C3 concentrations can be normal in patients with C3 glomerulopathy secondary to C3 nephritic factor.

C3 glomerulopathy (C3G) is a rare kidney disease caused by the glomerular deposition of C3 fragments secondary to alternative pathway complement dysregulation. C3 nephritic factors (C3Nef) are the most common acquired cause, and their detection has treatment and prognostic implications. Although C3 concentration can be normal in the presence of C3Nef, many laboratories will only perform C3Nef testing when C3 is low. We performed a retrospective study of all positive C3Nef results from the authors' laboratory since 2015 and found that two of the four patients with positive C3Nef and biopsy-confirmed C3G had normal C3 concentrations. This may be in part due to limitations in commercial C3 testing methods which use anti-C3c antisera directed against both C3 breakdown products and native C3. A normal C3 concentration should not preclude C3Nef testing in the appropriate clinical context.

Functional Hemolytic Test for Complement Alternative Pathway Convertase Activity.

The complement system is a key part of innate immunity. However, if the system becomes dysregulated, damage to healthy host cells can occur, especially to the glomerular cells of the kidney. The convertases of the alternative pathway of the complement system play a crucial role in complement activation. In healthy conditions, their activity is strictly regulated. In patients with diseases caused by complement alternative pathway dysregulation, such as C3 glomerulopathy and atypical hemolytic uremic syndrome, factors can be present in the blood that disturb this delicate balance, leading to convertase overactivity. Such factors include C3 nephritic factors, which are autoantibodies against the C3 convertase that prolong its activity, or genetic variants resulting in a stabilized convertase complex. This chapter describes a method in which the activity and stability of the alternative pathway convertases can be measured to detect aberrant serum factors causing convertase overactivity.

Detection of C3 Nephritic Factor by Hemolytic Assay.

C3 nephritic Factor (C3NeF) is autoantibody that binds neoepitopes of the C3 convertase C3bBb, resulting in a stabilization of the enzyme. First functional characterizations of C3NeF were performed by hemolytic assays using preactivated sheep erythrocytes (bearing C3b). Sheep erythrocytes are beforehand sensitized with an anti-sheep red blood cell stroma antibody produced in rabbit (hemolysin). Sensitized sheep erythrocytes will initiate cascade complement activation via the classic pathway, followed by alternative pathway amplification loop, resulting in C3b covalent binding to cell surface. Sheep erythrocytes bearing C3b permit the alternative pathway exploration, in particular decay of alternative pathway C3 convertase.

Large-Scale Whole-Genome Sequencing Reveals the Genetic Architecture of Primary Membranoproliferative GN and C3 Glomerulopathy.

BACKGROUND: Primary membranoproliferative GN, including complement 3 (C3) glomerulopathy, is a rare, untreatable kidney disease characterized by glomerular complement deposition. Complement gene mutations can cause familial C3 glomerulopathy, and studies have reported rare variants in complement genes in nonfamilial primary membranoproliferative GN. METHODS: We analyzed whole-genome sequence data from 165 primary membranoproliferative GN cases and 10,250 individuals without the condition (controls) as part of the National Institutes of Health Research BioResource-Rare Diseases Study. We examined copy number, rare, and common variants. RESULTS: Our analysis included 146 primary membranoproliferative GN cases and 6442 controls who were unrelated and of European ancestry. We observed no significant enrichment of rare variants in candidate genes (genes encoding components of the complement alternative pathway and other genes associated with the related disease atypical hemolytic uremic syndrome; 6.8% in cases versus 5.9% in controls) or exome-wide. However, a significant common variant locus was identified at 6p21.32 (rs35406322) (P=3.29×10-8; odds ratio [OR], 1.93; 95% confidence interval [95% CI], 1.53 to 2.44), overlapping the HLA locus. Imputation of HLA types mapped this signal to a haplotype incorporating DQA1*05:01, DQB1*02:01, and DRB1*03:01 (P=1.21×10-8; OR, 2.19; 95% CI, 1.66 to 2.89). This finding was replicated by analysis of HLA serotypes in 338 individuals with membranoproliferative GN and 15,614 individuals with nonimmune renal failure. CONCLUSIONS: We found that HLA type, but not rare complement gene variation, is associated with primary membranoproliferative GN. These findings challenge the paradigm of complement gene mutations typically causing primary membranoproliferative GN and implicate an underlying autoimmune mechanism in most cases.

Analysis of C3 Nephritic Factors by ELISA.

