Mina Shirazi, Cosimo Cianfarini, Ahmed Ismail, Jan Wysocki, Jiao-Jing Wang, Minghao Ye, Zheng Jenny Zhang, Daniel Batlle
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In kidneys harvested 48 h after IRI, immunostaining revealed a striking maldistribution of ACE2 including spillage into the tubular lumen and the presence of ACE2-positive luminal casts in the medulla. In cortical membranes, ACE2 protein and enzymatic activity were both markedly reduced (37 ± 4 vs. 100 ± 6 ACE2/β-actin, <i>P</i> = 0.0004, and 96 ± 14 vs. 152 ± 6 RFU/μg protein/h, <i>P</i> = 0.006). In urine, full-length membrane-bound ACE2 protein (100 kDa) was markedly increased (1,120 ± 405 vs. 100 ± 46 ACE2/µg creatinine, <i>P</i> = 0.04), and casts stained for ACE2 were recovered in the urine sediment. In conclusion, in AKI caused by IRI, there is a marked loss of ACE2 from the apical tubular border with deposition of ACE2-positive material in the medulla and increased urinary excretion of full-length membrane-bound ACE2 protein. The deficiency of tubular ACE2 in AKI suggests that provision of this enzyme could have therapeutic applications and that its excretion in the urine may also serve as a diagnostic marker of severe proximal tubular injury.<b>NEW & NOTEWORTHY</b> This study provides novel insights into the distribution of kidney ACE2 in a model of AKI by IRI showing a striking detachment of apical ACE2 from proximal tubules and its loss in urine and urine sediment. The observed deficiency of kidney ACE2 protein and enzymatic activity in severe AKI suggests that administration of forms of this enzyme may mitigate AKI and that urinary ACE2 may serve as a potential biomarker for tubular injury.</p>","PeriodicalId":93867,"journal":{"name":"American journal of physiology. 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Ischemia-reperfusion injury (IRI) was induced in C57BL/6 mice by clamping of the left renal artery followed by removal of the right kidney. In kidneys harvested 48 h after IRI, immunostaining revealed a striking maldistribution of ACE2 including spillage into the tubular lumen and the presence of ACE2-positive luminal casts in the medulla. In cortical membranes, ACE2 protein and enzymatic activity were both markedly reduced (37 ± 4 vs. 100 ± 6 ACE2/β-actin, <i>P</i> = 0.0004, and 96 ± 14 vs. 152 ± 6 RFU/μg protein/h, <i>P</i> = 0.006). In urine, full-length membrane-bound ACE2 protein (100 kDa) was markedly increased (1,120 ± 405 vs. 100 ± 46 ACE2/µg creatinine, <i>P</i> = 0.04), and casts stained for ACE2 were recovered in the urine sediment. In conclusion, in AKI caused by IRI, there is a marked loss of ACE2 from the apical tubular border with deposition of ACE2-positive material in the medulla and increased urinary excretion of full-length membrane-bound ACE2 protein. 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引用次数: 0
摘要
急性肾损伤(AKI)的病理生理机制多种多样。其中,肾素血管紧张素系统(RAS)的过度活动已被描述。血管紧张素转换酶 2(ACE2)是一种在近端肾小管顶端边界表达的组织 RAS 酶。鉴于 ACE2 在血管紧张素 II 代谢中的重要作用,本研究旨在描述 AKI 小鼠模型中肾脏和尿液 ACE2 的特征。通过夹闭左肾动脉并切除右肾,诱导 C57BL/6 小鼠缺血再灌注损伤(IRI)。在IRI 48小时后摘取的肾脏中,免疫染色显示ACE2明显分布不良,包括溢入肾小管管腔和在髓质中出现ACE2阳性管腔铸型。皮质膜中的 ACE2 蛋白和酶活性都明显降低(37±4 对 100±6 ACE2/ß-Actin,P=0.0004;96±14 对 152±6 RFU/μg 蛋白/h,P=0.006)。在尿液中,全长膜结合 ACE2 蛋白(100kD)明显增加(1120±405 vs. 100±46 ACE2/µg Crea,P=0.04),尿沉渣中发现了 ACE2 染色的铸型。在由 IRI 引起的 AKI 中,ACE2 从肾小管顶端边界明显丢失,ACE2 阳性物质沉积在髓质中,全长膜结合 ACE2 蛋白的尿排泄增加。肾小管 ACE2 在 AKI 中的缺乏表明,提供这种酶可能有治疗用途,它在尿液中的排泄也可作为近端肾小管严重损伤的诊断标志。
Altered kidney distribution and loss of ACE2 into the urine in acute kidney injury.
There are diverse pathophysiological mechanisms involved in acute kidney injury (AKI). Among them, overactivity of the renin-angiotensin system (RAS) has been described. Angiotensin-converting enzyme 2 (ACE2) is a tissue RAS enzyme expressed in the apical border of proximal tubules. Given the important role of ACE2 in the metabolism of angiotensin II, this study aimed to characterize kidney and urinary ACE2 in a mouse model of AKI. Ischemia-reperfusion injury (IRI) was induced in C57BL/6 mice by clamping of the left renal artery followed by removal of the right kidney. In kidneys harvested 48 h after IRI, immunostaining revealed a striking maldistribution of ACE2 including spillage into the tubular lumen and the presence of ACE2-positive luminal casts in the medulla. In cortical membranes, ACE2 protein and enzymatic activity were both markedly reduced (37 ± 4 vs. 100 ± 6 ACE2/β-actin, P = 0.0004, and 96 ± 14 vs. 152 ± 6 RFU/μg protein/h, P = 0.006). In urine, full-length membrane-bound ACE2 protein (100 kDa) was markedly increased (1,120 ± 405 vs. 100 ± 46 ACE2/µg creatinine, P = 0.04), and casts stained for ACE2 were recovered in the urine sediment. In conclusion, in AKI caused by IRI, there is a marked loss of ACE2 from the apical tubular border with deposition of ACE2-positive material in the medulla and increased urinary excretion of full-length membrane-bound ACE2 protein. The deficiency of tubular ACE2 in AKI suggests that provision of this enzyme could have therapeutic applications and that its excretion in the urine may also serve as a diagnostic marker of severe proximal tubular injury.NEW & NOTEWORTHY This study provides novel insights into the distribution of kidney ACE2 in a model of AKI by IRI showing a striking detachment of apical ACE2 from proximal tubules and its loss in urine and urine sediment. The observed deficiency of kidney ACE2 protein and enzymatic activity in severe AKI suggests that administration of forms of this enzyme may mitigate AKI and that urinary ACE2 may serve as a potential biomarker for tubular injury.
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