New Analytic Tools for aHUS and C3G Diagnosis

Overview

This protocol is part of a larger project, COMPRare (COMPlement-mediated Rare kidney diseases), which has been financed on behalf of the EJP RD (European Joint Programme on Rare Diseases) program of EU and is leaded by a scientific consortium from 7 European countries. The partners (P) of the consortium are: P1. Radboudumc Amalia Children's Hospital (The Netherlands) P2. Semmelweis University (Hungary) P3. Cordeliers Research Center (France) P4. Max Delbruck Center for Molecular Medicine (Germany) P5. Istituto di Ricerche Farmacologiche Mario Negri (Italy) P6. Lund University (Sweden) P7. Lille University (France) The general aim of the project is to define new diagnostic tools for complement activation in order to improve patients stratification and follow-up, thereby affecting time and choice of treatment in patients with aHUS and C3G. Particularly, the specific objectives of the COMPRare are: * To develop new standardized analytic assays thereby identifying specific complement prognostic biomarkers for early diagnosis, classification, improved monitoring and treatment of patients with aHUS and C3G; * To in-depth characterize patients' complement abnormalities in blood, in patient-derived cells and in kidney biopsies; * To identify strategies to classify VUS/LPV * To find new pathophysiological pathways involved in aHUS and C3G for further improving disease diagnosis, monitoring and treatment. The results of these studies will form the basis of personalized treatment with existing and upcoming complement inhibitory drugs for these rare complement-mediated kidney diseases.

Atypical Hemolytic Uremic Syndrome (aHUS) and C3 Glomerulopathies (C3G) are ultra-rare conditions in which an uncontrolled complement activation results in renal inflammation with thrombotic microangiopathy (TMA) in aHUS and extensive deposition of complement fragments in the kidneys in C3G. In both conditions, these alterations lead to acute and chronic kidney damage and, ultimately, end-stage renal failure. The prevalence of genetic and acquired complement abnormalities varies between the two diseases, but covers mostly the same complement proteins. Blocking the complement system is the treatment of choice in aHUS and may have considerable potential in C3G, as evident from the increasing number of phase 3 trials with complement inhibitory drugs. Timely and accurate diagnosis is still challenging for clinicians, both for aHUS, to differentiate it from other forms of TMA, and for C3G, to distinguish it from other forms of glomerulonephritis (GN). In C3G, kidney biopsy is the diagnostic gold standard but it is not sufficient. Therefore, for both aHUS and C3G, there is an unmet need for accurate testing of genetic and acquired complement abnormalities. Moreover, interlaboratory complement-assays, in particular the tests for the C3 Nephritic Factors (C3NeFs; heterogeneous autoantibodies that stabilize the C3 convertase), vary considerably and, consequently, their standardization is a great necessity. Furthermore, the interpretation of genetic results in aHUS and C3G is not always conclusive. Variants of Unknown Significance (VUS)/Likely Pathogenic Variant (LPV) in complement genes are often found in aHUS and C3G and require further characterization. A rapid and functional VUS/LPV determination and interpretation could help to better understand the disease pathophysiology and might influence diagnosis and treatment options. Currently, aHUS patients are effectively treated with the complement C5 inhibiting monoclonal antibodies Eculizumab and Ravulizumab. However, the duration and optimal dose of treatment are debated, particularly in view of the high costs of the drug. Even if recent studies showed that restrictive use of eculizumab is feasible, there is a clear need for biomarkers identification and protocols for monitoring and predicting disease activity in aHUS and C3G patients. In summary, new analytic tools for further defining the disease profile in blood, (patients) cells and kidney biopsies are needed.