Abstract
Complement is an important part of innate immunity. The alternative pathway of complement is activated when the main opsonin, C3b coats non-protected surfaces leading to opsonisation, phagocytosis and cell lysis. The alternative pathway is tightly controlled to prevent autoactivation towards host cells. The main regulator of the alternative pathway is factor H (FH), a soluble glycoprotein that terminates complement activation in multiple ways. FH recognizes host cell surfaces via domains 19–20 (FH19-20). All microbes including Borrelia burgdorferi, the causative agent of Lyme borreliosis, must evade complement activation to allow the infectious agent to survive in its host. One major mechanism that Borrelia uses is to recruit FH from host. Several outer surface proteins (Osp) have been described to bind FH via the C-terminus, and OspE is one of them. Here we report the structure of the tripartite complex formed by OspE, FH19-20 and C3dg at 3.18 Å, showing that OspE and C3dg can bind simultaneously to FH19-20. This verifies that FH19-20 interacts via the “common microbial binding site” on domain 20 with OspE and simultaneously and independently via domain 19 with C3dg. The spatial organization of the tripartite complex explains how OspE on the bacterial surface binds FH19-20, leaving FH fully available to protect the bacteria against complement. Additionally, formation of tripartite complex between FH, microbial protein and C3dg might enable enhanced protection, particularly on those regions on the bacteria where previous complement activation led to deposition of C3d. This might be especially important for slow-growing bacteria that cause chronic disease like Borrelia burgdorferi.
Highlights
Complement (C) is an important part of the human innate immunity system
To determine the molecular mechanism of factor H (FH)-mediated target discrimination on the bacterial surface, we solved the crystal structure of a tripartite complex formed by the C3dg part of
The diffraction data were collected to 3.18 Å resolution and the structure was solved by molecular replacement using published structures of C3d:FH19-20 and FH19-20:outer surface protein E (OspE) as search models
Summary
Complement (C) is an important part of the human innate immunity system. Over 30 proteins of the C system interact with each other leading to a cascade-like activation that terminates either in phagocytosis of the target or the formation of the lytic membrane attack complexes [1]. The major targets for C activation are microbes, but C participates in immune complex removal and clearance of apoptotic cells. Target recognition, which precedes C activation, occurs via one of three pathways: the lectin, classical and alternative pathways. Binding of mannan-binding lectin to mannose or other carbohydrates on the target surface leads to lectin pathway activation. The classical pathway recognizes surfaces when C1q binds to Fc domains of multiple antibodies attached to targets [2]. The alternative pathway (AP) is activated by C3b, which randomly and covalently attaches to primary amine and hydroxyl groups on a target surface via a thioester group located in the thioester-containing domain (TED). Regulation of the AP activation is especially important as the target recognition is mediated via interplay between C3b, C regulators and properties of target surfaces
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