Autoantibodies to the C3 convertase of the alternative pathway of complement, called C3 nephritic factors (C3NeF), cause persistently low C3 in the circulation and production of C3 degradation fragments due to prolonged stabilization of the C3 convertase. C3NeF are associated with glomerulopathy, acquired partial lipodystrophy, and less frequently with increased susceptibility to meningococcal infection. Analysis of C3NeF is an important part of the diagnostic workup of C3 glomerulopathy, but their identification is difficult presumably due to considerable heterogeneity. Therefore it is recommended to use a combination of different analysis methods for the detection of C3NeF. Here we present an ELISA method for detection of C3NeF.

C3 Glomerulopathy: Ten Years' Experience at Mayo Clinic.

OBJECTIVE: To describe the clinicopathological features, complement abnormalities, triggers, treatment, and outcomes of C3 glomerulopathy. PATIENTS AND METHODS: A total of 114 patients with C3 glomerulopathy seen at Mayo Clinic from January 1, 2007, through December 31, 2016, were evaluated in this study. RESULTS: The mean age at diagnosis for the entire cohort was 40.4±22.3 years, with a median serum creatinine level and proteinuria value of 1.6 mg/dL (range: 0.3-14.7) (to convert to mmol/L, multiply by 0.0259) and 2605 mg/24 h (range: 233-24,165), respectively. Hematuria was present in 100 patients (87.7%). The C3 and C4 levels were low in 50 of 112 (44.6%) and 13 of 110 (11.8%) patients, respectively. A history of infection, positive autoimmune findings, and monoclonal gammopathy (MIg) were present in 33 of 114 (28.9%), 28 of 114 (24.6%), and 36 of 95 (37.9%) patients, respectively. However, 28 of 43 patients 50 years or older (65.1%) had MIg. A genetic variant in complement genes, C3 nephritic factor (C3Nef), and other autoantibodies was present in 26 of 70 (37.1%), 30 of 69 (43.5%), and 9 of 67 (13.4%) patients, respectively. Membranoproliferative and mesangial proliferative glomerulonephritis were the common patterns of injury. Patients without MIg were younger (mean age, 32.3±20.6 years), with a median serum creatinine level and proteinuria value of 1.4 mg/dL (range: 0.3-7.9) and 2450 mg/24 h (range: 250-24, 165) and with low C3 and C4 levels in 38 of 77 (49.4%) and 9 of 75 (12.0%) patients, respectively. Most patients received corticosteroids and other immunosuppressive drugs. In patients without MIg, at a median follow-up of 22.3 months (range: 0.1-201.1), the median serum creatinine level and proteinuria value were 1.4 mg/dL (range: 0.3-3.7) and 825.5 mg/24 h (range: 76-22, 603), and 7 patients (9.2%) had progression to end-stage renal disease. CONCLUSION: C3 glomerulopathy is a heterogeneous disease entity with complex triggering events and abnormalities of the alternative pathway of complement. The disease tends to be progressive and exhibits a variable response to immunosuppressive therapy.

C5 nephritic factors drive the biological phenotype of C3 glomerulopathies.

C3 Glomerulopathies, which include Dense Deposit Disease and C3 Glomerulonephritis, are associated with genetic and acquired dysregulation of the C3 convertase alternative pathway of complement. The potential role of the activation of the C5 convertase has not been studied extensively. Here we analyzed IgG samples from patients with C3 Glomerulopathies to identify circulating autoantibodies that stabilize the C3 alternative pathway (C3 Nephritic Factors) as well as C5 convertases (C5 Nephritic Factors), thus preventing decay of these enzyme complexes. Rare variants in alternative pathway genes were found in 28 of 120 tested patients. C3 and C5 Nephritic Factors were found in 76 of 101 (75%) and 29 of 59 (49%) of the patients, respectively. Therefore, we compared the results of the assays for the C3 and C5 nephritic factors functional activity: 29% were positive for C3 Nephritic Factors alone, 39% were positive for both C3 and C5 Nephritic Factors, and 10% were positive for C5 Nephritic Factors alone. We found that the addition of properdin-enhanced stabilization of C3 convertase in the presence of IgG doubly positive for both Nephritic Factors, while it did not modify the stabilization mediated by IgG solely positive for C3 Nephritic Factors. Both C3 and C5 Nephritic Factors correlated with C3 consumption, while only C5 Nephritic Factors correlated with sC5b9 levels. C5 Nephritic Factors-positive patients were more likely to have C3 Glomerulonephritis than Dense Deposit Disease. Thus, dysregulation of the C5 convertase contributes to C3 Glomerulopathies inter-disease differences and may have direct therapeutic implications.

C3 glomerulonephritis and autoimmune disease: more than a fortuitous association?

