的差异,包括体积变小和头大小减小。E18.5的零胚胎比它的对照组幼崽小,有几个潜在的缺陷,包括小的头、小的脑和小的肺,这与妊娠晚期的致死表型一致。尽管H3.3和总H3蛋白水平降低,但在评估的小小组中,唯一显著改变的组蛋白H3翻译后修饰是独特的H3.3标记phospho-Serine31,其在空神经球中持续增加。H3f3a神经球也表现出一致的基因表达变化,包括原钙粘蛋白。总体而言,我们的研究结果与H3f3a和H3f3b在表观遗传和发育过程中对H3.3功能的差异和细胞类型特异性贡献的模型一致。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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