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FOG-1/CPEB对增殖和精子特化的剂量依赖性调控

Dose-dependent control of proliferation and sperm specification by FOG-1/CPEB.

作者信息

Thompson Beth E, Bernstein David S, Bachorik Jennifer L, Petcherski Andrei G, Wickens Marvin, Kimble Judith

机构信息

Cellular and Molecular Biology Training Program, University of Wisconsin-Madison, Madison, WI 53706, USA.

出版信息

Development. 2005 Aug;132(15):3471-81. doi: 10.1242/dev.01921. Epub 2005 Jul 6.

DOI:10.1242/dev.01921
PMID:16000383
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1350643/
Abstract

RNA-binding proteins control germline development in metazoans. This work focuses on control of the C. elegans germline by two RNA-binding proteins: FOG-1, a CPEB homolog; and FBF, a PUF family member. Previous studies have shown that FOG-1 specifies the sperm fate and that FBF promotes proliferation. Here, we report that FOG-1 also promotes proliferation. Whereas fbf-1 fbf-2 double mutants make approximately 120 germ cells, fog-1; fbf-1 fbf-2 triple mutants make only approximately 10 germ cells. The triple mutant germline divides normally until early L2, when germ cells prematurely enter meiosis and begin oogenesis. Importantly, fog-1/+; fbf-1 fbf-2 animals make more germ cells than fbf-1 fbf-2 double mutants, demonstrating that one dose of wild-type fog-1 promotes proliferation more effectively than two doses - at least in the absence of FBF. FOG-1 protein is barely detectable in proliferating germ cells, but abundant in germ cells destined for spermatogenesis. Based on fog-1 dose effects, together with the gradient of FOG-1 protein abundance, we suggest that low FOG-1 promotes proliferation and high FOG-1 specifies spermatogenesis. FBF binds specifically to regulatory elements in the fog-1 3'UTR, and FOG-1 increases in animals lacking FBF. Therefore, FBF represses fog-1 expression. We suggest that FBF promotes continued proliferation, at least in part, by maintaining FOG-1 at a low level appropriate for proliferation. The dose-dependent control of proliferation and cell fate by FOG-1 has striking parallels with Xenopus CPEB, suggesting a conserved mechanism in animal development.

摘要

RNA结合蛋白控制后生动物的种系发育。这项工作聚焦于两种RNA结合蛋白对秀丽隐杆线虫种系的控制:FOG-1,一种CPEB同源物;以及FBF,一种PUF家族成员。先前的研究表明,FOG-1决定精子命运,而FBF促进增殖。在此,我们报告FOG-1也促进增殖。fbf-1 fbf-2双突变体产生大约120个生殖细胞,而fog-1; fbf-1 fbf-2三突变体仅产生大约10个生殖细胞。三突变体种系在L2早期之前正常分裂,此时生殖细胞过早进入减数分裂并开始卵子发生。重要的是,fog-1/+; fbf-1 fbf-2动物产生的生殖细胞比fbf-1 fbf-2双突变体更多,表明一剂野生型fog-1比两剂更有效地促进增殖——至少在没有FBF的情况下如此。FOG-1蛋白在增殖的生殖细胞中几乎检测不到,但在注定进行精子发生的生殖细胞中大量存在。基于fog-1剂量效应以及FOG-1蛋白丰度梯度,我们认为低水平的FOG-1促进增殖,而高水平的FOG-1决定精子发生。FBF特异性结合fog-1 3'UTR中的调控元件,并且在缺乏FBF的动物中FOG-1增加。因此,FBF抑制fog-1表达。我们认为,FBF至少部分地通过将FOG-1维持在适合增殖的低水平来促进持续增殖。FOG-1对增殖和细胞命运的剂量依赖性控制与非洲爪蟾CPEB有显著相似之处,表明动物发育中存在保守机制。

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