C3 glomerulonephritis (C3GN) results from genetic or acquired dysregulation of the alternative complement pathway. A subset of patients may have clinical and biochemical characteristics compatible with an autoimmune disorder. We studied a cohort of 85 patients with confirmed C3GN (2007-2014), of which ten patients (3 male, 7 female; mean age 38.5 years) had an associated autoimmune disorder. All patients had abnormal ANA titers, 6 also had positive ds-DNA titers. At the time of presentation with C3GN, all 7 female patients had autoimmune-related presentations. Of the 3 male patients, only 1 patient had autoimmune-related presentations. Kidney biopsy showed predominantly mesangial proliferative or membranoproliferative glomerulonephritis. In 5 patients, the alternative pathway was evaluated. All had allele variants/polymorphisms associated with C3GN. One patient was also positive for C3Nefs. Treatment varied form conservative management to the use of prednisone alone or with cytotoxic therapy. Mean serum creatinine decreased from 2.0 to 1.4 mg/dL while proteinuria decreased from 2300 to 994 mg/24 h in 8 patients with follow-up. The study highlights the association between C3GN and autoimmune disorders, particularly in female patients. The study suggests that an autoimmune milieu may act as a trigger for the development of C3GN in genetically susceptible patients. Short-term prognosis of C3GN associated with autoimmune disorders appears excellent.

[Partial lipodystrophy: a spot diagnosis]. / Partiële lipodystrofie: een diagnose à vue.

BACKGROUND: Partial lipodystrophy is a rare acquired disorder characterised by gradual loss of subcutaneous adipose tissue in the upper half of the body. CASE DESCRIPTION: We saw a 9-year-old girl who had been referred on account of recurrent urinary tract infections. On physical examination, she was noticed to be very thin in the face. Her upper extremities were also skinny. Strikingly, the lower half of her body was normally proportioned, which immediately suggested a diagnosis of partial lipodystrophy. Additional examinations showed a low level of complement factor C3 and the presence of C3 nephritic factor. CONCLUSION: Partial lipodystrophy is rare but it is important to include it in the differential diagnosis of unwanted disproportional subcutaneous fat loss because of the somatic and psychological consequences.

American Society of Nephrology clinical pathological conference.

A 13-year-old girl presented with proteinuria and acute kidney failure. She was born at full term via cesarean delivery (due to nuchal cord), but there were no other prenatal or perinatal complications. In early childhood the patient had two hospitalizations at ages 4.5 and 9 years, respectively, the latter for pneumonia. She had no history of symptoms of kidney disease. She came to the hospital at age 12 years for routine bilateral molar extractions. She was treated with oral antibiotics and discharged after the procedure without complications. At age 13 years, 10 months after the molar extraction, she was seen by a pediatrician because of puffiness and increased BP. She had had respiratory symptoms 2 weeks before presentation. The pediatrician prescribed furosemide and amlodipine. A few days later, the patient returned to the pediatrician's office because of hand, ankle, and facial swelling and malaise. The pediatrician recommended hospitalization and the patient was admitted at this time.

Rituximab fails where eculizumab restores renal function in C3nef-related DDD.

BACKGROUND: Dense deposit disease (DDD), a C3 glomerulopathy (C3G), is a rare disease with unfavorable progression towards end-stage kidney disease. The pathogenesis of DDD is due to cytotoxic effects related to acquired or genetic dysregulation of the complement alternative pathway, which is at times accompanied by the production of C3 nephritic factor (C3NeF), an auto-antibody directed against the alternative C3 convertase. Available treatments include plasma exchange, CD20-targeted antibodies, and a terminal complement blockade via the anti-C5 monoclonal antibody eculizumab. CASE-DIAGNOSIS/TREATMENT: We report here the case of an 8-year-old child with C3NeF and refractory DDD who presented with a nephritic syndrome. She tested positive for C3NeF activity; C3 was undetectable. Genetic analyses of the alternative complement pathway were normal. Methylprednisolone pulses and mycophenolate mofetil treatment resulted in complete recovery of renal function and a reduction in proteinuria. Corticosteroids were tapered and then withdrawn. Four months after corticosteroid discontinuation, hematuria and proteinuria recurred, and a renal biopsy confirmed an active DDD with a majority of extracapillary crescents. Despite an increase in immunosuppressive drugs, including methylprednisolone pulses and rituximab therapy, the patient suffered acute renal failure within 3 weeks, requiring dialysis. Eculizumab treatment resulted in a quick and impressive response. Hematuria very quickly resolved, kidney function improved, and no further dialysis was required. The patient received bimonthly eculizumab injections of 600 mg, allowing for normalization of renal function and reduction of proteinuria to <0.5 g per day. Since then, she continues to receive eculizumab. CONCLUSION: Complement regulation pathway-targeted therapy may be a specific and useful treatment for rapidly progressing DDD prior to the development of glomerulosclerosis. Our data provide evidence supporting the pivotal role of complement alternative pathway abnormalities in C3G with DDD.

