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果蝇 CORL 对于 Smad2 介导的 Ecdysone Receptor 表达在蘑菇体中的激活是必需的。

Drosophila CORL is required for Smad2-mediated activation of Ecdysone Receptor expression in the mushroom body.

机构信息

School of Life Sciences, Arizona State University, Tempe, AZ 85287-4501, USA.

出版信息

Development. 2012 Sep;139(18):3392-401. doi: 10.1242/dev.079442. Epub 2012 Aug 8.

DOI:10.1242/dev.079442
PMID:22874913
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4074270/
Abstract

CORL proteins (FUSSEL/SKOR proteins in humans) are related to Sno/Ski oncogenes but their developmental roles are unknown. We have cloned Drosophila CORL and show that its expression is restricted to distinct subsets of cells in the central nervous system. We generated a deletion of CORL and noted that homozygous individuals rarely survive to adulthood. Df(4)dCORL adult escapers display mushroom body (MB) defects and Df(4)dCORL larvae are lacking Ecdysone Receptor (EcR-B1) expression in MB neurons. This is phenocopied in CORL-RNAi and Smad2-RNAi clones in wild-type larvae. Furthermore, constitutively active Baboon (type I receptor upstream of Smad2) cannot stimulate EcR-B1 MB expression in Df(4)dCORL larvae, which demonstrates a formal requirement for CORL in Smad2 signaling. Studies of mouse Corl1 (Skor1) revealed that it binds specifically to Smad3. Overall, the data suggest that CORL facilitates Smad2 activity upstream of EcR-B1 in the MB. The conservation of neural expression and strong sequence homology of all CORL proteins suggests that this is a new family of Smad co-factors.

摘要

CORL 蛋白(人类中的 FUSSEL/SKOR 蛋白)与 Sno/Ski 癌基因相关,但它们的发育作用尚不清楚。我们克隆了果蝇 CORL,并表明其表达仅限于中枢神经系统中特定的细胞亚群。我们产生了 CORL 的缺失,并注意到纯合个体很少能存活到成年。Df(4)dCORL 纯合个体逃逸者表现出蘑菇体 (MB) 缺陷,并且 Df(4)dCORL 幼虫的 MB 神经元中缺乏蜕皮激素受体 (EcR-B1) 的表达。这在 CORL-RNAi 和 Smad2-RNAi 克隆的野生型幼虫中被模拟。此外,组成型激活的狒狒(Smad2 上游的 I 型受体)不能刺激 Df(4)dCORL 幼虫中 EcR-B1 的 MB 表达,这证明了 CORL 在 Smad2 信号传导中的正式要求。对小鼠 Corl1(Skor1)的研究表明,它特异性地与 Smad3 结合。总的来说,数据表明 CORL 有助于 MB 中 EcR-B1 上游的 Smad2 活性。所有 CORL 蛋白的神经表达保守性和强序列同源性表明,这是一个新的 Smad 共因子家族。

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