2015
DOI: 10.1111/febs.13399
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Structural insights on complement activation

Abstract: The proteolytic cleavage of C3 to generate C3b is the central and most important step in the activation of complement, a major component of innate immunity. The comparison of the crystal structures of C3 and C3b illustrates large conformational changes during the transition from C3 to C3b. Exposure of a reactive thio-ester group allows C3b to bind covalently to surfaces such as pathogens or apoptotic cellular debris. The displacement of the thio-ester-containing domain (TED) exposes hidden surfaces that mediat… Show more

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Cited by 23 publications
(15 citation statements)
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“…This arrangement is corroborated by EM studies indicating that the intact MG1/TED interface is the most frequently occupied conformation (16). Conversely, other EM studies suggest that C3b occupies various conformations in solution, with the TED domain in different positions around the molecule (17, 38); small-angle X-ray scattering data feature TED in two different orientations, both adjacent to the MG core (30, 39), and X-ray and neutron scattering data even propose a uniform population with TED extending away from MG1 (40). Similarly, there are discrepancies in the EM-based data concerning the arrangement of iC3b; some studies suggest a highly flexible positioning after conversion of CUB (16), whereas one indicates that TED moves into a compact position at the MG core and the CTC domain, with CUB adjacent (17).…”
Section: Discussionmentioning
confidence: 90%
“…This arrangement is corroborated by EM studies indicating that the intact MG1/TED interface is the most frequently occupied conformation (16). Conversely, other EM studies suggest that C3b occupies various conformations in solution, with the TED domain in different positions around the molecule (17, 38); small-angle X-ray scattering data feature TED in two different orientations, both adjacent to the MG core (30, 39), and X-ray and neutron scattering data even propose a uniform population with TED extending away from MG1 (40). Similarly, there are discrepancies in the EM-based data concerning the arrangement of iC3b; some studies suggest a highly flexible positioning after conversion of CUB (16), whereas one indicates that TED moves into a compact position at the MG core and the CTC domain, with CUB adjacent (17).…”
Section: Discussionmentioning
confidence: 90%
“…When mapped onto the surface of the crystal-derived structure of unbound C3b, this second CFH binding surface is partially occluded by a neighboring macroglobulin domain (MG1) meaning that this site would only be accessible for CFH-engagement in the context of C3d, but not the larger C3b molecule [29]. It should be noted, however, that there is accumulating evidence that under solution conditions C3b is a flexible entity in which the TED can adopt a range of conformations with relation to the rest of C3b (reviewed in [30]). Kajander and colleagues have posited that this second C3d-binding site is physiologically important, with the ability of the C-terminus of CFH to simultaneously engage C3b and C3d resulting in a similar phenotype to that which occurs when CFH forms a ternary complex with C3b and anionic markers such as GAGs and sialic acid moieties.…”
Section: Resultsmentioning
confidence: 99%
“…2). This is now understood at a molecular level based on the crystal structure of C3b in complex with CCPs 1–4 of FH [41], where this and other structural studies have provided valuable insights into the functional biology of FH [3440, 42, 43]. Importantly, these CCPs of FH bind to C3b in an extended configuration, with a remarkably long contact interface that covers the whole flank of the C3b protein [41].…”
Section: Structural Insights Into the Complement Inhibitory Activitiementioning
confidence: 99%