GEF-H1 couples nocodazole-induced microtubule disassembly to cell contractility via RhoA

The RhoA GTPase plays a vital role in assembly of contractile actin-myosin filaments (stress fibers) and of associated focal adhesion complexes of adherent monolayer cells in culture. GEF-H1 is a microtubule-associated guanine nucleotide exchange factor that activates RhoA upon release from microtub...

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Veröffentlicht in:	Molecular biology of the cell 2008-05, Vol.19 (5), p.2147-2153
Hauptverfasser:	Chang, Yuan-Chen, Nalbant, Perihan, Birkenfeld, Jörg, Chang, Zee-Fen, Bokoch, Gary M
Format:	Artikel
Sprache:	eng
Schlagworte:	Cell Differentiation - drug effects Cell Physiological Phenomena - drug effects Guanine Nucleotide Exchange Factors - deficiency Guanine Nucleotide Exchange Factors - metabolism HeLa Cells Humans Microtubules - drug effects Microtubules - enzymology Myosin Light Chains - metabolism Nocodazole - pharmacology Rho Guanine Nucleotide Exchange Factors rhoA GTP-Binding Protein - metabolism RNA, Small Interfering - metabolism Signal Transduction - drug effects Tetradecanoylphorbol Acetate - pharmacology
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container_end_page	2153
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container_title	Molecular biology of the cell
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creator	Chang, Yuan-Chen Nalbant, Perihan Birkenfeld, Jörg Chang, Zee-Fen Bokoch, Gary M
description	The RhoA GTPase plays a vital role in assembly of contractile actin-myosin filaments (stress fibers) and of associated focal adhesion complexes of adherent monolayer cells in culture. GEF-H1 is a microtubule-associated guanine nucleotide exchange factor that activates RhoA upon release from microtubules. The overexpression of GEF-H1 deficient in microtubule binding or treatment of HeLa cells with nocodazole to induce microtubule depolymerization results in Rho-dependent actin stress fiber formation and contractile cell morphology. However, whether GEF-H1 is required and sufficient to mediate nocodazole-induced contractility remains unclear. We establish here that siRNA-mediated depletion of GEF-H1 in HeLa cells prevents nocodazole-induced cell contraction. Furthermore, the nocodazole-induced activation of RhoA and Rho-associated kinase (ROCK) that mediates phosphorylation of myosin regulatory light chain (MLC) is impaired in GEF-H1-depleted cells. Conversely, RhoA activation and contractility are rescued by reintroduction of siRNA-resistant GEF-H1. Our studies reveal a critical role for a GEF-H1/RhoA/ROCK/MLC signaling pathway in mediating nocodazole-induced cell contractility.
doi_str_mv	10.1091/mbc.E07-12-1269
format	Article
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GEF-H1 is a microtubule-associated guanine nucleotide exchange factor that activates RhoA upon release from microtubules. The overexpression of GEF-H1 deficient in microtubule binding or treatment of HeLa cells with nocodazole to induce microtubule depolymerization results in Rho-dependent actin stress fiber formation and contractile cell morphology. However, whether GEF-H1 is required and sufficient to mediate nocodazole-induced contractility remains unclear. We establish here that siRNA-mediated depletion of GEF-H1 in HeLa cells prevents nocodazole-induced cell contraction. Furthermore, the nocodazole-induced activation of RhoA and Rho-associated kinase (ROCK) that mediates phosphorylation of myosin regulatory light chain (MLC) is impaired in GEF-H1-depleted cells. Conversely, RhoA activation and contractility are rescued by reintroduction of siRNA-resistant GEF-H1. 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subjects	Cell Differentiation - drug effects Cell Physiological Phenomena - drug effects Guanine Nucleotide Exchange Factors - deficiency Guanine Nucleotide Exchange Factors - metabolism HeLa Cells Humans Microtubules - drug effects Microtubules - enzymology Myosin Light Chains - metabolism Nocodazole - pharmacology Rho Guanine Nucleotide Exchange Factors rhoA GTP-Binding Protein - metabolism RNA, Small Interfering - metabolism Signal Transduction - drug effects Tetradecanoylphorbol Acetate - pharmacology
title	GEF-H1 couples nocodazole-induced microtubule disassembly to cell contractility via RhoA
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