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Literature DB >> 26954546

Drosophila Schip1 Links Expanded and Tao-1 to Regulate Hippo Signaling.

Hyung-Lok Chung¹, George J Augustine², Kwang-Wook Choi³.

Abstract

Regulation of organ size is essential in animal development, and Hippo (Hpo) signaling is a major conserved mechanism for controlling organ growth. In Drosophila, Hpo and Warts kinases are core components of this pathway and function as tumor suppressors by inhibiting Yorkie (Yki). Expanded (Ex) is a regulator of the Hpo activity, but how they are linked is unknown. Here, we show that Schip1, a Drosophila homolog of the mammalian Schwannomin interacting protein 1 (SCHIP1), provides a link between Ex and Hpo. Ex is required for apical localization of Schip1 in imaginal discs. Schip1 is necessary for promoting membrane localization and phosphorylation of Hpo by recruiting the Hpo kinase Tao-1. Taking these findings together, we conclude that Schip1 directly links Ex to Hpo signaling by recruiting Tao-1. This study provides insights into the mechanism of Tao-1 regulation and a potential growth control function for SCHIP1 in mammals.

Entities: Disease Gene Species

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Year: 2016 PMID： 26954546 DOI： 10.1016/j.devcel.2016.02.004

Source DB: PubMed Journal: Dev Cell ISSN： 1534-5807 Impact factor: 12.270

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Cited

21 in total

1. Schwannomin-interacting Protein 1 Isoform IQCJ-SCHIP1 Is a Multipartner Ankyrin- and Spectrin-binding Protein Involved in the Organization of Nodes of Ranvier.

Authors: Pierre-Marie Martin; Carmen Cifuentes-Diaz; Jérôme Devaux; Marta Garcia; Jocelyne Bureau; Sylvie Thomasseau; Esther Klingler; Jean-Antoine Girault; Laurence Goutebroze
Journal: J Biol Chem Date: 2016-12-15 Impact factor: 5.157

2. Schip1, a new upstream regulator of Hippo signaling.

Authors: Hyung-Lok Chung; Kwang-Wook Choi
Journal: Cell Cycle Date: 2016-05-31 Impact factor: 4.534

3. Loss- or Gain-of-Function Mutations in ACOX1 Cause Axonal Loss via Different Mechanisms.

Authors: Hyung-Lok Chung; Michael F Wangler; Paul C Marcogliese; Juyeon Jo; Thomas A Ravenscroft; Zhongyuan Zuo; Lita Duraine; Sina Sadeghzadeh; David Li-Kroeger; Robert E Schmidt; Alan Pestronk; Jill A Rosenfeld; Lindsay Burrage; Mitchell J Herndon; Shan Chen; Amelle Shillington; Marissa Vawter-Lee; Robert Hopkin; Jackeline Rodriguez-Smith; Michael Henrickson; Brendan Lee; Ann B Moser; Richard O Jones; Paul Watkins; Taekyeong Yoo; Soe Mar; Murim Choi; Robert C Bucelli; Shinya Yamamoto; Hyun Kyoung Lee; Carlos E Prada; Jong-Hee Chae; Tiphanie P Vogel; Hugo J Bellen
Journal: Neuron Date: 2020-03-12 Impact factor: 17.173

4. Kibra and Merlin Activate the Hippo Pathway Spatially Distinct from and Independent of Expanded.

Authors: Ting Su; Michael Z Ludwig; Jiajie Xu; Richard G Fehon
Journal: Dev Cell Date: 2017-03-13 Impact factor: 12.270

5. Yorkie Functions at the Cell Cortex to Promote Myosin Activation in a Non-transcriptional Manner.

Authors: Jiajie Xu; Pamela J Vanderzalm; Michael Ludwig; Ting Su; Sherzod A Tokamov; Richard G Fehon
Journal: Dev Cell Date: 2018-07-19 Impact factor: 12.270

6. A Hippo-like Signaling Pathway Controls Tracheal Morphogenesis in Drosophila melanogaster.

Authors: Carole L C Poon; Weijie Liu; Yanjun Song; Marta Gomez; Yavuz Kulaberoglu; Xiaomeng Zhang; Wenjian Xu; Alexey Veraksa; Alexander Hergovich; Amin Ghabrial; Kieran F Harvey
Journal: Dev Cell Date: 2018-10-25 Impact factor: 12.270

7. Rox8 promotes microRNA-dependent yki messenger RNA decay.

Authors: Xiaowei Guo; Yihao Sun; Taha Azad; H J Janse van Rensburg; Jingjing Luo; Shuai Yang; Peng Liu; Zhongwei Lv; Meixiao Zhan; Ligong Lu; Yingqun Zhou; Xianjue Ma; Xiaoping Zhang; Xiaolong Yang; Lei Xue
Journal: Proc Natl Acad Sci U S A Date: 2020-11-17 Impact factor: 11.205