Neosynthesis and Activation of Rho by Escherichia coli Cytotoxic Necrotizing Factor (CNF1) Reverse Cytopathic Effects of ADP-ribosylated Rho

Clostridium botulinum exoenzyme C3 inactivates the small GTPase Rho by ADP-ribosylation. We used a C3 fusion toxin (C2IN-C3) with high cell accessibility to study the kinetics of Rho inactivation by ADP-ribosylation. In primary cultures of rat astroglial cells and Chinese hamster ovary cells, C2IN-C...

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Veröffentlicht in:	The Journal of biological chemistry 1999-09, Vol.274 (39), p.27407-27414
Hauptverfasser:	Barth, Holger, Olenik, Claudia, Sehr, Peter, Schmidt, Gudula, Aktories, Klaus, Meyer, Dieter K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosine Diphosphate Ribose - metabolism ADP-ribosylation Animals Astrocytes - cytology Astrocytes - metabolism Bacterial Toxins - metabolism Botulinum Toxins - toxicity Cell Survival - drug effects CHO Cells Clostridium botulinum - metabolism Cricetinae Cycloheximide - pharmacology cytotoxic necrotizing factor Cytotoxins - metabolism Escherichia coli Escherichia coli - metabolism Escherichia coli Proteins Glutamine GTP Phosphohydrolases - metabolism GTPase-Activating Proteins - metabolism Kinetics Poly(ADP-ribose) Polymerases - metabolism Puromycin - pharmacology Rats Recombinant Fusion Proteins - toxicity Rho protein transcription termination factor Transfection
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container_issue	39
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container_title	The Journal of biological chemistry
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creator	Barth, Holger Olenik, Claudia Sehr, Peter Schmidt, Gudula Aktories, Klaus Meyer, Dieter K.
description	Clostridium botulinum exoenzyme C3 inactivates the small GTPase Rho by ADP-ribosylation. We used a C3 fusion toxin (C2IN-C3) with high cell accessibility to study the kinetics of Rho inactivation by ADP-ribosylation. In primary cultures of rat astroglial cells and Chinese hamster ovary cells, C2IN-C3 induced the complete ADP-ribosylation of RhoA and concomitantly the disassembly of stress fibers within 3 h. Removal of C2IN-C3 from the medium caused the recovery of stress fibers and normal cell morphology within 4 h. The regeneration was preceded by the appearance of non-ADP-ribosylated RhoA. Recovery of cell morphology was blocked by the proteasome inhibitor lactacystin and by the translation inhibitors cycloheximide and puromycin, indicating that intracellular degradation of the C3 fusion toxin and the neosynthesis of Rho were required for reversal of cell morphology. Escherichia colicytotoxic necrotizing factor CNF1, which activates Rho by deamidation of Gln63, caused reconstitution of stress fibers and cell morphology in C2IN-C3-treated cells within 30–60 min. The effect of CNF1 was independent of RhoA neosynthesis and occurred in the presence of completely ADP-ribosylated RhoA. The data show three novel findings; 1) the cytopathic effects of ADP-ribosylation of Rho are rapidly reversed by neosynthesis of Rho, 2) CNF1-induced deamidation activates ADP-ribosylated Rho, and 3) inhibition of Rho activation but not inhibition of Rho-effector interaction is a major mechanism underlying inhibition of cellular functions of Rho by ADP-ribosylation.
