Transethnic, Genome-Wide Analysis Reveals Immune-Related Risk Alleles and Phenotypic Correlates in Pediatric Steroid-Sensitive Nephrotic Syndrome

B cell phenotype in pediatric idiopathic nephrotic syndrome

BACKGROUND

A pathogenic role of B cells in non-genetic nephrotic syndrome has been suggested by the efficacy of rituximab, a B cell depleting antibody, in maintaining a prolonged remission. However, little information is available on B cell homeostasis in nephrotic syndrome patients.

METHODS

We retrospectively analyzed by flow cytometry the distribution of different B cell subpopulations in 107 steroid-sensitive and in 6 genetic steroid-resistant nephrotic syndrome pediatric patients, compared with age- and sex-matched controls.

RESULTS

Fifty-one steroid-sensitive patients at disease onset, before starting immunosuppression, presented significantly increased levels of total, transitional, memory, and switched memory B cells compared to controls. Oral immunosuppression strongly affected transitional and mature B cell levels in 27 patients in relapse and also in 29 patients in remission, whereas memory B cells were significantly higher compared to controls during relapse, despite the immunosuppressive treatment, and were normalized only in patients in remission. Children with genetic forms of steroid-resistant nephrotic syndrome presented no differences in B cell profile from controls.

CONCLUSIONS

Our study indicates that memory B cells, more than other B cell subsets, are increased and appear to be pathogenically relevant in steroid-sensitive nephrotic syndrome pediatric patients.

SHROOM3-FYN Interaction Regulates Nephrin Phosphorylation and Affects Albuminuria in Allografts

BACKGROUND

We previously showed that the presence of a CKD-associated locus in SHROOM3 in a donor kidney results in increased expression of SHROOM3 (an F-actin-binding protein important for epithelial morphogenesis, via rho-kinase [ROCK] binding); this facilitates TGF-b signaling and allograft fibrosis. However, other evidence suggests Shroom3 may have a protective role in glomerular development.

METHODS

We used human data, Shroom3 knockdown podocytes, and inducible shRNA-mediated knockdown mice to study the role of Shroom3 in adult glomeruli.

RESULTS

Expression data from the Nephroseq database showed glomerular and nonglomerular SHROOM3 had opposing associations with renal function in CKD biopsy samples. In human allografts, homozygosity at rs17319721, the SHROOM3 locus linked with lower GFR, was associated with reduced albuminuria by 2 years after transplant. Although our previous data showed reduced renal fibrosis with tubular Shroom3 knockdown, this study found that glomerular but not tubular Shroom3 knockdown induced albuminuria. Electron microscopy revealed diffuse foot process effacement, and glomerular RNA-sequencing showed enrichment of tyrosine kinase signaling and podocyte actin cytoskeleton pathways in knockdown mice. Screening SHROOM3-interacting proteins identified FYN (a src-kinase) as a candidate.We confirmed the interaction of endogenous SHROOM3 with FYN in human podocytes via a critical Src homology 3-binding domain, distinct from its ROCK-binding domain. Shroom3-Fyn interaction was required in vitro and in vivo for activation of Fyn kinase and downstream nephrin phosphorylation in podocytes. SHROOM3 knockdown altered podocyte morphology, cytoskeleton, adhesion, and migration.

CONCLUSIONS

We demonstrate a novel mechanism that may explain SHROOM3's dichotomous associations in glomerular versus nonglomerular compartments in CKD.