Department of Pediatrics, Graduate School of Medicine, University of Tokyo, Japan.
FEBS J. 2012 Sep;279(17):3010-21. doi: 10.1111/j.1742-4658.2012.08682.x. Epub 2012 Jul 23.
The slit diaphragm (SD) is an intercellular junction between renal glomerular epithelial cells (podocytes) that is essential for permselectivity in glomerular ultrafiltration. The SD components, nephrin and Neph1, assemble a signaling complex in a tyrosine phosphorylation dependent manner, and regulate the unique actin cytoskeleton of podocytes. Mutations in the NPHS1 gene that encodes nephrin cause congenital nephrotic syndrome (CNS), which is characterized by the loss of the SD and massive proteinuria. Recently, we have identified the expression of the transmembrane glycoprotein signal regulatory protein α (SIRPα) at the SD. In the present study, we analyzed the expression of SIRPα in developing kidneys, in kidneys from CNS patients and in proteinuric rat models. The possibility that SIRPα interacts with known SD proteins was also investigated. SIRPα was concentrated at the SD junction during the maturation of intercellular junctions. In the glomeruli of CNS patients carrying mutations in NPHS1, where SD formation is disrupted, the expression of SIRPα as well as Neph1 and nephrin was significantly decreased, indicating that SIRPα is closely associated with the nephrin complex. Indeed, SIRPα formed hetero-oligomers with nephrin in cultured cells and in glomeruli. Furthermore, the cytoplasmic domain of SIRPα was highly phosphorylated in normal glomeruli, and its phosphorylation was dramatically decreased upon podocyte injury in vivo. Thus, SIRPα interacts with nephrin at the SD, and its phosphorylation is dynamically regulated in proteinuric states. Our data provide new molecular insights into the phosphorylation events triggered by podocyte injury.
裂孔隔膜(SD)是肾肾小球上皮细胞(足细胞)之间的细胞间连接,对于肾小球超滤的选择性至关重要。SD 成分,nephrin 和 Neph1,以酪氨酸磷酸化依赖的方式组装信号复合物,并调节足细胞的独特肌动蛋白细胞骨架。编码 nephrin 的 NPHS1 基因突变导致先天性肾病综合征(CNS),其特征是 SD 的丧失和大量蛋白尿。最近,我们已经在 SD 处鉴定了跨膜糖蛋白信号调节蛋白 α(SIRPα)的表达。在本研究中,我们分析了 SIRPα 在发育中的肾脏、CNS 患者的肾脏和蛋白尿大鼠模型中的表达。还研究了 SIRPα 与已知的 SD 蛋白相互作用的可能性。SIRPα 在细胞间连接成熟过程中集中在 SD 连接点。在携带 NPHS1 基因突变的 CNS 患者的肾小球中,SD 形成被破坏,SIRPα 的表达以及 Neph1 和 nephrin 的表达显著降低,表明 SIRPα与 nephrin 复合物密切相关。事实上,SIRPα在培养细胞和肾小球中与 nephrin 形成异源寡聚体。此外,SIRPα的细胞质结构域在正常肾小球中高度磷酸化,其在体内足细胞损伤时磷酸化显著降低。因此,SIRPα在 SD 处与 nephrin 相互作用,其磷酸化在蛋白尿状态下动态调节。我们的数据为足细胞损伤触发的磷酸化事件提供了新的分子见解。
