Loss of 3-O-sulfotransferase enzymes, Hs3st3a1 and Hs3st3b1, reduces kidney and glomerular size and disrupts glomerular architecture

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
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Abstract

Heparan sulfate (HS) is an important component of the kidney anionic filtration barrier, the glomerular basement membrane (GBM). HS chains attached to proteoglycan protein cores are modified by sulfotransferases in a highly ordered series of biosynthetic steps resulting in immense structural diversity due to negatively charged sulfate modifications. 3-O-sulfation is the least abundant modification generated by a family of seven isoforms but creates the most highly sulfated HS domains. We analyzed the kidney phenotypes in the Hs3st3a1, Hs3st3b1 and Hs3st6 -knockout (KO) mice, the isoforms enriched in kidney podocytes. Individual KO mice show no overt kidney phenotype, although Hs3st3b1 kidneys were smaller than wildtype (WT). Furthermore, Hs3st3a1-/-; Hs3st3b1-/- double knockout (DKO) kidneys were smaller but also had a reduction in glomerular size relative to wildtype (WT). Mass spectrometry analysis of kidney HS showed reduced 3-O-sulfation in Hs3st3a1-/- and Hs3st3b1-/-, but not in Hs3st6-/- kidneys. Glomerular HS showed reduced HS staining and reduced ligand-and-carbohydrate engagement (LACE) assay, a tool that detects changes in binding of growth factor receptor-ligand complexes to HS. Interestingly, DKO mice have increased levels of blood urea nitrogen, although no differences were detected in urinary levels of albumin, creatinine and nephrin. Finally, transmission electron microscopy showed irregular and thickened GBM and podocyte foot process effacement in the DKO compared to WT. Together, our data suggest that loss of 3-O-HS domains disrupts the kidney glomerular architecture without affecting the glomerular filtration barrier and overall kidney function.

3-O-磺基转移酶(Hs3st3a1 和 Hs3st3b1)的缺失会缩小肾脏和肾小球的体积,并破坏肾小球的结构。
硫酸头孢烷(HS)是肾脏阴离子过滤屏障--肾小球基底膜(GBM)的重要组成部分。在一系列高度有序的生物合成步骤中,附着在蛋白多糖蛋白质核心上的硫酸氢链会被硫酸转移酶修饰,从而导致带负电荷的硫酸修饰产生巨大的结构多样性。3-O-硫酸化是由七个同工酶家族产生的最少的修饰,但却产生了硫酸化程度最高的 HS 结构域。我们分析了Hs3st3a1、Hs3st3b1和Hs3st6基因敲除(KO)小鼠的肾脏表型,这些同工酶富集在肾脏荚膜细胞中。尽管 Hs3st3b1 肾脏比野生型(WT)小,但单个 KO 小鼠没有表现出明显的肾脏表型。此外,相对于野生型(WT),Hs3st3a1-/-; Hs3st3b1-/- 双基因敲除(DKO)肾脏更小,但肾小球体积也有所缩小。肾脏HS的质谱分析表明,Hs3st3a1-/-和Hs3st3b1-/-肾脏中的3-O-硫酸化减少,而Hs3st6-/-肾脏中的3-O-硫酸化没有减少。肾小球 HS 染色减少,配体与碳水化合物接合(LACE)检测也减少,LACE 是一种检测生长因子受体-配体复合物与 HS 结合变化的工具。有趣的是,DKO 小鼠的血尿素氮水平升高,但白蛋白、肌酐和肾素的尿液水平未发现差异。最后,透射电子显微镜显示,与 WT 小鼠相比,DKO 小鼠的 GBM 不规则且增厚,荚膜脚突起消失。总之,我们的数据表明,3-O-HS 结构域的缺失会破坏肾小球结构,但不会影响肾小球滤过屏障和整体肾功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Matrix Biology
Matrix Biology 生物-生化与分子生物学
CiteScore
11.40
自引率
4.30%
发文量
77
审稿时长
45 days
期刊介绍: Matrix Biology (established in 1980 as Collagen and Related Research) is a cutting-edge journal that is devoted to publishing the latest results in matrix biology research. We welcome articles that reside at the nexus of understanding the cellular and molecular pathophysiology of the extracellular matrix. Matrix Biology focusses on solving elusive questions, opening new avenues of thought and discovery, and challenging longstanding biological paradigms.
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