Literature DB >> 23431053

The Hippo pathway: regulators and regulations.

Fa-Xing Yu1, Kun-Liang Guan.   

Abstract

Control of cell number is crucial in animal development and tissue homeostasis, and its dysregulation may result in tumor formation or organ degeneration. The Hippo pathway in both Drosophila and mammals regulates cell number by modulating cell proliferation, cell death, and cell differentiation. Recently, numerous upstream components involved in the Hippo pathway have been identified, such as cell polarity, mechanotransduction, and G-protein-coupled receptor (GPCR) signaling. Actin cytoskeleton or cellular tension appears to be the master mediator that integrates and transmits upstream signals to the core Hippo signaling cascade. Here, we review regulatory mechanisms of the Hippo pathway and discuss potential implications involved in different physiological and pathological conditions.

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Year:  2013        PMID: 23431053      PMCID: PMC3589553          DOI: 10.1101/gad.210773.112

Source DB:  PubMed          Journal:  Genes Dev        ISSN: 0890-9369            Impact factor:   11.361


  210 in total

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Review 2.  Coupling cell division and cell death to microtubule dynamics.

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Review 3.  The thyrotropin receptor in thyroid diseases.

Authors:  R Paschke; M Ludgate
Journal:  N Engl J Med       Date:  1997-12-04       Impact factor: 91.245

4.  The fat cadherin acts through the hippo tumor-suppressor pathway to regulate tissue size.

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Journal:  Curr Biol       Date:  2006-09-21       Impact factor: 10.834

5.  Intracellular mechanisms involved in dopamine-induced actin cytoskeleton organization and maintenance of a round phenotype in cultured rat lactotrope cells.

Authors:  B Nguyen; M E Carbajal; M L Vitale
Journal:  Endocrinology       Date:  1999-08       Impact factor: 4.736

6.  Itch E3 ubiquitin ligase regulates large tumor suppressor 1 stability [corrected].

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Journal:  Proc Natl Acad Sci U S A       Date:  2011-03-07       Impact factor: 11.205

7.  PTH-induced actin depolymerization increases mechanosensitive channel activity to enhance mechanically stimulated Ca2+ signaling in osteoblasts.

Authors:  Jinsong Zhang; Kimberly D Ryder; Jody A Bethel; Raymund Ramirez; Randall L Duncan
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8.  Structural insights into the YAP and TEAD complex.

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Authors:  Dawang Zhou; Claudius Conrad; Fan Xia; Ji-Sun Park; Bernhard Payer; Yi Yin; Gregory Y Lauwers; Wolfgang Thasler; Jeannie T Lee; Joseph Avruch; Nabeel Bardeesy
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10.  MST kinases monitor actin cytoskeletal integrity and signal via c-Jun N-terminal kinase stress-activated kinase to regulate p21Waf1/Cip1 stability.

Authors:  Ruth M Densham; Eric O'Neill; June Munro; Ireen König; Kurt Anderson; Walter Kolch; Michael F Olson
Journal:  Mol Cell Biol       Date:  2009-10-12       Impact factor: 4.272
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  548 in total

1.  YAP Enhances Tumor Cell Dissemination by Promoting Intravascular Motility and Reentry into Systemic Circulation.

Authors:  David C Benjamin; Joon Ho Kang; Bashar Hamza; Emily M King; John M Lamar; Scott R Manalis; Richard O Hynes
Journal:  Cancer Res       Date:  2020-06-26       Impact factor: 12.701

2.  YAP activates the Hippo pathway in a negative feedback loop.

Authors:  Xiaoming Dai; Huan Liu; Shuying Shen; Xiaocan Guo; Huan Yan; Xinyan Ji; Li Li; Jun Huang; Xin-Hua Feng; Bin Zhao
Journal:  Cell Res       Date:  2015-08-28       Impact factor: 25.617

3.  Ci antagonizes Hippo signaling in the somatic cells of the ovary to drive germline stem cell differentiation.

Authors:  Chaoyi Li; Lijuan Kan; Yan Chen; Xiudeng Zheng; Weini Li; Wenxin Zhang; Lei Cao; Xiaohui Lin; Shanming Ji; Shoujun Huang; Guoqiang Zhang; Xiaohui Liu; Yi Tao; Shian Wu; Dahua Chen
Journal:  Cell Res       Date:  2015-09-25       Impact factor: 25.617

4.  Yorkie regulates epidermal wound healing in Drosophila larvae independently of cell proliferation and apoptosis.

Authors:  Chang-Ru Tsai; Aimee E Anderson; Sirisha Burra; Juyeon Jo; Michael J Galko
Journal:  Dev Biol       Date:  2017-05-14       Impact factor: 3.582

5.  The Hippo pathway effectors TAZ/YAP regulate dicer expression and microRNA biogenesis through Let-7.

Authors:  Steven G Chaulk; Victoria J Lattanzi; Samantha E Hiemer; Richard P Fahlman; Xaralabos Varelas
Journal:  J Biol Chem       Date:  2013-12-09       Impact factor: 5.157

6.  Crumbs promotes expanded recognition and degradation by the SCF(Slimb/β-TrCP) ubiquitin ligase.

Authors:  Paulo Ribeiro; Maxine Holder; David Frith; Ambrosius P Snijders; Nicolas Tapon
Journal:  Proc Natl Acad Sci U S A       Date:  2014-04-28       Impact factor: 11.205

7.  Monitoring Hippo Signaling Pathway Activity Using a Luciferase-based Large Tumor Suppressor (LATS) Biosensor.

Authors:  Taha Azad; Kazem Nouri; Helena J Janse van Rensburg; Yawei Hao; Xiaolong Yang
Journal:  J Vis Exp       Date:  2018-09-13       Impact factor: 1.355

8.  A conserved MST1/2-YAP axis mediates Hippo signaling during lung growth.

Authors:  Chuwen Lin; Erica Yao; Pao-Tien Chuang
Journal:  Dev Biol       Date:  2015-04-24       Impact factor: 3.582

9.  RASSF6 exhibits promoter hypermethylation in metastatic melanoma and inhibits invasion in melanoma cells.

Authors:  Jessica J Mezzanotte; Victoria Hill; M Lee Schmidt; Thoraia Shinawi; Stella Tommasi; Dietmar Krex; Gabriele Schackert; Gerd P Pfeifer; Farida Latif; Geoffrey J Clark
Journal:  Epigenetics       Date:  2014-11       Impact factor: 4.528

10.  The GTPase regulatory proteins Pix and Git control tissue growth via the Hippo pathway.

Authors:  Lucas G Dent; Carole L C Poon; Xiaomeng Zhang; Joffrey L Degoutin; Marla Tipping; Alexey Veraksa; Kieran F Harvey
Journal:  Curr Biol       Date:  2014-12-04       Impact factor: 10.834
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