Whole exome sequencing identifies monogenic forms of nephritis in a previously unsolved cohort of children with steroid-resistant nephrotic syndrome and hematuria

Background Alport syndrome (AS), atypical hemolytic-uremic syndrome (aHUS), and fibronectin-glomerulopathy (FG) are rare forms of glomerular diseases that manifest in a combination of proteinuria, hematuria, and hypertension, referred to as nephritic syndrome. Due to phenotypic overlays, steroid-resistant nephrotic syndrome (SRNS) and nephritic syndrome have been difficult to discern diagnostically. SRNS is more common than nephritic syndrome and is the second leading cause of childhood-onset CKD. Fourteen monogenic causes of AS, aHUS, and FG and 60 monogenic causes of SRNS have been identified. As whole exome sequencing (WES) allows for unequivocal molecular genetic diagnostics, we hypothesize to be able to identify causative mutations in genes known to cause nephritic syndrome in patient cohorts with a clinical diagnosis of SRNS. Methods We identified patients with hematuria and steroid-resistant proteinuria in an international patient cohort that we had submitted to WES and who were unsolved for known monogenic causes of SRNS. These 70 patients from 65 individual families were subsequently analyzed for causative mutations in 14 AS, aHUS, or FG causing genes. WES data were compared to a control cohort of 76 patients from 75 families that were diagnosed with nephronophthisis-related ciliopathies (NPHP-RC) and to a control cohort of 83 individuals from 75 families with SRNS, but without hematuria. Results We detected likely pathogenic genetic variants in 3 of 65 families (4.6%) in 2 of the 14 genes analyzed. Conclusions We confirmed that in cohorts of childhood-onset SRNS, patients with nephritic syndrome can be discerned by WES. The findings highlight the importance of clinical genetic testing for therapeutic and preventative measures in patients with proteinuria.

Automated summary

By analyzing patients with SRNS using WES, we identified genetic mutations causing nephritic syndrome in these patients, providing strong evidence for the importance of clinical genetic testing in patients with proteinuria.