MO044: Cellular mechanism of the exceptional dominant transmission in NPHS2-associated glomerulopathy

Abstract

Abstract BACKGROUND AND AIMS Mutations of NPHS2 cause autosomal recessive steroid-resistant nephrotic syndrome (SRNS). The encoded podocin, a key component of the slit diaphragm, homo-oligomerizes through two C-terminal oligomerization sites. We formerly found that specific podocin variants may exert a dominant negative effect against R229Q podocin variant secondary to an altered oligomerization [1, 2]. Recently, two families with autosomal dominant focal segmental glomerulosclerosis were found to carry a de novo heterozygous NPHS2 last-exon frameshift mutations affecting the second oligomerization site (either c.989_992delTGTC, p.L330Pfs*17 or c.988_989delCT, p.L330Vfs*15) [3]. We hypothesized that these podocin variants exert a dominant negative effect against wild type (WT) podocin. METHODS We coexpressed eGFP-tagged WT podocin with either hemagglutinin-tagged (HA) WT, p.L330Pfs*17 or p.L330Vfs*15 podocin variants in cultured podocytes. Plasma membrane was stained with CF405M-conjugated wheat germ agglutinin (WGA), and immunohistochemical staining was performed with primary anti-HA and secondary AlexaFluor568-conjugated antibodies. All analysis was done in a blinded fashion. The membrane-targeting of podocin was assessed by the ratio of the WGA-labeled perimembranous area that colocalized with podocin (Mander's overlap coefficients, MOC) and the colocalization of the coexpressed variants were estimated as Pearson correlation coefficients (PCC) by FiJi software on confocal microscopic images. MOC and PCC were compared by Holmes–Bonferroni adjusted Wilcoxon signed-rank test. RESULTS The frameshift podocin variants were not membranous in monoexpression [MOC: HA-p.L330Pfs*17 (n = 26): 0.08 (0.03–0.22) median (interquartile ranges); HA-p.L330Vfs*15 (n = 24): 0.07 (0.02–0.16)]. The GFP-tagged WT podocin strongly colocalized with the HA-tagged WT or frameshift podocin variants [PCC: WT-eGFP + HA-WT (n = 19): 0.64 (0.49–0.71); WT-eGFP + HA-L330Pfs*17 (n = 17): 0.54 (0.35–0.58); WT-eGFP + HA-L330Vfs*15 (n = 17): 0.44 (0.29–0.66)]. The GFP-WT podocin was retained in intracellular compartments in the presence of any of the two frameshift podocin variants [MOCWT(WT) = 0.58 (0.46–0.69)], MOCWT(L330Pfs*17) = 0.01 (0.002–0.029), P = 2x10-6 versus WT(WT); MOCWT(L330Vfs*15) = 0.003 (0.001–0.013), P = 2 x 10−6 versus WT(WT)]. CONCLUSIONS The dominant podocin variants retain WT podocin in intracellular compartments explaining the exceptional dominant transmission of NPHS2-associated glomerulopathy. This is in accordance with our former results showing the primary role of C-terminal hetero-oligomerization in exerting interallelic interactions of NPHS2 alleles. FUNDING MTA-SE Lendulet Research Grant (LP2015-11/2015), OTKA KH125566 and K135798, and ÚNKP-20–3-I-SE-29 from the source of the National Research, Development and Innovation Fund.