doi_str_mv	10.1074/jbc.274.39.27407
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We used a C3 fusion toxin (C2IN-C3) with high cell accessibility to study the kinetics of Rho inactivation by ADP-ribosylation. In primary cultures of rat astroglial cells and Chinese hamster ovary cells, C2IN-C3 induced the complete ADP-ribosylation of RhoA and concomitantly the disassembly of stress fibers within 3 h. Removal of C2IN-C3 from the medium caused the recovery of stress fibers and normal cell morphology within 4 h. The regeneration was preceded by the appearance of non-ADP-ribosylated RhoA. Recovery of cell morphology was blocked by the proteasome inhibitor lactacystin and by the translation inhibitors cycloheximide and puromycin, indicating that intracellular degradation of the C3 fusion toxin and the neosynthesis of Rho were required for reversal of cell morphology. Escherichia colicytotoxic necrotizing factor CNF1, which activates Rho by deamidation of Gln63, caused reconstitution of stress fibers and cell morphology in C2IN-C3-treated cells within 30–60 min. The effect of CNF1 was independent of RhoA neosynthesis and occurred in the presence of completely ADP-ribosylated RhoA. The data show three novel findings; 1) the cytopathic effects of ADP-ribosylation of Rho are rapidly reversed by neosynthesis of Rho, 2) CNF1-induced deamidation activates ADP-ribosylated Rho, and 3) inhibition of Rho activation but not inhibition of Rho-effector interaction is a major mechanism underlying inhibition of cellular functions of Rho by ADP-ribosylation.</description><identifier>ISSN: 0021-9258</identifier><identifier>EISSN: 1083-351X</identifier><identifier>DOI: 10.1074/jbc.274.39.27407</identifier><identifier>PMID: 10488072</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Adenosine Diphosphate Ribose - metabolism ; ADP-ribosylation ; Animals ; Astrocytes - cytology ; Astrocytes - metabolism ; Bacterial Toxins - metabolism ; Botulinum Toxins - toxicity ; Cell Survival - drug effects ; CHO Cells ; Clostridium botulinum - metabolism ; Cricetinae ; Cycloheximide - pharmacology ; cytotoxic necrotizing factor ; Cytotoxins - metabolism ; Escherichia coli ; Escherichia coli - metabolism ; Escherichia coli Proteins ; Glutamine ; GTP Phosphohydrolases - metabolism ; GTPase-Activating Proteins - metabolism ; Kinetics ; Poly(ADP-ribose) Polymerases - metabolism ; Puromycin - pharmacology ; Rats ; Recombinant Fusion Proteins - toxicity ; Rho protein ; transcription termination factor ; Transfection</subject><ispartof>The Journal of biological chemistry, 1999-09, Vol.274 (39), p.27407-27414</ispartof><rights>1999 © 1999 ASBMB. 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The effect of CNF1 was independent of RhoA neosynthesis and occurred in the presence of completely ADP-ribosylated RhoA. 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Olenik, Claudia ; Sehr, Peter ; Schmidt, Gudula ; Aktories, Klaus ; Meyer, Dieter K.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c448t-e26abc3b806ac0a9acda9bd709dfb2dbeb9f2b9f108dd380fddf2713bb6743873</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1999</creationdate><topic>Adenosine Diphosphate Ribose - metabolism</topic><topic>ADP-ribosylation</topic><topic>Animals</topic><topic>Astrocytes - cytology</topic><topic>Astrocytes - metabolism</topic><topic>Bacterial Toxins - metabolism</topic><topic>Botulinum Toxins - toxicity</topic><topic>Cell Survival - drug effects</topic><topic>CHO Cells</topic><topic>Clostridium botulinum - metabolism</topic><topic>Cricetinae</topic><topic>Cycloheximide - pharmacology</topic><topic>cytotoxic necrotizing factor</topic><topic>Cytotoxins - metabolism</topic><topic>Escherichia coli</topic><topic>Escherichia coli - metabolism</topic><topic>Escherichia coli Proteins</topic><topic>Glutamine</topic><topic>GTP Phosphohydrolases - metabolism</topic><topic>GTPase-Activating Proteins - metabolism</topic><topic>Kinetics</topic><topic>Poly(ADP-ribose) Polymerases - metabolism</topic><topic>Puromycin - pharmacology</topic><topic>Rats</topic><topic>Recombinant Fusion Proteins - toxicity</topic><topic>Rho protein</topic><topic>transcription termination factor</topic><topic>Transfection</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Barth, Holger</creatorcontrib><creatorcontrib>Olenik, Claudia</creatorcontrib><creatorcontrib>Sehr, Peter</creatorcontrib><creatorcontrib>Schmidt, Gudula</creatorcontrib><creatorcontrib>Aktories, Klaus</creatorcontrib><creatorcontrib>Meyer, Dieter K.