Importance of the filamin A-Sav1 interaction in organ size control: evidence from transgenic mice.

IF 1 4区 生物学 Q4 DEVELOPMENTAL BIOLOGY International Journal of Developmental Biology Pub Date : 2023-01-01 DOI:10.1387/ijdb.230054fn
Huaguan Zhang, Ziwei Yang, Fumihiko Nakamura
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Abstract

The nucleocytoplasmic translocation of yes-associated protein 1 (YAP1) controls the growth of animal tissues and organs. YAP1 binds to transcription factors in the nucleus to activate the transcription of proliferation and anti-apoptotic genes. The Hippo pathway prevents the nuclear translocation of YAP1 by phosphorylating YAP1, while mechanical forces promote it by opening the nuclear pore complex and stimulating other signaling pathways. Recently we found that Protein salvador homolog 1 (SAV1), a component of the Hippo pathway, interacts with filamin A (FLNA) in a force-dependent manner, raising a possibility that the Hippo pathway is regulated by mechanical force through the FLNA-SAV1 axis. To test this hypothesis, we generated conditional knock-in (KI) mice expressing non-Flna-binding mutant Sav1 in hepatocytes by crossing with mice carrying Cre recombinase driven by the serum albumin (alb) gene promoter. Unexpectedly, the insertion of the flox cassette skipped exon 2, resulting in a shorter Sav1 in all the transgenic mice. Since exon 2 encodes a fragment containing a Flna-binding domain, we analyzed both point mutant KI and exon 2-deleted mutant mice. Here we show that disruption of the Flna-Sav1 interaction in the mouse liver promotes apoptosis and suppresses tissue and organ growth without affecting the phosphorylation level of Yap1. These results provide evidence that the growth of animal tissues and organs is regulated by apoptosis downstream of the force-dependent FLNA-SAV1 interaction, at least in part.

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丝蛋白A-Sav1相互作用在器官大小控制中的重要性:来自转基因小鼠的证据
yes相关蛋白1 (YAP1)的核胞质易位控制着动物组织和器官的生长。YAP1与细胞核内的转录因子结合,激活增殖和抗凋亡基因的转录。Hippo通路通过磷酸化YAP1来阻止YAP1的核易位,而机械力通过打开核孔复合物和刺激其他信号通路来促进YAP1的核易位。最近,我们发现蛋白质萨尔瓦多同源物1 (SAV1), Hippo通路的一个组成部分,以力依赖的方式与丝蛋白a (FLNA)相互作用,提出了通过FLNA-SAV1轴受机械力调节Hippo通路的可能性。为了验证这一假设,我们通过与携带血清白蛋白(alb)基因启动子驱动的Cre重组酶的小鼠杂交,在肝细胞中产生了表达非flna结合突变体Sav1的条件敲入(KI)小鼠。出乎意料的是,flox盒的插入跳过了外显子2,导致所有转基因小鼠的Sav1变短。由于外显子2编码一个含有flna结合域的片段,我们分析了点突变体KI和外显子2缺失突变体小鼠。本研究表明,破坏小鼠肝脏中Flna-Sav1相互作用可促进细胞凋亡,抑制组织和器官生长,而不影响Yap1的磷酸化水平。这些结果提供了证据,证明动物组织和器官的生长至少在一定程度上受到力依赖性FLNA-SAV1相互作用下游细胞凋亡的调节。
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来源期刊
CiteScore
1.90
自引率
0.00%
发文量
16
审稿时长
2 months
期刊介绍: The International Journal of Developmental Biology (ISSN: 0214- 6282) is an independent, not for profit scholarly journal, published by scientists, for scientists. The journal publishes papers which throw light on our understanding of animal and plant developmental mechanisms in health and disease and, in particular, research which elucidates the developmental principles underlying stem cell properties and cancer. Technical, historical or theoretical approaches also fall within the scope of the journal. Criteria for acceptance include scientific excellence, novelty and quality of presentation of data and illustrations. Advantages of publishing in the journal include: rapid publication; free unlimited color reproduction; no page charges; free publication of online supplementary material; free publication of audio files (MP3 type); one-to-one personalized attention at all stages during the editorial process. An easy online submission facility and an open online access option, by means of which papers can be published without any access restrictions. In keeping with its mission, the journal offers free online subscriptions to academic institutions in developing countries.
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