Streptococcal infection as possible trigger for dense deposit disease (C3 glomerulopathy).

UNLABELLED: Dense deposit disease (DDD, formerly known as membranoproliferative glomerulonephritis (MPGN) type II) is a subtype of C3 glomerulopathy (C3G). Electron-dense deposits in the glomerular basement membrane characterize this glomerulonephritis. DDD typically presents with a nephritic syndrome that progresses to end-stage renal failure in 50 % of patients despite treatment. The pathogenic basis of DDD is uncontrolled activation of the alternative complement cascade although the potential triggering events that precipitate the development of complement dysregulation are typically unknown. There are isolated reports of an apparent association between streptococcal infection and DDD, as well as with MPGN types I and III. However, this association has not been deemed compelling, perhaps because so few cases have been reported or because of a current lack of evidence for a plausible hypothesis to connect a streptococcal infection with subsequent disease. In this report, we describe two patients with DDD who definitely had an antecedent streptococcal infection with the phenotype of acute post-streptococcal glomerulonephritis and whose initial kidney biopsy findings on light microscopy were indistinguishable from acute post-streptococcal glomerulonephritis. These patients had additional points of interest: recurrence of gross hematuria with recurrent streptococcal infections, slowly progressive course, persistently low serum C3 concentration, positive C3 nephritic factor, and positive risk alleles in the complement factor H (CFH) gene. CONCLUSION: We suggest that streptococcal infection may trigger DDD in individuals genetically predisposed by virtue of a disorder in complement regulation.

A simple immunofixation test for induced C3 degradation in disease states (including C3 nephritic factor) and its correlation with kidney biopsy.

Complement dysregulation from an uncontrolled activation of the alternate pathway can be mediated by C3 Nephritic Factor and results in C3 glomerulopathy. Identification of C3 degradation products C3c and C3d in patient serum provides evidence of uncontrolled complement activation. It is possible to detect C3c and C3d in patient serum by an immunofixation assay which induces in vitro C3 degradation. The clinical performance of the immunofixation assay has been assessed by comparing the assay results with findings from immunostaining of kidney biopsies. The immunofixation assay is a simple and reliable technique for detection of C3 degradation on a widely available platform and can be used to provide corroborative evidence of acquired complement dysregulation in patients with C3 glomerulopathy.

C3 glomerulonephritis: clinicopathological findings, complement abnormalities, glomerular proteomic profile, treatment, and follow-up.

C3 glomerulonephritis (C3GN) is a recently described disorder that typically results from abnormalities in the alternative pathway (AP) of complement. Here, we describe the clinical features, kidney biopsy findings, AP abnormalities, glomerular proteomic profile, and follow-up in 12 cases of C3GN. This disorder equally affected all ages, both genders, and typically presented with hematuria and proteinuria. In both the short and long term, renal function remained stable in the majority of patients with native kidney disease. In two patients, C3GN recurred within 1 year of transplantation and resulted in a decline in allograft function. Kidney biopsy mainly showed a membranoproliferative pattern, although both mesangial proliferative and diffuse endocapillary proliferative glomerulonephritis were noted. AP abnormalities were heterogeneous, both acquired and genetic. The most common acquired abnormality was the presence of C3 nephritic factors, while the most common genetic finding was the presence of H402 and V62 alleles of Factor H. In addition to these risk factors, other abnormalities included Factor H autoantibodies and mutations in CFH, CFI, and CFHR genes. Laser dissection and mass spectrometry of glomeruli from patients with C3GN showed accumulation of AP and terminal complement complex proteins. Thus, C3GN results from diverse abnormalities of the alternative complement pathway leading to subsequent glomerular injury.

Factor H autoantibodies in membranoproliferative glomerulonephritis.

