Temperature-Induced Changes in the Lipopolysaccharide of Yersinia pestis Affect Plasminogen Activation by the Pla Surface Protease

The Pla surface protease of Yersinia pestis activates human plasminogen and is a central virulence factor in bubonic and pneumonic plague. Pla is a transmembrane β-barrel protein and member of the omptin family of outer membrane proteases which require bound lipopolysaccharide (LPS) to be proteolyti...

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Veröffentlicht in:	Infection and Immunity 2010-06, Vol.78 (6), p.2644-2652
Hauptverfasser:	Suomalainen, Marjo, Lobo, Leandro Araujo, Brandenburg, Klaus, Lindner, Buko, Virkola, Ritva, Knirel, Yuriy A, Anisimov, Andrey P, Holst, Otto, Korhonen, Timo K
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Schlagworte:	Acylation Amino Acid Substitution Animals Arginine Bacterial Proteins - metabolism Detergents Enzymatic activity Humans Immune response Lipid A Lipid A - metabolism Lipopolysaccharides Lipopolysaccharides - metabolism Molecular Pathogenesis Mutagenesis, Site-Directed O antigen Outer membranes Phosphate Plague Plasmin plasminogen Plasminogen - metabolism Plasminogen Activators - metabolism Protein Binding Proteinase Proteolysis Temperature Temperature effects virulence factors Virulence Factors - metabolism Yersinia pestis Yersinia pestis - enzymology Yersinia pestis - radiation effects
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creator	Suomalainen, Marjo Lobo, Leandro Araujo Brandenburg, Klaus Lindner, Buko Virkola, Ritva Knirel, Yuriy A Anisimov, Andrey P Holst, Otto Korhonen, Timo K
description	The Pla surface protease of Yersinia pestis activates human plasminogen and is a central virulence factor in bubonic and pneumonic plague. Pla is a transmembrane β-barrel protein and member of the omptin family of outer membrane proteases which require bound lipopolysaccharide (LPS) to be proteolytically active. Plasminogen activation and autoprocessing of Pla were dramatically higher in Y. pestis cells grown at 37°C than in cells grown at 20°C; the difference in enzymatic activity by far exceeded the increase in the cellular content of the Pla protein. Y. pestis modifies its LPS structure in response to growth temperature. We purified His₆-Pla under denaturing conditions and compared various LPS types for their capacity to enhance plasmin formation by His₆-Pla solubilized in detergent. Reactivation of His₆-Pla was higher with Y. pestis LPSs isolated from bacteria grown at 37°C than with LPSs from cells grown at 25°C. Lack of O antigens and the presence of the outer core region as well as a lowered level of acylation in LPS were found to enhance the Pla-LPS interaction. Genetic substitution of arginine 138, which is part of a three-dimensional protein motif for binding to lipid A phosphates, decreased both the enzymatic activity of His₆-Pla and the amount of Pla in Y. pestis cells, suggesting the importance of the Pla-lipid A phosphate interaction. The temperature-induced changes in LPS are known to help Y. pestis to avoid innate immune responses, and our results strongly suggest that they also potentiate Pla-mediated proteolysis.
doi_str_mv	10.1128/IAI.01329-09
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Pla is a transmembrane β-barrel protein and member of the omptin family of outer membrane proteases which require bound lipopolysaccharide (LPS) to be proteolytically active. Plasminogen activation and autoprocessing of Pla were dramatically higher in Y. pestis cells grown at 37°C than in cells grown at 20°C; the difference in enzymatic activity by far exceeded the increase in the cellular content of the Pla protein. Y. pestis modifies its LPS structure in response to growth temperature. We purified His₆-Pla under denaturing conditions and compared various LPS types for their capacity to enhance plasmin formation by His₆-Pla solubilized in detergent. Reactivation of His₆-Pla was higher with Y. pestis LPSs isolated from bacteria grown at 37°C than with LPSs from cells grown at 25°C. Lack of O antigens and the presence of the outer core region as well as a lowered level of acylation in LPS were found to enhance the Pla-LPS interaction. Genetic substitution of arginine 138, which is part of a three-dimensional protein motif for binding to lipid A phosphates, decreased both the enzymatic activity of His₆-Pla and the amount of Pla in Y. pestis cells, suggesting the importance of the Pla-lipid A phosphate interaction. 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Pla is a transmembrane β-barrel protein and member of the omptin family of outer membrane proteases which require bound lipopolysaccharide (LPS) to be proteolytically active. Plasminogen activation and autoprocessing of Pla were dramatically higher in Y. pestis cells grown at 37°C than in cells grown at 20°C; the difference in enzymatic activity by far exceeded the increase in the cellular content of the Pla protein. Y. pestis modifies its LPS structure in response to growth temperature. We purified His₆-Pla under denaturing conditions and compared various LPS types for their capacity to enhance plasmin formation by His₆-Pla solubilized in detergent. Reactivation of His₆-Pla was higher with Y. pestis LPSs isolated from bacteria grown at 37°C than with LPSs from cells grown at 25°C. Lack of O antigens and the presence of the outer core region as well as a lowered level of acylation in LPS were found to enhance the Pla-LPS interaction. Genetic substitution of arginine 138, which is part of a three-dimensional protein motif for binding to lipid A phosphates, decreased both the enzymatic activity of His₆-Pla and the amount of Pla in Y. pestis cells, suggesting the importance of the Pla-lipid A phosphate interaction. 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Pla is a transmembrane β-barrel protein and member of the omptin family of outer membrane proteases which require bound lipopolysaccharide (LPS) to be proteolytically active. Plasminogen activation and autoprocessing of Pla were dramatically higher in Y. pestis cells grown at 37°C than in cells grown at 20°C; the difference in enzymatic activity by far exceeded the increase in the cellular content of the Pla protein. Y. pestis modifies its LPS structure in response to growth temperature. We purified His₆-Pla under denaturing conditions and compared various LPS types for their capacity to enhance plasmin formation by His₆-Pla solubilized in detergent. Reactivation of His₆-Pla was higher with Y. pestis LPSs isolated from bacteria grown at 37°C than with LPSs from cells grown at 25°C. Lack of O antigens and the presence of the outer core region as well as a lowered level of acylation in LPS were found to enhance the Pla-LPS interaction. Genetic substitution of arginine 138, which is part of a three-dimensional protein motif for binding to lipid A phosphates, decreased both the enzymatic activity of His₆-Pla and the amount of Pla in Y. pestis cells, suggesting the importance of the Pla-lipid A phosphate interaction. The temperature-induced changes in LPS are known to help Y. pestis to avoid innate immune responses, and our results strongly suggest that they also potentiate Pla-mediated proteolysis.</abstract><cop>Washington, DC</cop><pub>American Society for Microbiology</pub><pmid>20368351</pmid><doi>10.1128/IAI.01329-09</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Acylation Amino Acid Substitution Animals Arginine Bacterial Proteins - metabolism Detergents Enzymatic activity Humans Immune response Lipid A Lipid A - metabolism Lipopolysaccharides Lipopolysaccharides - metabolism Molecular Pathogenesis Mutagenesis, Site-Directed O antigen Outer membranes Phosphate Plague Plasmin plasminogen Plasminogen - metabolism Plasminogen Activators - metabolism Protein Binding Proteinase Proteolysis Temperature Temperature effects virulence factors Virulence Factors - metabolism Yersinia pestis Yersinia pestis - enzymology Yersinia pestis - radiation effects
title	Temperature-Induced Changes in the Lipopolysaccharide of Yersinia pestis Affect Plasminogen Activation by the Pla Surface Protease
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