Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi

Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi

Borrelia burgdorferi evades complement-mediated killing by interacting with complement regulators through distinct complement regulator-acquiring surface proteins (CRASPs). Here, we extend our analyses to the contribution of CRASP-4 in mediating complement resistance of B. burgdorferi and its intera...

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Main Authors: Claudia Hammerschmidt, Teresia Hallström, Christine Skerka, Reinhard Wallich, Brian Stevenson, Peter F. Zipfel, Peter Kraiczy
Format: Article
Language:English
Published: Hindawi Limited 2012-01-01
Series:Clinical and Developmental Immunology
Online Access:http://dx.doi.org/10.1155/2012/349657
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spelling doaj-3d9dac5ad8654a5891bda6784667aee92020-11-24T22:57:01ZengHindawi LimitedClinical and Developmental Immunology1740-25221740-25302012-01-01201210.1155/2012/349657349657Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferiClaudia Hammerschmidt0Teresia Hallström1Christine Skerka2Reinhard Wallich3Brian Stevenson4Peter F. Zipfel5Peter Kraiczy6Institute of Medical Microbiology and Infection Control, Frankfurt University Hospital, Paul-Ehrlich-Straße 40, 60596 Frankfurt, GermanyDepartment of Infection Biology, Leibniz Institute for Natural Products Research and Infection Biology, Beutenbergstraße 11a, 07745 Jena, GermanyDepartment of Infection Biology, Leibniz Institute for Natural Products Research and Infection Biology, Beutenbergstraße 11a, 07745 Jena, GermanyInstitute of Immunology, University of Heidelberg, Im Neuenheimer Feld 305, 69120 Heidelberg, GermanyDepartment of Microbiology, Immunology and Molecular Genetics, University of Kentucky College of Medicine, Lexington, KY 40536, USADepartment of Infection Biology, Leibniz Institute for Natural Products Research and Infection Biology, Beutenbergstraße 11a, 07745 Jena, GermanyInstitute of Medical Microbiology and Infection Control, Frankfurt University Hospital, Paul-Ehrlich-Straße 40, 60596 Frankfurt, GermanyBorrelia burgdorferi evades complement-mediated killing by interacting with complement regulators through distinct complement regulator-acquiring surface proteins (CRASPs). Here, we extend our analyses to the contribution of CRASP-4 in mediating complement resistance of B. burgdorferi and its interaction with human complement regulators. CRASP-4 (also known as ErpC) was immobilized onto magnetic beads and used to capture proteins from human serum. Following Western blotting, factor H (CFH), CFH-related protein 1 (CFHR1), CFHR2, and CFHR5 were identified as ligands of CRASP-4. To analyze the impact of native CRASP-4 on mediating survival of serum-sensitive cells in human serum, a B. garinii strain was generated that ectopically expresses CRASP-4. CRASP-4-producing bacteria bound CFHR1, CFHR2, and CFHR5 but not CFH. In addition, transformed spirochetes deposited significant amounts of lethal complement components on their surface and were susceptible to human serum, thus indicating that CRASP-4 plays a subordinate role in complement resistance of B. burgdorferi.http://dx.doi.org/10.1155/2012/349657
collection DOAJ
language English
format Article
sources DOAJ
author Claudia Hammerschmidt
Teresia Hallström
Christine Skerka
Reinhard Wallich
Brian Stevenson
Peter F. Zipfel
Peter Kraiczy
spellingShingle Claudia Hammerschmidt
Teresia Hallström
Christine Skerka
Reinhard Wallich
Brian Stevenson
Peter F. Zipfel
Peter Kraiczy
Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi
Clinical and Developmental Immunology
author_facet Claudia Hammerschmidt
Teresia Hallström
Christine Skerka
Reinhard Wallich
Brian Stevenson
Peter F. Zipfel
Peter Kraiczy
author_sort Claudia Hammerschmidt
title Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi
title_short Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi
title_full Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi
title_fullStr Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi
title_full_unstemmed Contribution of the Infection-Associated Complement Regulator-Acquiring Surface Protein 4 (ErpC) to Complement Resistance of Borrelia burgdorferi
title_sort contribution of the infection-associated complement regulator-acquiring surface protein 4 (erpc) to complement resistance of borrelia burgdorferi
publisher Hindawi Limited
series Clinical and Developmental Immunology
issn 1740-2522
1740-2530
publishDate 2012-01-01
description Borrelia burgdorferi evades complement-mediated killing by interacting with complement regulators through distinct complement regulator-acquiring surface proteins (CRASPs). Here, we extend our analyses to the contribution of CRASP-4 in mediating complement resistance of B. burgdorferi and its interaction with human complement regulators. CRASP-4 (also known as ErpC) was immobilized onto magnetic beads and used to capture proteins from human serum. Following Western blotting, factor H (CFH), CFH-related protein 1 (CFHR1), CFHR2, and CFHR5 were identified as ligands of CRASP-4. To analyze the impact of native CRASP-4 on mediating survival of serum-sensitive cells in human serum, a B. garinii strain was generated that ectopically expresses CRASP-4. CRASP-4-producing bacteria bound CFHR1, CFHR2, and CFHR5 but not CFH. In addition, transformed spirochetes deposited significant amounts of lethal complement components on their surface and were susceptible to human serum, thus indicating that CRASP-4 plays a subordinate role in complement resistance of B. burgdorferi.
url http://dx.doi.org/10.1155/2012/349657
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