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管腔碱化减轻蛋白尿诱导的近端肾小管细胞氧化损伤。

Luminal alkalinization attenuates proteinuria-induced oxidative damage in proximal tubular cells.

机构信息

Division of Nephrology, Endocrinology, and Vascular Medicine, Department of Medicine, Tohoku University Graduate School of Medicine, Sendai 980-8575, Japan.

出版信息

J Am Soc Nephrol. 2011 Apr;22(4):635-48. doi: 10.1681/ASN.2009111130. Epub 2011 Mar 3.

DOI:10.1681/ASN.2009111130
PMID:21372211
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3065220/
Abstract

A highly acidic environment surrounds proximal tubular cells as a result of their reabsorption of HCO(3)(-). It is unclear whether this luminal acidity affects proteinuria-induced progression of tubular cell damage. Here, we investigated the contribution of luminal acidity to superoxide (O(2)(·-)) production induced by oleic acid-bound albumin (OA-Alb) in proximal tubular cells. Acidic media significantly enhanced OA-Alb-induced O(2)(·-) production in the HK-2 proximal tubular cell line. Simultaneous treatment with both OA-Alb and acidic media led to phosphorylation of the intracellular pH sensor Pyk2. Highly phosphorylated Pyk2 associated with activation of Rac1, an essential subcomponent of NAD(P)H oxidase. Furthermore, knockdown of Pyk2 with siRNA attenuated the O(2)(·-) production induced by cotreatment with OA-Alb and acid. To assess whether luminal alkalinization abrogates proteinuria-induced tubular damage, we studied a mouse model of protein-overload nephropathy. NaHCO(3) feeding selectively alkalinized the urine and dramatically attenuated the accumulation of O(2)(·-)-induced DNA damage and proximal tubular injury. Overall, these observations suggest that luminal acidity aggravates proteinuria-induced tubular damage and that modulation of this acidic environment may hold potential as a therapeutic target for proteinuric kidney disease.

摘要

由于近端肾小管细胞重吸收 HCO(3)(-),其周围环境呈高度酸性。目前尚不清楚这种管腔酸度是否会影响蛋白尿诱导的肾小管损伤进展。在这里,我们研究了管腔酸度对油酸结合白蛋白(OA-Alb)诱导的近端肾小管细胞中超氧阴离子(O(2)(·-))产生的影响。酸性介质显著增强了 HK-2 近端肾小管细胞系中 OA-Alb 诱导的 O(2)(·-)产生。同时用 OA-Alb 和酸性介质处理会导致细胞内 pH 传感器 Pyk2 磷酸化。高度磷酸化的 Pyk2 与 NAD(P)H 氧化酶的必需亚基 Rac1 的激活有关。此外,用 siRNA 敲低 Pyk2 可减弱 OA-Alb 和酸共同处理诱导的 O(2)(·-)产生。为了评估管腔碱化是否可以消除蛋白尿诱导的肾小管损伤,我们研究了一种蛋白过载肾病的小鼠模型。碳酸氢钠(NaHCO(3))喂养可选择性地使尿液碱化,并显著减弱 O(2)(·-)诱导的 DNA 损伤和近端肾小管损伤的积累。总体而言,这些观察结果表明,管腔酸度会加重蛋白尿诱导的肾小管损伤,而这种酸性环境的调节可能是治疗蛋白尿性肾病的潜在靶点。

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