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氯化钠协同转运蛋白 SLC12A3:在钠、钾和血压调节中的新作用。

The sodium chloride cotransporter SLC12A3: new roles in sodium, potassium, and blood pressure regulation.

机构信息

Department of Internal Medicine, Erasmus Medical Center, PO Box 2040, Room H-438, 3000 CA, Rotterdam, The Netherlands.

出版信息

Pflugers Arch. 2014 Jan;466(1):107-18. doi: 10.1007/s00424-013-1407-9. Epub 2013 Dec 6.

DOI:10.1007/s00424-013-1407-9
PMID:24310820
Abstract

SLC12A3 encodes the thiazide-sensitive sodium chloride cotransporter (NCC), which is primarily expressed in the kidney, but also in intestine and bone. In the kidney, NCC is located in the apical plasma membrane of epithelial cells in the distal convoluted tubule. Although NCC reabsorbs only 5 to 10% of filtered sodium, it is important for the fine-tuning of renal sodium excretion in response to various hormonal and non-hormonal stimuli. Several new roles for NCC in the regulation of sodium, potassium, and blood pressure have been unraveled recently. For example, the recent discoveries that NCC is activated by angiotensin II but inhibited by dietary potassium shed light on how the kidney handles sodium during hypovolemia (high angiotensin II) and hyperkalemia. The additive effect of angiotensin II and aldosterone maximizes sodium reabsorption during hypovolemia, whereas the inhibitory effect of potassium on NCC increases delivery of sodium to the potassium-secreting portion of the nephron. In addition, great steps have been made in unraveling the molecular machinery that controls NCC. This complex network consists of kinases and ubiquitinases, including WNKs, SGK1, SPAK, Nedd4-2, Cullin-3, and Kelch-like 3. The pathophysiological significance of this network is illustrated by the fact that modification of each individual protein in the network changes NCC activity and results in salt-dependent hypotension or hypertension. This review aims to summarize these new insights in an integrated manner while identifying unanswered questions.

摘要

SLC12A3 编码噻嗪类敏感的钠氯共转运蛋白(NCC),主要在肾脏表达,但也在肠道和骨骼中表达。在肾脏中,NCC 位于远曲小管上皮细胞的顶膜。尽管 NCC 仅重吸收滤过的钠的 5-10%,但它对于各种激素和非激素刺激下肾脏钠排泄的精细调节很重要。最近发现 NCC 在钠、钾和血压的调节中具有一些新的作用。例如,最近的发现表明,血管紧张素 II 激活 NCC,而膳食钾抑制 NCC,这揭示了肾脏在低血容量(高血管紧张素 II)和高钾血症期间如何处理钠。血管紧张素 II 和醛固酮的协同作用在低血容量时最大限度地促进钠重吸收,而钾对 NCC 的抑制作用增加了钠向肾单位的钾分泌部分的输送。此外,在阐明控制 NCC 的分子机制方面已经取得了重大进展。这个复杂的网络包括激酶和泛素酶,包括 WNKs、SGK1、SPAK、Nedd4-2、Cullin-3 和 Kelch-like 3。该网络中每个单个蛋白的修饰改变 NCC 活性并导致盐依赖性低血压或高血压,这一事实说明了该网络的病理生理学意义。本综述旨在综合总结这些新的见解,同时确定未解决的问题。

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本文引用的文献

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在水盐平衡调控中,Na-Cl 共转运体是一种高度调控的关键效应因子,其具有多方面的复杂特性。
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Na/Cl cotransporter 2 is not fish-specific and is widely found in amphibians, non-avian reptiles, and select mammals.钠/氯共转运蛋白 2 并非鱼类特有,广泛存在于两栖动物、非鸟类爬行动物和部分哺乳动物中。
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Cryo-EM structure of the human sodium-chloride cotransporter NCC.人氯化钠协同转运蛋白NCC的冷冻电镜结构
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Disease-causing mutations in KLHL3 impair its effect on WNK4 degradation.KLHL3 中的致病突变会损害其对 WNK4 降解的影响。
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The CUL3-KLHL3 E3 ligase complex mutated in Gordon's hypertension syndrome interacts with and ubiquitylates WNK isoforms: disease-causing mutations in KLHL3 and WNK4 disrupt interaction.CUL3-KLHL3 E3 连接酶复合物在 Gordon 高血压综合征中发生突变,与 WNK 同工型相互作用并泛素化:KLHL3 和 WNK4 的致病突变破坏相互作用。
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