Factor H autoantibodies are found in ~10% of aHUS patients. Most are associated with complete deficiency of factor H related proteins 1/3 and bind to the C terminal recognition domain. MPGN, like aHUS, is characterised by complement activation. In this study we, therefore, examined the hypothesis that factor H autoantibodies are associated with MPGN. We screened sera from 16 MPGN patients and 100 normal controls using ELISA and detected strongly positive IgG factor H autoantibodies in 2 patients. One patient had type II (DDD) MPGN (male aged 24 yrs) with C3NeF and the other type I (female aged 26 yrs) with no detectable C3NeF. We identified the binding site of the autoantibodies using small SCR domain fragments in the ELISA and showed that the autoantibodies in both patients bound predominately to the N terminal complement regulatory domain of factor H. We measured CFHR 1/3 copy number using MLPA and showed that both patients had 2 copies of CFHR1 and 3. Finally, we examined the functionality of detected factor H autoantibodies using purified patient IgG and observed increased haemolysis when purified IgG from both patients was added to normal human sera prior to incubation with rabbit red blood cells. Thus, in a cohort of MPGN patients we have found a high titre of functionally significant factor H autoantibodies in two patients with MPGN. Antibody depleting therapy may have a role in such patients and we suggest that screening for factor H autoantibodies should be undertaken in all patients with MPGN.

Causes of alternative pathway dysregulation in dense deposit disease.

BACKGROUND AND OBJECTIVES: This study was designed to investigate the causes of alternative pathway dysregulation in a cohort of patients with dense deposit disease (DDD). DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS: Thirty-two patients with biopsy-proven DDD underwent screening for C3 nephritic factors (C3Nefs), factor H autoantibodies (FHAAs), factor B autoantibodies (FBAAs), and genetic variants in CFH. C3Nefs were detected by: ELISA, C3 convertase surface assay (C3CSA), C3CSA with properdin (C3CSAP), two-dimensional immunoelectrophoresis (2DIEP), and immunofixation electrophoresis (IFE). FHAAs and FBAAs were detected by ELISA, and CFH variants were identified by Sanger sequencing. RESULTS: Twenty-five patients (78%) were positive for C3Nefs. Three C3Nef-positive patients were also positive for FBAAs and one of these patients additionally carried two novel missense variants in CFH. Of the seven C3Nef-negative patients, one patient was positive for FHAAs and two patients carried CFH variants that may be causally related to their DDD phenotype. C3CASP was the most sensitive C3Nef-detection assay. C3CASP and IFE are complementary because C3CSAP measures the stabilizing properties of C3Nefs, whereas IFE measures their expected consequence-breakdown of C3b. CONCLUSIONS: A test panel that includes C3CSAP, IFE, FHAAs, FBAAs, and genetic testing for CFH variants will identify a probable cause for alternative pathway dysregulation in approximately 90% of DDD patients. Dysregulation is most frequently due to C3Nefs, although some patients test positive for FHAAs, FBAAs, and CFH mutations. Defining the pathophysiology of DDD should facilitate the development of mechanism-directed therapies.

Membranoproliferative glomerulonephritis with C3NeF and genetic complement dysregulation.

The development of membranoproliferative glomerulonephritis (MPGN) is associated with uncontrolled activation of the complement alternative pathway. This dysregulation is related either to C3 nephritic factor (C3NeF), an auto-antibody directed against the alternative C3 convertase, or to homozygous loss-of-function mutation of the complement regulatory protein factor H. Heterozygous mutations in the genes coding for factor H, or for the other alternative pathway inhibitory proteins factor I and membrane cofactor protein, have recently been identified in a small number of patients with MPGN with exclusive C3 deposits. We report three hypocomplementemic children with dense deposit disease (n=1) or immune-complex-mediated MPGN type I (n=2), associated with both C3NeF activity and heterozygous mutation of factor H or factor I. These observations highlight the possible combination of genetic and acquired defect in complement control in various subtypes of MPGN, a finding that may influence the treatment strategy in some patients.

Serum bactericidal activity against Neisseria meningitidis in patients with C3 nephritic factors is dependent on IgG allotypes.

The main mechanisms of immune defense against Neisseria meningitidis are serum bactericidal activity (SBA) and opsonophagocytosis. Many complement deficiencies, among them acquired partial C3 deficiency due to stabilizing autoantibodies against the alternative pathway C3 convertase (C3 nephritic factors, C3 NeF); increase the risk of meningococcal infection. SBA against meningococci in patients with C3 NeF was determined along with allelic variants (GM alleles) of the immunoglobulin constant heavy G chain (IGHG) genes. In patients with C3 NeF and in control children, individuals homozygous for G1M*f and G3M*b showed higher SBA against meningococci than heterozygous individuals. Partial complement deficiency in early childhood might explain the influence of GM variants on SBA in control children. These novel findings imply that the IGHG genotype is important in defense against meningococci in individuals with low complement function and possibly in combination with other immunodeficiencies.