Abstract
The complement protein C5 initiates assembly of the membrane attack complex. This remarkable process results in lysis of target cells and is fundamental to mammalian defense against infection. The 150-amino acid residue domain at the C terminus of C5 (C5-C345C) is pivotal to C5 function. It interacts with enzymes that convert C5 to C5b, the first step in the assembly of the membrane attack complex; it also binds to the membrane attack complex components C6 and C7 with high affinity. Here a recombinant version of this C5-C345C domain is shown to adopt the oligosaccharide/oligonucleotide binding fold, with two helices packed against a five-stranded beta-barrel. The structure is compared with those from the netrin-like module family that have a similar fold. Residues critical to the interaction with C5-convertase cluster on a mobile, hydrophobic inter-strand loop that protrudes from the open face of the beta-barrel. The opposite, helix-dominated face of C5-C345C carries a pair of exposed hydrophobic side chains adjacent to a striking negatively charged patch, consistent with affinity for positively charged factor I modules in C6 and C7. Modeling of homologous domains from complement proteins C3 and C4, which do not participate in membrane attack complex assembly, suggests that this provisionally identified C6/C7-interacting face is indeed specific to C5.
Highlights
A complement-mediated response to infection is fundamental to good health, but inappropriate complement activity underlies the symptoms of numerous inflammatory disorders (1)
The opposite, helix-dominated face of C5C345C carries a pair of exposed hydrophobic side chains adjacent to a striking negatively charged patch, consistent with affinity for positively charged factor I modules in C6 and C7
Modeling of homologous domains from complement proteins C3 and C4, which do not participate in membrane attack complex assembly, suggests that this provisionally identified C6/C7-interacting face is specific to C5
Summary
A complement-mediated response to infection is fundamental to good health, but inappropriate complement activity underlies the symptoms of numerous inflammatory disorders (1). Activation of complement, and the ensuing attack on pathogens, entails a sequence of intermolecular recognition events, enzymatic cleavages, and assemblies of multiprotein complexes. The sequence in which the five soluble, terminal components of complement (C5, C6, C7, C8, and C9) assemble to form the remarkable lipid bilayer-penetrating membrane attack complex (MAC) has been known for many years (4). Unlike the majority of proteins of the complement system, C3, C4, and C5 are not entirely modular in their composition. It is surprising, given the intense interest in this family of proteins that has persisted over several decades, that little is known of their structure. The solution structure of the much smaller C5a fragment has been solved (6), in the case of C5b there is currently no three-dimensional structural information available
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