Department of Nephrology and Hypertension, Hannover Medical School, Hannover, Germany.
Mount Desert Island Biological Lab, Bar Harbor, ME, USA.
Biomed Res Int. 2019 Jul 22;2019:4508048. doi: 10.1155/2019/4508048. eCollection 2019.
The 6-O-endosulfatases (sulfs) are important enzymatic components involved in the regulation of heparan sulfate by altering the sulfatation pattern. Specifically in the kidney, sulfs have been implicated in the glomerular podocyte-endothelial cell crosstalk and in the preservation of the glomerular filtration barrier (GFB) in different mouse models. Since it has been shown that in zebrafish larvae, Sulf1, Sulf2a, and Sulf2b are expressed in the pronephric kidney we set out to establish if a reduction in sulf expression leads to GFB dysfunction. Here, we show that a reduced sulf expression following morpholino (MO) induced knockdown in zebrafish larvae promotes damage to the GFB leading to renal plasma protein loss from the circulation. Moreover, a combined knockdown of Sulf1, Sulf2a, and Sulf2b is associated with severe morphologic changes including narrowing of the fenestration between glomerular endothelial cells as well as thickening of the glomerular basement membrane and podocyte foot process effacement, suggesting that glomerular damage is an underlying cause of the circulatory protein loss observed after MO injection. Additionally, we show that a decrease in sulf expression reduces the bioavailability of VegfA in the glomerulus of the pronephros, which may contribute to the structural changes observed in the glomeruli of morphant fish. Furthermore, consistent with previous results, knockdown of the sulfs is associated with arteriovenous malformations in particular in the tail region of the larvae. Overall, taken together our results suggest that 6-O-endosulfatases are important in the preservation of GFB integrity and a reduction in their expression levels induces phenotypic changes that are indicative of renal protein loss.
6-O-内磺基转移酶(sulfs)是参与调节肝素硫酸的重要酶类成分,通过改变硫酸化模式来实现。特别是在肾脏中,sulfs 已被牵涉到肾小球足细胞-内皮细胞的串扰以及不同的小鼠模型中肾小球滤过屏障(GFB)的维持中。由于已经表明,在斑马鱼幼虫中,Sulf1、Sulf2a 和 Sulf2b 在原肾中表达,我们着手确定 sulf 表达的减少是否会导致 GFB 功能障碍。在这里,我们显示,在斑马鱼幼虫中通过形态发生素(MO)诱导的敲低导致 sulf 表达减少会促进 GFB 的损伤,导致循环中肾血浆蛋白的丢失。此外,Sulf1、Sulf2a 和 Sulf2b 的联合敲低与严重的形态变化相关,包括肾小球内皮细胞之间的窗孔变窄以及肾小球基底膜和足细胞足突的增厚,表明肾小球损伤是观察到的 MO 注射后循环蛋白丢失的潜在原因。此外,我们表明,sulf 表达的减少会降低原肾肾小球中 VegfA 的生物利用度,这可能导致在形态发生素处理的鱼的肾小球中观察到的结构变化。此外,与之前的结果一致,sulf 的敲低与动静脉畸形有关,特别是在幼虫的尾部区域。总体而言,我们的结果表明 6-O-内磺基转移酶在 GFB 完整性的维持中很重要,其表达水平的降低诱导出表明肾蛋白丢失的表型变化。
