Tissue lipidomic profiling supports a mechanistic role of the prostaglandin E2 pathway for albuminuria development in glomerular hyperfiltration

Debora Kaiser-Graf, Angela Schulz, Eva Mangelsen, Michael Rothe, Juliane Bolbrinker, Reinhold Kreutz
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Abstract

Background: Glomerular hyperfiltration (GH) is an important mechanism in the development of albuminuria in hypertension. The Munich Wistar Frömter (MWF) rat is a non-diabetic model of chronic kidney disease (CKD) with GH due to inherited low nephron number resulting in spontaneous albuminuria and podocyte injury. In MWF rats, we identified prostaglandin (PG) E2 (PGE2) signaling as a potential causative mechanism of albuminuria in GH.Method: For evaluation of the renal PGE2 metabolic pathway, time-course lipidomic analysis of PGE2 and its downstream metabolites 15-keto-PGE2 and 13-14-dihydro-15-keto-PGE2 was conducted in urine, plasma and kidney tissues of MWF rats and albuminuria-resistant spontaneously hypertensive rats (SHR) by liquid chromatography electrospray ionization tandem mass spectrometry (LC/ESI-MS/MS).Results: Lipidomic analysis revealed no dysregulation of plasma PGs over the time course of albuminuria development, while glomerular levels of PGE2 and 15-keto-PGE2 were significantly elevated in MWF compared to albuminuria-resistant SHR. Overall, averaged PGE2 levels in glomeruli were up to ×150 higher than the corresponding 15-keto-PGE2 levels. Glomerular metabolic ratios of 15-hydroxyprostaglandin dehydrogenase (15-PGDH) were significantly lower, while metabolic ratios of prostaglandin reductases (PTGRs) were significantly higher in MWF rats with manifested albuminuria compared to SHR, respectively.Conclusion: Our data reveal glomerular dysregulation of the PGE2 metabolism in the development of albuminuria in GH, resulting at least partly from reduced PGE2 degradation. This study provides first insights into dynamic changes of the PGE2 pathway that support a role of glomerular PGE2 metabolism and signaling for early albuminuria manifestation in GH.
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组织脂质体分析支持前列腺素 E2 通路在肾小球高滤过性白蛋白尿形成中的机理作用
背景:肾小球高滤过(GH)是高血压患者白蛋白尿发生的重要机制。慕尼黑Wistar Frömter(MWF)大鼠是一种非糖尿病慢性肾病(CKD)模型,由于遗传性肾小球数量少导致自发性白蛋白尿和荚膜细胞损伤,因而患有GH。在 MWF 大鼠中,我们发现前列腺素(PG)E2(PGE2)信号传导是 GH 白蛋白尿的潜在致病机制:为了评估肾脏 PGE2 代谢途径,我们采用液相色谱电喷雾串联质谱法(LC/ESI-MS/MS)对 MWF 大鼠和白蛋白尿耐药自发性高血压大鼠(SHR)的尿液、血浆和肾组织中的 PGE2 及其下游代谢产物 15-酮-PGE2 和 13-14 二氢-15-酮-PGE2 进行了时程脂质体分析:结果:脂质组分析表明,血浆 PGs 在白蛋白尿发展过程中未出现失调,而与白蛋白尿耐药 SHR 相比,MWF 肾小球中的 PGE2 和 15-keto-PGE2 水平显著升高。总体而言,肾小球中PGE2的平均水平比相应的15-酮-PGE2水平高出150倍。与 SHR 相比,表现出白蛋白尿的 MWF 大鼠肾小球中 15-羟基前列腺素脱氢酶(15-PGDH)的代谢比率明显较低,而前列腺素还原酶(PTGRs)的代谢比率则明显较高:我们的数据揭示了在 GH 白蛋白尿的发生过程中肾小球 PGE2 代谢失调,至少部分原因是 PGE2 降解减少。这项研究首次揭示了 PGE2 通路的动态变化,支持肾小球 PGE2 代谢和信号在 GH 早期白蛋白尿表现中的作用。
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