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Structures of complement component C3 provide insights into the function and evolution of immunity

Author

Listed:
  • Bert J. C. Janssen

    (Utrecht University)

  • Eric G. Huizinga

    (Utrecht University)

  • Hans C. A. Raaijmakers

    (Utrecht University)

  • Anja Roos

    (Leiden University Medical Center)

  • Mohamed R. Daha

    (Leiden University Medical Center)

  • Kristina Nilsson-Ekdahl

    (University Hospital
    University of Kalmar)

  • Bo Nilsson

    (University Hospital)

  • Piet Gros

    (Utrecht University)

Abstract

The mammalian complement system is a phylogenetically ancient cascade system that has a major role in innate and adaptive immunity. Activation of component C3 (1,641 residues) is central to the three complement pathways and results in inflammation and elimination of self and non-self targets. Here we present crystal structures of native C3 and its final major proteolytic fragment C3c. The structures reveal thirteen domains, nine of which were unpredicted, and suggest that the proteins of the α2-macroglobulin family evolved from a core of eight homologous domains. A double mechanism prevents hydrolysis of the thioester group, essential for covalent attachment of activated C3 to target surfaces. Marked conformational changes in the α-chain, including movement of a critical interaction site through a ring formed by the domains of the β-chain, indicate an unprecedented, conformation-dependent mechanism of activation, regulation and biological function of C3.

Suggested Citation

  • Bert J. C. Janssen & Eric G. Huizinga & Hans C. A. Raaijmakers & Anja Roos & Mohamed R. Daha & Kristina Nilsson-Ekdahl & Bo Nilsson & Piet Gros, 2005. "Structures of complement component C3 provide insights into the function and evolution of immunity," Nature, Nature, vol. 437(7058), pages 505-511, September.
    • Handle: RePEc:nat:nature:v:437:y:2005:i:7058:d:10.1038_nature04005
    DOI: 10.1038/nature04005
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    Cited by:

    1. Alexander J Lowe & Simon Sjödin & Filipe B Rodrigues & Lauren M Byrne & Kaj Blennow & Rosanna Tortelli & Henrik Zetterberg & Edward J Wild, 2020. "Cerebrospinal fluid endo-lysosomal proteins as potential biomarkers for Huntington’s disease," PLOS ONE, Public Library of Science, vol. 15(8), pages 1-24, August.

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