BACKGROUND: Complement-mediated thrombotic microangiopathies (TMAs) are a subset of TMAs in which the thrombocytopenia, microangiopathic hemolytic anemia, and end organ damage are caused by mutations in genes encoding the alternative complement pathway. Numerous complement genes have been implicated in complement-mediated TMAs including complement factor H (CFH), CD46 (MCP), complement factor I (CFI), complement component 3 (C3), complement factor B (CFB), factor H related 5 (CFHR5), and thrombomodulin (THBD) among others. Genetic analysis typically yields a mutation in 60% of patients whose TMA is presumed to be mediated by complement dysregulation. However, the description of novel disease-associated variants may increase this proportion.

METHODS: A retrospective study of patients with TMAs diagnosed between 2000 and 2014 was performed. TMA diagnosis was made based on thrombocytopenia and evidence of microangiopathic hemolytic anemia. Analysis was performed with Alamut¨ software with additional in silico prediction tools (SIFT, MutationTaster, and Polyphen) for classification of gene variants. Variants of unknown significance (VUS) and likely pathogenic variants were further assessed using several mutation databases, including HGMD, ClinVar, and Factor H database

RESULTS: Of patients diagnosed with a TMA, genetic analysis was performed in only a 10% of patients. Of the 29 patients with genetic studies performed, mutations were identified in 18 patients (62%). The majority of the mutations had been described previously in the literature, but four novel variants were identified: three missense and one splice-site. The table below summarizes these variants as well as laboratory findings on presentation. These were two variants of CFH, one variant of CFHR5, and one variant of CFI. In silico modeling of these variants revealed two polymorphisms likely to be pathogenic, one polymorphism likely benign given the lack of predicted splicing changes, and one VUS.

Table 1.
ProteinMutationClassificationAgeSexHemoglobin (g/dL)Platelets (thousands)Creatinine (mg/dL)
CFH c.245-10_245-9dup Likely benign 61 11.6 51 6.7 
CFH c.476G>A, p.Ser159Asn Likely pathogenic 43 9.1 101 9.1 
CFHR5 c.1412G>A p.Gly471Glu Likely pathogenic 30 9.8 129 4.9 
CFI c.1190T>A p.Val397Glu Unknown significance 51 9.4 125 6.1 
ProteinMutationClassificationAgeSexHemoglobin (g/dL)Platelets (thousands)Creatinine (mg/dL)
CFH c.245-10_245-9dup Likely benign 61 11.6 51 6.7 
CFH c.476G>A, p.Ser159Asn Likely pathogenic 43 9.1 101 9.1 
CFHR5 c.1412G>A p.Gly471Glu Likely pathogenic 30 9.8 129 4.9 
CFI c.1190T>A p.Val397Glu Unknown significance 51 9.4 125 6.1 

DISCUSSION: With therapy available to target the alternative complement pathway, genetic analysis to identify genetic variants capable of causing complement mediated TMAs is an essential part of the evaluation. This genetic data must be interpreted and correlated with functional analysis and clinical phenotype. The reporting of novel variants in clinical databases, with inclusion of relevant clinical findings, is necessary to accurately classify and verify variants as pathologic mutations or benign polymorphisms. The full understanding of this diverse disease requires a more complete understanding of its genetics. While complement pathway-directed therapies are available, their rational use requires thorough interpretation of laboratory data, including genetic analysis.

Disclosures

Murray:Mayo Clinic: Patents & Royalties: Patent Application Filed.

Author notes

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Asterisk with author names denotes non-ASH members.

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