Loss of function of male-specific lethal 3 (Msl3) does not affect spermatogenesis in rodents

IF 2 3区 生物学 Q2 ANATOMY & MORPHOLOGY
T. A. Mitchell, J. M. Lin, S. M. Hicks, J. R. James, P. Rangan, P. E. Forni
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引用次数: 0

Abstract

Background

Male-specific lethal 3 (Msl3) is a member of the chromatin-associated male-specific lethal MSL complex, which is responsible for the transcriptional upregulation of genes on the X chromosome in males of Drosophila. Although the dosage complex operates differently in mammals, the Msl3 gene is conserved from flies to humans. Msl3 is required for meiotic entry during Drosophila oogenesis. Recent reports indicate that also in primates, Msl3 is expressed in undifferentiated germline cells before meiotic entry. However, if Msl3 plays a role in the meiotic entry of mammals has yet to be explored.

Results

To understand, if Msl3a plays a role in the meiotic entry of mammals, we used mouse spermatogenesis as a study model. Analyses of single-cell RNA-seq data revealed that, in mice, Msl3 is mostly expressed in meiotic cells. To test the role of Msl3 in meiosis, we used a male germline-specific Stra8-iCre driver and a newly generated Msl3flox conditional knock-out mouse line. Msl3 conditional loss-of-function in spermatogonia did not cause spermatogenesis defects or changes in the expression of genes related to meiosis.

Conclusions

Our data suggest that, in mice, Msl3 exhibits delayed expression compared to Drosophila and primates, and loss-of-function mutations disrupting the chromodomain of Msl3 alone do not impede meiotic entry in rodents.

雄性特异性致死3(Msl3)功能的丧失不会影响啮齿类动物的精子发生。
背景:雄性特异性致死3(Msl3)是染色质相关的雄性特异性致命MSL复合体的一员,负责果蝇雄性X染色体上基因的转录上调。尽管剂量复合体在哺乳动物中的作用不同,但Msl3基因从苍蝇到人类都是保守的。Msl3是果蝇卵子发生过程中减数分裂进入所必需的。最近的报道表明,同样在灵长类动物中,Msl3在减数分裂进入之前在未分化的种系细胞中表达。然而,Msl3是否在哺乳动物减数分裂进入中发挥作用还有待探索。结果:为了了解Msl3a是否在哺乳动物的减数分裂进入中发挥作用,我们使用小鼠精子发生作为研究模型。对单细胞RNA-seq数据的分析表明,在小鼠中,Msl3主要在减数分裂细胞中表达。为了测试Msl3在减数分裂中的作用,我们使用了雄性种系特异性Stra8-iCre驱动器和新产生的Msl3flox条件敲除小鼠系。精原细胞Msl3条件性功能丧失不会导致精子发生缺陷或与减数分裂相关的基因表达变化。结论:我们的数据表明,在小鼠中,与果蝇和灵长类动物相比,Msl3表现出延迟表达,单独破坏Msl3色域的功能缺失突变不会阻碍啮齿类动物的减数分裂进入。
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来源期刊
Developmental Dynamics
Developmental Dynamics 生物-发育生物学
CiteScore
5.10
自引率
8.00%
发文量
116
审稿时长
3-8 weeks
期刊介绍: Developmental Dynamics, is an official publication of the American Association for Anatomy. This peer reviewed journal provides an international forum for publishing novel discoveries, using any model system, that advances our understanding of development, morphology, form and function, evolution, disease, stem cells, repair and regeneration.
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