Combination of Factor H Mutation and Properdin Deficiency Causes Severe C3 Glomerulonephritis

Lesher, Allison M.; Zhou, Lin; Kimura, Yuko; Sato, Sayaka; Gullipalli, Damodar; Herbert, Andrew P.; Barlow, Paul N.; Eberhardt, Hannes U.; Skerka, Christina; Zipfel, Peter F.; Hamano, Takayuki; Miwa, Takashi; Tung, Kenneth S. K.; Song, Wen‐Chao

doi:10.1681/asn.2012060570

Cited by 78 publications

(163 citation statements)

References 50 publications

(56 reference statements)

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“…The prevalence of C5Nef was higher in C3GN (72%), while C3Nef was more frequent in DDD (71%), suggesting that the type of nephritic factors may determine the biological phenotype of C3G [98]. These results are consistent with the previously described role of FP in animal models deficient in CFH gene, where coexisting FP deficiency was associated with C3 depletion, whereas plasma C5 depletion was (at least in part) FP-dependent [91,92]. In CFH −/− mice, FP also influenced the intraglomerular distribution of C3, since only these mice injected with human CFH presented C3 mesangial deposition, while CFH −/− /P −/− mice did not show mesangial C3 staining [91].…”

Section: Acquired Ap Abnormalities In C3gsupporting

confidence: 89%

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The role of the alternative pathway of complement activation in glomerular diseases

2018

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The complement system (CS) has recently been recognized as a bridge between innate and adaptive immunity that constitutes a very complex mechanism controlling the clearance of pathogens, cellular debris, and immune complexes. Out of three known pathways of complement activation, the alternative pathway (AP) plays a critical role in host defense by amplifying the complement response, independently of initiation pathway and continuously maintaining low-level activity in a process called 'thick-over.' A key molecule of the CS is C3, in which the AP is constantly activated. To prevent host cell destruction, a group of the AP regulators tightly controls this pathway of the CS activation. Acquired and genetic abnormalities of the CS may alter the delicate balance between enhancing and inhibiting the AP cascade. These can lead to the uncontrolled CS activation, inflammatory response, and subsequent tissue damage. Since complement components are locally produced and activated in the kidney, the abnormalities targeting the AP may cause glomerular injury. C3 glomerulopathy is a new entity, in which the AP dysregulation has been well established. However, recent studies indicate that the AP may also contribute to a wide range of kidney pathologies, including immune-complex-mediated glomerulonephritis (GN), pauci-immune GN, and primary membranous nephropathy (PMN). This article provides insight into current knowledge on the role of the AP in the pathogenesis of glomerular diseases, focusing mainly on various types of primary and secondary GN and PMN.

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Section: Acquired Ap Abnormalities In C3gsupporting

confidence: 89%

“…Conversely, enhancing FP would cause more efficient AP activation. Unexpectedly, studies on murine models, designed to inhibit FP by producing animals deprived of CFH and FP genes [91] [91,92]. These studies emphasize the complexity of C3G pathogenesis.…”

Section: Clinical Features Of C3gn and Dddmentioning

confidence: 99%

The role of the alternative pathway of complement activation in glomerular diseases

2018

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“…In this sense, the murine model of Ruseva et al 10 would be compatible with the fP-independent C3NeF patients. Together with the findings of Lesher et al, 11 it is clear that fP influences the intraglomerular fate of C3 during dysregulation of fluid phase C3 activation. The most important conclusion from these two novel and elegant studies is that inhibition of fP in situations of uncontrolled fluid phase activation of complement may be disadvantageous to the host, whereas absence of fP in models of tissue-bound activation of the AP is favorable.…”

supporting

confidence: 65%

“…10,11 Using comparable murine models, both Ruseva et al 10 and Lesher et al 11 come to the same unexpected findings, namely that fP deletion or depletion with mAbs, in contrast to what one would have expected, results in more severe renal pathology in fH 2/2 mice. The study by Ruseva et al…”

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confidence: 74%

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Unexpected Role for Properdin in Complement C3 Glomerulopathies

Daha

2013

Journal of the American Society of Nephrology

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Complement: The Alternative Pathway

Zipfel

Skerka

2015

Encyclopedia of Life Sciences

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The alternative pathway of complement is a powerful and evolutionarily old defence system of innate immunity that recognises and destroys invading infectious microbes and also targets and eliminates modified self cells. For survival in an immunocompetent host, pathogenic microbes provide strategies to interfere with alternative pathway activation at their surface and they evade complement immune recognition. Recent evidence shows that mutations and sequence variations of important regulators of the alternative pathway cause a variety of autoimmune diseases, including age‐related macular degeneration (AMD) of the retina and kidney diseases in the form of atypical haemolytic uraemic syndrome (aHUS) and C3 glomerulopathy (C3G). On the basis of its central relevance in immunity targeting, the complement system by specific therapeutic agents is a promising approach to treat autoimmune diseases and inflammatory disorders. Key Concepts Alternative pathway is a spontaneous self‐amplifying initiator of complement AP is activated by default in blocked by inhibitors Defective AP regulation results in serve autoimmune disease Mutations in regulators and autoimmune forms cause diseases Pathogenic infectious microbes block AP action by mimicking intact host surfaces The C3 convertase of the AP is the central hub for complement activation AP is controlled in fluid phase and on biological surfaces Targeting AP action is a promising option to treat inflammatory autoimmune disorders Animal behaviourists must participate in conservation planning to protect the future of biodiversity Lipid bilayers provide the fundamental architecture of biological membranes.

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Combination of Factor H Mutation and Properdin Deficiency Causes Severe C3 Glomerulonephritis

Cited by 78 publications

References 50 publications

The role of the alternative pathway of complement activation in glomerular diseases

The role of the alternative pathway of complement activation in glomerular diseases

Unexpected Role for Properdin in Complement C3 Glomerulopathies

Complement: The Alternative Pathway

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