Hippo 通路在生长控制和神经命运中的相反反馈。
Opposite feedbacks in the Hippo pathway for growth control and neural fate.
机构信息
Center for Developmental Genetics, Department of Biology, New York University, New York, NY 10003, USA.
出版信息
Science. 2013 Oct 11;342(6155):1238016. doi: 10.1126/science.1238016. Epub 2013 Aug 29.
Abstract
Signaling pathways are reused for multiple purposes in plant and animal development. The Hippo pathway in mammals and Drosophila coordinates proliferation and apoptosis via the coactivator and oncoprotein YAP/Yorkie (Yki), which is homeostatically regulated through negative feedback. In the Drosophila eye, cross-repression between the Hippo pathway kinase LATS/Warts (Wts) and growth regulator Melted generates mutually exclusive photoreceptor subtypes. Here, we show that this all-or-nothing neuronal differentiation results from Hippo pathway positive feedback: Yki both represses its negative regulator, warts, and promotes its positive regulator, melted. This postmitotic Hippo network behavior relies on a tissue-restricted transcription factor network-including a conserved Otx/Orthodenticle-Nrl/Traffic Jam feedforward module-that allows Warts-Yki-Melted to operate as a bistable switch. Altering feedback architecture provides an efficient mechanism to co-opt conserved signaling networks for diverse purposes in development and evolution.
摘要
信号通路在动植物发育过程中被重复用于多种目的。哺乳动物和果蝇中的 Hippo 通路通过共激活因子和癌蛋白 YAP/Yorkie (Yki) 协调增殖和凋亡,Yki 通过负反馈进行稳态调节。在果蝇眼中,Hippo 通路激酶 LATS/Warts (Wts) 和生长调节剂 Melted 之间的交叉抑制产生了相互排斥的光感受器亚型。在这里,我们表明这种非此即彼的神经元分化源自 Hippo 通路的正反馈:Yki 既抑制其负调节剂 Warts,又促进其正调节剂 Melted。这种有丝分裂后 Hippo 网络行为依赖于组织特异性转录因子网络,包括保守的 Otx/Orthodenticle-Nrl/Traffic Jam 前馈模块,使 Warts-Yki-Melted 能够作为双稳态开关运作。改变反馈结构为在发育和进化过程中为不同目的共同利用保守的信号网络提供了一种有效的机制。
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