</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Bacteriology Abstracts (Microbiology B)</collection><collection>Environmental Sciences and Pollution Management</collection><jtitle>The Journal of biological chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Barth, Holger</au><au>Olenik, Claudia</au><au>Sehr, Peter</au><au>Schmidt, Gudula</au><au>Aktories, Klaus</au><au>Meyer, Dieter K.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Neosynthesis and Activation of Rho by Escherichia coli Cytotoxic Necrotizing Factor (CNF1) Reverse Cytopathic Effects of ADP-ribosylated Rho</atitle><jtitle>The Journal of biological chemistry</jtitle><addtitle>J Biol Chem</addtitle><date>1999-09-24</date><risdate>1999</risdate><volume>274</volume><issue>39</issue><spage>27407</spage><epage>27414</epage><pages>27407-27414</pages><issn>0021-9258</issn><eissn>1083-351X</eissn><abstract>Clostridium botulinum exoenzyme C3 inactivates the small GTPase Rho by ADP-ribosylation. We used a C3 fusion toxin (C2IN-C3) with high cell accessibility to study the kinetics of Rho inactivation by ADP-ribosylation. In primary cultures of rat astroglial cells and Chinese hamster ovary cells, C2IN-C3 induced the complete ADP-ribosylation of RhoA and concomitantly the disassembly of stress fibers within 3 h. Removal of C2IN-C3 from the medium caused the recovery of stress fibers and normal cell morphology within 4 h. The regeneration was preceded by the appearance of non-ADP-ribosylated RhoA. Recovery of cell morphology was blocked by the proteasome inhibitor lactacystin and by the translation inhibitors cycloheximide and puromycin, indicating that intracellular degradation of the C3 fusion toxin and the neosynthesis of Rho were required for reversal of cell morphology. Escherichia colicytotoxic necrotizing factor CNF1, which activates Rho by deamidation of Gln63, caused reconstitution of stress fibers and cell morphology in C2IN-C3-treated cells within 30–60 min. The effect of CNF1 was independent of RhoA neosynthesis and occurred in the presence of completely ADP-ribosylated RhoA. The data show three novel findings; 1) the cytopathic effects of ADP-ribosylation of Rho are rapidly reversed by neosynthesis of Rho, 2) CNF1-induced deamidation activates ADP-ribosylated Rho, and 3) inhibition of Rho activation but not inhibition of Rho-effector interaction is a major mechanism underlying inhibition of cellular functions of Rho by ADP-ribosylation.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>10488072</pmid><doi>10.1074/jbc.274.39.27407</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adenosine Diphosphate Ribose - metabolism ADP-ribosylation Animals Astrocytes - cytology Astrocytes - metabolism Bacterial Toxins - metabolism Botulinum Toxins - toxicity Cell Survival - drug effects CHO Cells Clostridium botulinum - metabolism Cricetinae Cycloheximide - pharmacology cytotoxic necrotizing factor Cytotoxins - metabolism Escherichia coli Escherichia coli - metabolism Escherichia coli Proteins Glutamine GTP Phosphohydrolases - metabolism GTPase-Activating Proteins - metabolism Kinetics Poly(ADP-ribose) Polymerases - metabolism Puromycin - pharmacology Rats Recombinant Fusion Proteins - toxicity Rho protein transcription termination factor Transfection
title	Neosynthesis and Activation of Rho by Escherichia coli Cytotoxic Necrotizing Factor (CNF1) Reverse Cytopathic Effects of ADP-ribosylated Rho
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