APOLLO是一种重要蛋白-4的睾丸特异性果蝇直系同源物,介导精蛋白样蛋白Mst77F进入精子染色质。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-09-02 DOI:10.1016/j.jbc.2023.105212
Alexander V Emelyanov, Daniel Barcenilla-Merino, Benjamin Loppin, Dmitry V Fyodorov
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摘要

精子中的DNA充满了小的带电蛋白质,称为SNBP(精子核碱性蛋白),包括哺乳动物和果蝇的鱼精蛋白。在精子生成过程中,体细胞型染色质在一个多步骤的过程中被分离并替换为精子染色质,从而导致基因组的异常浓缩。在受精过程中,卵子面临着同样具有挑战性的任务,即SNBP驱逐和基于核小体的染色质的重组。尽管精子染色质代谢对动物生命周期很重要,但它,包括介导组蛋白和SNBP相互替换的生化机制,仍然研究不足。在果蝇中,Mst77F是第一批装载到精子细胞核中的SNBP之一。它在成熟精子中持续存在,对精子压实和男性生育能力至关重要。在这里,通过使用体外生化分析,我们鉴定了可以介导Mst77F在DNA上的排出和装载的伴侣蛋白,从而促进雄配子中染色质形式的相互转化。与分解Mst77F DNA复合物的NAP1和TAP/p32伴侣不同,哺乳动物导入蛋白-4(IPO4)的直系同源物ARTEMIS和APOLLO介导Mst77F在DNA或寡核小体模板上的沉积,并伴随组蛋白DNA复合物解离。在体内,睾丸特异性Apollo的突变导致Mst77F负荷缺陷、精子形态异常和男性不育。我们确定IPO4同源APOLLO是果蝇精子染色质组装器的关键组成部分。我们发现,除了在蛋白质运输中的公认作用外,核运输受体(IPO4)还可以作为组蛋白和SNBP特异性的双重伴侣直接在染色质重塑中发挥作用。
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APOLLO, a testis-specific Drosophila ortholog of importin-4, mediates the loading of protamine-like protein Mst77F into sperm chromatin.

DNA in sperm is packed with small, charged proteins termed SNBPs (sperm nuclear basic proteins), including mammalian and Drosophila protamines. During spermiogenesis, somatic-type chromatin is taken apart and replaced with sperm chromatin in a multistep process leading to an extraordinary condensation of the genome. During fertilization, the ova face a similarly challenging task of SNBP eviction and reassembly of nucleosome-based chromatin. Despite its importance for the animal life cycle, sperm chromatin metabolism, including the biochemical machinery mediating the mutual replacement of histones and SNBPs, remains poorly studied. In Drosophila, Mst77F is one of the first SNBPs loaded into the spermatid nuclei. It persists in mature spermatozoa and is essential for sperm compaction and male fertility. Here, by using in vitro biochemical assays, we identify chaperones that can mediate the eviction and loading of Mst77F on DNA, thus facilitating the interconversions of chromatin forms in the male gamete. Unlike NAP1 and TAP/p32 chaperones that disassemble Mst77F-DNA complexes, ARTEMIS and APOLLO, orthologs of mammalian importin-4 (IPO4), mediate the deposition of Mst77F on DNA or oligonucleosome templates, accompanied by the dissociation of histone-DNA complexes. In vivo, a mutation of testis-specific Apollo brings about a defect of Mst77F loading, abnormal sperm morphology, and male infertility. We identify IPO4 ortholog APOLLO as a critical component of sperm chromatin assembly apparatus in Drosophila. We discover that in addition to recognized roles in protein traffic, a nuclear transport receptor (IPO4) can function directly in chromatin remodeling as a dual, histone- and SNBP-specific, chaperone.

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