Regulation of the endothelial plasminogen activator system by fluvastatin: Role of Rho family proteins, actin polymerisation and p38 MAP kinase

Statins are cholesterol-lowering drugs that exert pleiotropic effects which include changes in the plasminogen activation (PA) system of endothelial cells (EC). It was the objective of this study to investigate the signal transduction pathways by which statins increase the expression of tissue-type...

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Veröffentlicht in:	Thrombosis and haemostasis 2011-03, Vol.105 (3), p.461-472
Hauptverfasser:	DUNOYER-GEINDRE, Sylvie, FISH, Richard J, KRUITHOF, Egbert K. O
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Sprache:	eng
Schlagworte:	Actins - chemistry Adenoviridae - genetics Alkyl and Aryl Transferases - antagonists & inhibitors Biological and medical sciences Blood coagulation. Blood cells Bridged Bicyclo Compounds, Heterocyclic - metabolism cdc42 GTP-Binding Protein - metabolism Dose-Response Relationship, Drug Endothelial Cells - cytology Fatty Acids, Monounsaturated - metabolism Fatty Acids, Monounsaturated - pharmacology Fundamental and applied biological sciences. Psychology GTP-Binding Proteins - metabolism Hematologic and hematopoietic diseases Humans Hydroxymethylglutaryl-CoA Reductase Inhibitors - pharmacology Indoles - metabolism Indoles - pharmacology Medical sciences Molecular and cellular biology p38 Mitogen-Activated Protein Kinases - metabolism Plasminogen Activators - metabolism Platelet diseases and coagulopathies Reverse Transcriptase Polymerase Chain Reaction RNA, Small Interfering - metabolism Thiazolidines - metabolism
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description	Statins are cholesterol-lowering drugs that exert pleiotropic effects which include changes in the plasminogen activation (PA) system of endothelial cells (EC). It was the objective of this study to investigate the signal transduction pathways by which statins increase the expression of tissue-type PA (t-PA) and decrease PA inhibitor type 1 (PAI-1) in human umbilical vein EC. Fluvastatin treatment increased t-PA expression more than 10-fold and reduced PAI-1 expression up to five-fold. This effect was mimicked by geranylgeranyl transferase inhibition. The role of geranylgeranylated small G-proteins of the Rho family was assessed by adenovirus-mediated expression of dominant negative (DN) RhoA, Cdc42 and Rac1 and by siRNA-mediated suppression of these proteins. DN-Cdc42 and DN-Rac1, as well as siRNA for Cdc42, increased t-PA expression, while DN-RhoA and DN-Rac1 decreased PAI-1 expression. Latrunculin B, an inhibitor of actin polymerisation, increased t-PA mRNA and reduced PAI-1 mRNA to the same extent as fluvastatin. Inhibition of p38, as well as p38α or p38β siRNA, reversed the effects of fluvastatin on t-PA expression. Treatment with p38β siRNA partially reversed the effect of fluvastatin on PAI-1, whereas p38α siRNA had no significant effect. Inhibition of jun kinase reduced basal and fluvastatin-induced t-PA expression to the same extent and increased PAI-1. MEK/ERK inhibition had no effect. In human EC, the fluvastatin-induced increase in t-PA is mediated by Cdc42 and, as with t-PA induced by inhibition of actin polymerisation, requires activation of p38MAP kinase. The mechanisms by which fluvastatin treatment reduces PAI-1 are different from those that increase t-PA.
