SLC6A18 转运体很可能是一种 Na 依赖性甘氨酸/尿素反转运体,负责近端直管的尿素分泌。尿素分泌对 GFR 的影响。

IF 2.3 4区 医学 Q2 UROLOGY & NEPHROLOGY
Nephron Pub Date : 2024-05-31 DOI:10.1159/000539602
Lise Bankir, Gilles Crambert, Rosa Vargas-Poussou
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引用次数: 0

摘要

尿素是哺乳动物蛋白质代谢的主要终产物。肉食动物和杂食动物每天都会通过尿液排出大量尿素,其浓度是血浆浓度的 30 到 100 倍(啮齿动物的尿素浓度更高)。为了节约用水,这种浓缩活动非常重要。目前已经发现了几种促进跨膜尿素转运体,它们在尿浓缩机制中的调节和作用也有详细记载。然而,人们很少关注能量依赖性尿素转运的存在。在哺乳动物肾脏中,至少有三个转运体(一个在近端肾小管,两个在集合管)已被功能性描述,但没有一个转运体已被分子鉴定。本综述首先提出了尿素分泌依赖于能量的功能证据,这种分泌只发生在近端肾小管的直管旁(近端直管,PST)。这包括尿素的高比例排泄,以及尿素大量进入 "亨勒回路 "的证据。顺铂是一种已知会对 PST 细胞造成极具选择性损伤的药物,在对大鼠进行顺铂治疗后,尿素的增加会消失。在离体 PST 中直接测量尿素转运的结果以及家族性氮质血症的描述也支持这种尿素分泌,家族性氮质血症是一种遗传异常,可能是由于向肾小管分泌尿素的活性或次级活性转运体功能丧失所致。其次,本综述提出了一个负责 PST 中尿素分泌的候选跨膜转运体。SLC6A18 只在 PST 中表达,由于 SLC6A18 基因敲除小鼠尿液中甘氨酸大量丢失,因此被认定为甘氨酸转运体。我们认为它实际上是一种甘氨酸/尿素反转运体,将尿素分泌到管腔中以交换甘氨酸和 Na。甘氨酸很可能通过位于刷状缘的转运体循环回细胞。本文介绍并讨论了支持这一假设的几项实验观察结果。尿素的分泌有助于尿素在内侧髓质中积聚,从而更有效地在集合管中重吸收水分。它还能降低摄入蛋白质后血浆尿素浓度的升高。尽管尿素是所有氮终产物中毒性最小的一种,但它也有很大的毒性作用,主要是由于蛋白质的氨甲酰化,这种化学反应会大大降低这些蛋白质的功能,就像糖尿病患者的糖基化反应一样。通过改变粗升支肾小管液体的成分,PST 中尿素的分泌间接影响了黄斑部的 "信号",而黄斑部的信号在肾小管-肾小球反馈调节 GFR 的过程中起着至关重要的作用。考虑到哺乳动物肾脏中尿素的二次主动分泌,我们就能对蛋白质摄入对肾小球滤过率的影响、尿素排泄的调节以及尿液浓缩机制有一个新的认识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The SLC6A18 Transporter Is Most Likely a Na-Dependent Glycine/Urea Antiporter Responsible for Urea Secretion in the Proximal Straight Tubule: Influence of This Urea Secretion on Glomerular Filtration Rate.

Background: Urea is the major end-product of protein metabolism in mammals. In carnivores and omnivores, a large load of urea is excreted daily in urine, with a concentration that is 30-100 times above that in plasma. This is important for the sake of water economy. Too little attention has been given to the existence of energy-dependent urea transport that plays an important role in this concentrating activity.

Summary: This review first presents functional evidence for an energy-dependent urea secretion that occurs exclusively in the straight part of the proximal tubule (PST). Second, it proposes a candidate transmembrane transporter responsible for this urea secretion in the PST. SLC6A18 is expressed exclusively in the PST and has been identified as a glycine transporter, based on findings in SLC6A18 knockout mice. We propose that it is actually a glycine/urea antiport, secreting urea into the lumen in exchange for glycine and Na. Glycine is most likely recycled back into the cell via a transporter located in the brush border. Urea secretion in the PST modifies the composition of the tubular fluid in the thick ascending limb and, thus, contributes, indirectly, to influence the "signal" at the macula densa that plays a crucial role in the regulation of the glomerular filtration rate (GFR) by the tubulo-glomerular feedback.

Key messages: Taking into account this secondary active secretion of urea in the mammalian kidney provides a new understanding of the influence of protein intake on GFR, of the regulation of urea excretion, and of the urine-concentrating mechanism.

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来源期刊
Nephron
Nephron UROLOGY & NEPHROLOGY-
CiteScore
5.00
自引率
0.00%
发文量
80
期刊介绍: ''Nephron'' comprises three sections, which are each under the editorship of internationally recognized leaders and served by specialized Associate Editors. Apart from high-quality original research, ''Nephron'' publishes invited reviews/minireviews on up-to-date topics. Papers undergo an innovative and transparent peer review process encompassing a Presentation Report which assesses and summarizes the presentation of the paper in an unbiased and standardized way.
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