内皮糖萼成分内切黏蛋白的缺失会导致肾小球结构和功能受损

Zhengping Hu, Issahy Cano, Fengyang Lei, Jie Liu, Ramon Bossardi Ramos, Harper Gordon, Eleftherios I Paschalis, Magali Saint-Geniez, Yin Shan Eric Ng, Patricia A D'Amore
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摘要

背景:内黏蛋白(EMCN)是一种内皮细胞特异性糖萼成分,被发现在肾小球内皮细胞中高度表达。我们报道了 EMCN 的抗炎作用及其通过调节血管内皮生长因子受体 2(VEGFR2)的内吞参与调节血管内皮生长因子(VEGF)的活性。本研究的目的是利用首个全球 EMCN 基因敲除小鼠模型,研究 EMCN 缺乏的表型和功能影响。研究方法通过将 EMCNloxed 小鼠与 ROSA26-Cre 小鼠杂交产生全局性 EMCN 基因剔除小鼠。采用流式细胞术分析肾脏中浸润的髓样细胞。透射电子显微镜检查了肾小球滤过屏障的超微结构,同时分析了新鲜尿液样本中的尿白蛋白、肌酐和总蛋白水平。免疫组化法检测了EMCN、EGFP、CD45、CD31、CD34、荚膜蛋白、白蛋白和α-平滑肌肌动蛋白的表达和定位。小鼠定期称重,并使用无创尾袖带系统测量全身血压。通过荧光激活细胞分拣技术分离肾小球内皮细胞和荚膜细胞,进行 RNA-seq 分析。对转录谱进行分析,以确定内皮细胞和荚膜细胞中的差异表达基因,然后对上调和下调基因进行基因本体分析。通过 Western 印迹对 EMCN、白蛋白和荚膜蛋白的蛋白水平进行量化。结果EMCN-/-小鼠存活,肾脏无明显解剖缺陷。EMCN-/-小鼠的CD45+细胞浸润增加,Ly6GhighLy6Chigh髓系细胞比例增加,VCAM-1表达增加。与 EMCN+/+ 小鼠相比,EMCN-/- 小鼠出现白蛋白尿,鲍曼氏间隙中的白蛋白增加。EMCN-/- 小鼠的肾小球显示出融合和脱落的荚膜脚进程以及紊乱的内皮栅栏。我们发现 EMCN 基因敲除小鼠的血压与野生型小鼠无明显差异。肾小球内皮细胞的 RNA 序列分析显示,细胞-细胞粘附和 MAPK/ERK 通路下调,糖萼和细胞外基质重塑。在荚膜细胞中,我们观察到血管内皮生长因子(VEGF)信号传导的减少和细胞骨架组织的改变。值得注意的是,podocin 的 mRNA 和蛋白质水平均显著下降,而 podocin 是裂隙隔膜的关键组成部分。结论我们的研究表明,内皮标志物 EMCN 在支持正常肾小球滤过屏障结构和功能方面起着关键作用,可能是通过调节 VEGFR2 信号传导和阻断白细胞粘附来维持肾小球内皮稳态。
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Deletion of the endothelial glycocalyx component endomucin leads to impaired glomerular structure and function
Background: Endomucin (EMCN), an endothelial-specific glycocalyx component, was found to be highly expressed by the endothelium of the renal glomerulus. We reported an anti-inflammatory role of EMCN and its involvement in the regulation of vascular endothelial growth factor (VEGF) activity through modulating VEGF receptor 2 (VEGFR2) endocytosis. The goal of this study is to investigate the phenotypic and functional effects of EMCN deficiency using the first global EMCN knockout mouse model. Methods: Global EMCN knockout mice were generated by crossing EMCN-floxed mice with ROSA26-Cre mice. Flow cytometry was employed to analyze infiltrating myeloid cells in the kidneys. The ultrastructure of the glomerular filtration barrier was examined by transmission electron microscopy, while urinary albumin, creatinine, and total protein levels were analyzed from freshly collected urine samples. Expression and localization of EMCN, EGFP, CD45, CD31, CD34, podocin, albumin, and α-smooth muscle actin were examined by immunohistochemistry. Mice were weighed regularly, and their systemic blood pressure was measured using a non-invasive tail-cuff system. Glomerular endothelial cells and podocytes were isolated by fluorescence-activated cell sorting for RNA-seq. Transcriptional profiles were analyzed to identify differentially expressed genes in both endothelium and podocytes, followed by gene ontology analysis of up- and down-regulated genes. Protein levels of EMCN, albumin, and podocin were quantified by Western blot. Results: EMCN-/- mice were viable with no gross anatomical defects in kidneys. The EMCN-/- mice exhibited increased infiltration of CD45+ cells, with an increased proportion of Ly6GhighLy6Chigh myeloid cells and higher VCAM-1 expression. EMCN-/- mice displayed albuminuria with increased albumin in the Bowman's space compared to the EMCN+/+ littermates. Glomeruli in EMCN-/- mice revealed fused and effaced podocyte foot processes and disorganized endothelial fenestrations. We found no significant difference in blood pressure between EMCN knockout mice and their wild-type littermates. RNA-seq of glomerular endothelial cells revealed downregulation of cell-cell adhesion and MAPK/ERK pathways, along with glycocalyx and extracellular matrix remodeling. In podocytes, we observed reduced VEGF signaling and alterations in cytoskeletal organization. Notably, there was a significant decrease in both mRNA and protein levels of podocin, a key component of the slit diaphragm. Conclusion: Our study demonstrates a critical role of the endothelial marker EMCN in supporting normal glomerular filtration barrier structure and function, presumably by maintaining glomerular endothelial homeostasis through modulation of VEGFR2 signaling and blocking leukocyte adhesion.
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