doi_str_mv	10.1160/TH10-07-0444
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O</creatorcontrib><title>Regulation of the endothelial plasminogen activator system by fluvastatin: Role of Rho family proteins, actin polymerisation and p38 MAP kinase</title><title>Thrombosis and haemostasis</title><addtitle>Thromb Haemost</addtitle><description>Statins are cholesterol-lowering drugs that exert pleiotropic effects which include changes in the plasminogen activation (PA) system of endothelial cells (EC). It was the objective of this study to investigate the signal transduction pathways by which statins increase the expression of tissue-type PA (t-PA) and decrease PA inhibitor type 1 (PAI-1) in human umbilical vein EC. Fluvastatin treatment increased t-PA expression more than 10-fold and reduced PAI-1 expression up to five-fold. This effect was mimicked by geranylgeranyl transferase inhibition. The role of geranylgeranylated small G-proteins of the Rho family was assessed by adenovirus-mediated expression of dominant negative (DN) RhoA, Cdc42 and Rac1 and by siRNA-mediated suppression of these proteins. DN-Cdc42 and DN-Rac1, as well as siRNA for Cdc42, increased t-PA expression, while DN-RhoA and DN-Rac1 decreased PAI-1 expression. Latrunculin B, an inhibitor of actin polymerisation, increased t-PA mRNA and reduced PAI-1 mRNA to the same extent as fluvastatin. Inhibition of p38, as well as p38α or p38β siRNA, reversed the effects of fluvastatin on t-PA expression. Treatment with p38β siRNA partially reversed the effect of fluvastatin on PAI-1, whereas p38α siRNA had no significant effect. Inhibition of jun kinase reduced basal and fluvastatin-induced t-PA expression to the same extent and increased PAI-1. MEK/ERK inhibition had no effect. In human EC, the fluvastatin-induced increase in t-PA is mediated by Cdc42 and, as with t-PA induced by inhibition of actin polymerisation, requires activation of p38MAP kinase. The mechanisms by which fluvastatin treatment reduces PAI-1 are different from those that increase t-PA.</description><subject>Actins - chemistry</subject><subject>Adenoviridae - genetics</subject><subject>Alkyl and Aryl Transferases - antagonists & inhibitors</subject><subject>Biological and medical sciences</subject><subject>Blood coagulation. Blood cells</subject><subject>Bridged Bicyclo Compounds, Heterocyclic - metabolism</subject><subject>cdc42 GTP-Binding Protein - metabolism</subject><subject>Dose-Response Relationship, Drug</subject><subject>Endothelial Cells - cytology</subject><subject>Fatty Acids, Monounsaturated - metabolism</subject><subject>Fatty Acids, Monounsaturated - pharmacology</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>GTP-Binding Proteins - metabolism</subject><subject>Hematologic and hematopoietic diseases</subject><subject>Humans</subject><subject>Hydroxymethylglutaryl-CoA Reductase Inhibitors - pharmacology</subject><subject>Indoles - metabolism</subject><subject>Indoles - pharmacology</subject><subject>Medical sciences</subject><subject>Molecular and cellular biology</subject><subject>p38 Mitogen-Activated Protein Kinases - metabolism</subject><subject>Plasminogen Activators - metabolism</subject><subject>Platelet diseases and coagulopathies</subject><subject>Reverse Transcriptase Polymerase Chain Reaction</subject><subject>RNA, Small Interfering - metabolism</subject><subject>Thiazolidines - metabolism</subject><issn>0340-6245</issn><issn>2567-689X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2011</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpFkEtP3TAQha2qVbnQ7rquvOmO0HFedtgh1AISFeiKSt1FY2cMBseO4lyk_Ir-ZXK5PFZn850zmo-xbwKOhKjh5825gAxkBmVZfmCrvKplVqvm30e2gqKErM7Lao_tp3QPIOqyqT6zvVwIWQLkK_Z_Tbcbj5OLgUfLpzviFLq4pHfo-eAx9S7EWwoczeQecYojT3OaqOd65tZvHjFNSz8c83X0tB1Z30VusXd-5sMYJ3IhHT63Ax-in3saXdpdxNDxoVD8z8k1f3ABE31hnyz6RF9f8oD9_f3r5vQ8u7w6uzg9ucxMLuWUGbv8KVDlFjXUZK1ErZWysikrS6BVpQzVnZXGgBa663ROjVkqnZKm0FQcsMPdrhljSiPZdhhdj-PcCmi3Xtut1xZku_W64N93-LDRPXVv8KvIBfjxAmAy6O2Iwbj0zhWqAVk1xRNPwoQO</recordid><startdate>20110301</startdate><enddate>20110301</enddate><creator>DUNOYER-GEINDRE, Sylvie</creator><creator>FISH, Richard J</creator><creator>KRUITHOF, Egbert K. 