Department of Nephrology, Shanghai Ruijin Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, China.
Department of Pharmacology and Systems Therapeutic, Icahn School of Medicine at Mount Sinai, New York, New York, USA.
Kidney Int. 2015 Sep;88(3):593-604. doi: 10.1038/ki.2015.106. Epub 2015 Jun 3.
Here, we report a genetic study of an extended family of Chinese ancestry with focal segmental glomerulosclerosis (FSGS), with one of the affected members also concurrently diagnosed with IgA nephropathy (IgAN). By genome-wide linkage analysis and subsequent sequencing, we identified an S85W mutation in the inverted formin 2 (INF2) gene that perfectly cosegregated with the kidney disease phenotype. The entire INF2 coding region was sequenced in 200 healthy controls, 55 families with FSGS, and 34 families with IgAN. This analysis identified a novel insertion, S129_Q130insVRQLS, in another FSGS pedigree. In vitro studies found that α-actinin 4 expression was decreased and INF2 showed perinuclear localization in S85W-transfected podocytes. Phosphorylation of serum response factor, and that its nuclear translation was decreased in S85W podocytes, indicated decreased activation in mutants. Abnormal actin organization was also found in S85W podocytes, while no change of microtubule structure was observed. Co-immunoprecipitation and immunofluorescence found decreased interaction between INF2 and Cdc42 in S85W podocytes. However, all these changes were not found in S129_Q130insVRQLS podocytes. The overall frequency of INF2 mutations was ~3.6% among Chinese familial FSGS, which was considerably lower than that from studies of European FSGS families. Thus, S85W but not the S129_Q130insVRQLS variant leads to podocyte cytoskeletal abnormalities, probably by impaired serum response factor phosphorylation.
在这里,我们报告了一个具有局灶节段性肾小球硬化症(FSGS)的中国血统的大家庭的遗传研究,其中一个受影响的成员还同时被诊断为 IgA 肾病(IgAN)。通过全基因组连锁分析和随后的测序,我们在倒置formin 2(INF2)基因中发现了一个 S85W 突变,该突变与肾脏疾病表型完全连锁。我们在 200 名健康对照者、55 个 FSGS 家族和 34 个 IgAN 家族中对整个 INF2 编码区进行了测序。这项分析在另一个 FSGS 家系中发现了一个新的插入,S129_Q130insVRQLS。体外研究发现,α-辅肌动蛋白 4 的表达减少,S85W 转染的足细胞中 INF2 显示核周定位。磷酸化的血清反应因子及其核翻译在 S85W 足细胞中减少,表明突变体的激活减少。还发现 S85W 足细胞中的肌动蛋白组织异常,但微管结构没有变化。共免疫沉淀和免疫荧光发现 S85W 足细胞中 INF2 与 Cdc42 之间的相互作用减少。然而,这些变化在 S129_Q130insVRQLS 足细胞中均未发现。在中国人家族性 FSGS 中,INF2 突变的总体频率约为 3.6%,明显低于欧洲 FSGS 家族的研究结果。因此,S85W 而不是 S129_Q130insVRQLS 变体导致足细胞细胞骨架异常,可能是由于血清反应因子磷酸化受损所致。
