Litcius/Paper detail

Gain-of-function factor H–related 5 protein impairs glomerular complement regulation resulting in kidney damage

Talat H. Malik, Daniel P. Gitterman, Deborah Lavin, Hannah J. Lomax-Browne, E. Christina Hiemeyer, Linda Moran, Katharina Boroviak, H. Terence Cook, Alyssa Gilmore, Mawj Mandwie, Amina Ahmad, Ian E. Alexander, Grant J. Logan, Kevin J. Marchbank, Allan Bradley, Matthew C. Pickering

2021Proceedings of the National Academy of Sciences23 citationsDOIOpen Access PDF

Abstract

gene generates a mutant FHR5 protein (FHR5mut) that leads to accumulation of complement C3 within glomeruli. To elucidate how abnormal FHR proteins cause C3G, we modeled CFHR5 nephropathy in mice. Animals lacking the murine factor H (FH) and FHR proteins, but coexpressing human FH and FHR5mut (hFH-FHR5mut), developed glomerular C3 deposition, whereas mice coexpressing human FH with the normal FHR5 protein (hFH-FHR5) did not. Like in patients, the FHR5mut had a dominant gain-of-function effect, and when administered in hFH-FHR5 mice, it triggered C3 deposition. Importantly, adeno-associated virus vector-delivered homodimeric mini-FH, a molecule with superior surface C3 binding compared to FH, reduced glomerular C3 deposition in the presence of the FHR5mut. Our data demonstrate that FHR5mut causes C3G by disrupting the homeostatic regulation of complement within the kidney and is directly pathogenic in C3G. These results support the use of FH-derived molecules with enhanced C3 binding for treating C3G associated with abnormal FHR proteins. They also suggest that targeting FHR5 represents a way to treat complement-mediated kidney injury.

Topics & Concepts

Factor HGlomerulopathyComplement systemComplement factor IKidneyAlternative complement pathwayBiologyKidney diseaseMutantRenal functionNephropathyImmunologyImmune systemGeneChemistryInternal medicineEndocrinologyGlomerulonephritisMedicineBiochemistryDiabetes mellitusComplement system in diseasesRenal Diseases and GlomerulopathiesRenin-Angiotensin System Studies