Abstract
Complement Factor H (CFH), with 20 short complement regulator (SCR) domains, regulates the alternative pathway of complement in part through the interaction of its C-terminal SCR-19 and SCR-20 domains with host cell-bound C3b and anionic oligosaccharides. In solution, CFH forms small amounts of oligomers, with one of its self-association sites being in the SCR-16/20 domains. In order to correlate CFH function with dimer formation and the occurrence of rare disease-associated variants in SCR-16/20, we identified the dimerization site in SCR-16/20. For this, we expressed, in Pichia pastoris, the five domains in SCR-16/20 and six fragments of this with one-three domains (SCR-19/20, SCR-18/20, SCR-17/18, SCR-16/18, SCR-17 and SCR-18). Size-exclusion chromatography suggested that SCR dimer formation occurred in several fragments. Dimer formation was clarified using analytical ultracentrifugation, where quantitative c(s) size distribution analyses showed that SCR-19/20 was monomeric, SCR-18/20 was slightly dimeric, SCR-16/20, SCR-16/18 and SCR-18 showed more dimer formation, and SCR-17 and SCR-17/18 were primarily dimeric with dissociation constants of ~5 µM. The combination of these results located the SCR-16/20 dimerization site at SCR-17 and SCR-18. X-ray solution scattering experiments and molecular modelling fits confirmed the dimer site to be at SCR-17/18, this dimer being a side-by-side association of the two domains. We propose that the self-association of CFH at SCR-17/18 enables higher concentrations of CFH to be achieved when SCR-19/20 are bound to host cell surfaces in order to protect these better during inflammation. Dimer formation at SCR-17/18 clarified the association of genetic variants throughout SCR-16/20 with renal disease.
Original language | English |
---|---|
Article number | 601895 |
Number of pages | 19 |
Journal | Frontiers in immunology |
Volume | 11 |
DOIs | |
Publication status | Published - 21 Jan 2021 |
Bibliographical note
Funding:OD thanks University College London and the Institut-Laue-Langevin for a PhD studentship award. Support for this work was also provided in part by the CCP-SAS project, a joint EPSRC (EP/K039121/1) and NSF (CHE-1265821) grant.
Publisher Copyright:
© Copyright © 2021 Dunne, Gao, Nan, Gor, Adamson, Gordon, Moulin, Haertlein, Forsyth and Perkins.
Keywords
- analytical ultracentrifugation
- complement factor H
- inflammation
- molecular modelling
- X-ray scattering
ASJC Scopus subject areas
- Immunology and Allergy
- Immunology