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Blood cells</topic><topic>Bridged Bicyclo Compounds, Heterocyclic - metabolism</topic><topic>cdc42 GTP-Binding Protein - metabolism</topic><topic>Dose-Response Relationship, Drug</topic><topic>Endothelial Cells - cytology</topic><topic>Fatty Acids, Monounsaturated - metabolism</topic><topic>Fatty Acids, Monounsaturated - pharmacology</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>GTP-Binding Proteins - metabolism</topic><topic>Hematologic and hematopoietic diseases</topic><topic>Humans</topic><topic>Hydroxymethylglutaryl-CoA Reductase Inhibitors - pharmacology</topic><topic>Indoles - metabolism</topic><topic>Indoles - pharmacology</topic><topic>Medical sciences</topic><topic>Molecular and cellular biology</topic><topic>p38 Mitogen-Activated Protein Kinases - metabolism</topic><topic>Plasminogen Activators - metabolism</topic><topic>Platelet diseases and coagulopathies</topic><topic>Reverse Transcriptase Polymerase Chain Reaction</topic><topic>RNA, Small Interfering - metabolism</topic><topic>Thiazolidines - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>DUNOYER-GEINDRE, Sylvie</creatorcontrib><creatorcontrib>FISH, Richard J</creatorcontrib><creatorcontrib>KRUITHOF, Egbert K. 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Fluvastatin treatment increased t-PA expression more than 10-fold and reduced PAI-1 expression up to five-fold. This effect was mimicked by geranylgeranyl transferase inhibition. The role of geranylgeranylated small G-proteins of the Rho family was assessed by adenovirus-mediated expression of dominant negative (DN) RhoA, Cdc42 and Rac1 and by siRNA-mediated suppression of these proteins. DN-Cdc42 and DN-Rac1, as well as siRNA for Cdc42, increased t-PA expression, while DN-RhoA and DN-Rac1 decreased PAI-1 expression. Latrunculin B, an inhibitor of actin polymerisation, increased t-PA mRNA and reduced PAI-1 mRNA to the same extent as fluvastatin. Inhibition of p38, as well as p38α or p38β siRNA, reversed the effects of fluvastatin on t-PA expression. Treatment with p38β siRNA partially reversed the effect of fluvastatin on PAI-1, whereas p38α siRNA had no significant effect. Inhibition of jun kinase reduced basal and fluvastatin-induced t-PA expression to the same extent and increased PAI-1. MEK/ERK inhibition had no effect. In human EC, the fluvastatin-induced increase in t-PA is mediated by Cdc42 and, as with t-PA induced by inhibition of actin polymerisation, requires activation of p38MAP kinase. The mechanisms by which fluvastatin treatment reduces PAI-1 are different from those that increase t-PA.</abstract><cop>Stuttgart</cop><pub>Schattauer</pub><pmid>21174002</pmid><doi>10.1160/TH10-07-0444</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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source	MEDLINE; Thieme Connect Journals
subjects	Actins - chemistry Adenoviridae - genetics Alkyl and Aryl Transferases - antagonists & inhibitors Biological and medical sciences Blood coagulation. Blood cells Bridged Bicyclo Compounds, Heterocyclic - metabolism cdc42 GTP-Binding Protein - metabolism Dose-Response Relationship, Drug Endothelial Cells - cytology Fatty Acids, Monounsaturated - metabolism Fatty Acids, Monounsaturated - pharmacology Fundamental and applied biological sciences. Psychology GTP-Binding Proteins - metabolism Hematologic and hematopoietic diseases Humans Hydroxymethylglutaryl-CoA Reductase Inhibitors - pharmacology Indoles - metabolism Indoles - pharmacology Medical sciences Molecular and cellular biology p38 Mitogen-Activated Protein Kinases - metabolism Plasminogen Activators - metabolism Platelet diseases and coagulopathies Reverse Transcriptase Polymerase Chain Reaction RNA, Small Interfering - metabolism Thiazolidines - metabolism
title	Regulation of the endothelial plasminogen activator system by fluvastatin: Role of Rho family proteins, actin polymerisation and p38 MAP kinase
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