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足细胞中的可溶性环氧化物水解酶在高血糖状态下对肾功能有重要贡献。

Soluble epoxide hydrolase in podocytes is a significant contributor to renal function under hyperglycemia.

机构信息

Department of Nutrition, University of California Davis, One Shields Ave, Davis, CA 95616, United States.

National Institute of Environmental Health Sciences, North Carolina, NC 27709, United States.

出版信息

Biochim Biophys Acta Gen Subj. 2017 Nov;1861(11 Pt A):2758-2765. doi: 10.1016/j.bbagen.2017.07.021. Epub 2017 Jul 27.

DOI:10.1016/j.bbagen.2017.07.021
PMID:28757338
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5873293/
Abstract

BACKGROUND

Diabetic nephropathy (DN) is the leading cause of renal failure, and podocyte dysfunction contributes to the pathogenesis of DN. Soluble epoxide hydrolase (sEH, encoded by Ephx2) is a conserved cytosolic enzyme whose inhibition has beneficial effects on renal function. The aim of this study is to investigate the contribution of sEH in podocytes to hyperglycemia-induced renal injury.

MATERIALS AND METHODS

Mice with podocyte-specific sEH disruption (pod-sEHKO) were generated, and alterations in kidney function were determined under normoglycemia, and high-fat diet (HFD)- and streptozotocin (STZ)-induced hyperglycemia.

RESULTS

sEH protein expression increased in murine kidneys under HFD- and STZ-induced hyperglycemia. sEH deficiency in podocytes preserved renal function and glucose control and mitigated hyperglycemia-induced renal injury. Also, podocyte sEH deficiency was associated with attenuated hyperglycemia-induced renal endoplasmic reticulum (ER) stress, inflammation and fibrosis, and enhanced autophagy. Moreover, these effects were recapitulated in immortalized murine podocytes treated with a selective sEH pharmacological inhibitor. Furthermore, pharmacological-induced elevation of ER stress or attenuation of autophagy in immortalized podocytes mitigated the protective effects of sEH inhibition.

CONCLUSIONS

These findings establish sEH in podocytes as a significant contributor to renal function under hyperglycemia.

GENERAL SIGNIFICANCE

These data suggest that sEH is a potential therapeutic target for podocytopathies.

摘要

背景

糖尿病肾病(DN)是肾衰竭的主要原因,足细胞功能障碍导致 DN 的发病机制。可溶性环氧化物水解酶(sEH,由 Ephx2 编码)是一种保守的胞质酶,其抑制对肾功能有有益的影响。本研究旨在探讨足细胞中 sEH 在高血糖诱导的肾损伤中的作用。

材料和方法

生成了足细胞特异性 sEH 缺失(pod-sEHKO)的小鼠,并在正常血糖、高脂肪饮食(HFD)和链脲佐菌素(STZ)诱导的高血糖下确定了肾功能的变化。

结果

在 HFD 和 STZ 诱导的高血糖下,小鼠肾脏中 sEH 蛋白表达增加。足细胞中 sEH 的缺失保留了肾功能和血糖控制,并减轻了高血糖诱导的肾损伤。此外,podocyte sEH 缺失与减弱的高血糖诱导的肾内质网(ER)应激、炎症和纤维化以及增强的自噬有关。此外,在使用选择性 sEH 药理学抑制剂处理的永生化小鼠足细胞中再现了这些效应。此外,在永生化足细胞中诱导的药理学 ER 应激升高或自噬减弱减轻了 sEH 抑制的保护作用。

结论

这些发现确立了 podocyte 中的 sEH 是高血糖下肾功能的重要贡献者。

一般意义

这些数据表明 sEH 是足细胞病变的潜在治疗靶点。

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