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肾磷酸盐转运的最新进展。

Updates on renal phosphate transport.

作者信息

Wagner Carsten Alexande, Egli-Spichtig Daniela, Rubio-Aliaga Isabel

机构信息

Institute of Physiology and Zurich Kidney Center, University of Zurich, Zurich, Switzerland.

出版信息

Curr Opin Nephrol Hypertens. 2025 Jul 1;34(4):269-275. doi: 10.1097/MNH.0000000000001090. Epub 2025 May 13.

DOI:10.1097/MNH.0000000000001090
PMID:40357590
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12144537/
Abstract

PURPOSE OF REVIEW

The kidneys control systemic phosphate balance by regulating phosphate transporters mediating the reabsorption of inorganic phosphate (Pi). At least three different Na + -driven Pi cotransporters are located in the brush border membrane (BBM) of proximal tubule cells, NaPi-IIa (SLC34A1), NaPi-IIc (SLC34A3) and PiT-2 (SLC20A2). This review will discuss novel aspects of their regulation, pharmacology, and genetics.

RECENT FINDINGS

Renal NaPi transporters are not only acutely regulated by the phosphaturic hormones parathyroid hormone (PTH) and Fibroblast Growth Factor 23 (FGF23) but possibly also by further mechanisms. A role of inositol hexakisphosphate (IP6) kinases has been found and their deletion from kidneys causes hypophosphatemia, hyperphosphaturia, and bone demineralization. Inhibitors of NaPis elicit phosphaturia and may reduce levels of PTH and FGF23 in chronic kidney disease (CKD) models. The relevance of renal NaPi transporters is highlighted by loss-of-function mutations in SLC34 transporters and analysis of patients provides new insights into diseases caused by variants. Major manifestations include nephrocalcinosis and -lithiasis, rickets, and variants may predispose to an accelerated decline in kidney function.

SUMMARY

Renal Pi transporters are regulated, may provide novel drug targets for prevention or treatment of hyperphosphatemia, and contribute to the genetic risk to develop kidney stones and CKD.

摘要

综述目的

肾脏通过调节介导无机磷酸盐(Pi)重吸收的磷酸盐转运体来控制全身磷酸盐平衡。至少三种不同的钠依赖性Pi共转运体位于近端小管细胞的刷状缘膜(BBM)中,即NaPi-IIa(SLC34A1)、NaPi-IIc(SLC34A3)和PiT-2(SLC20A2)。本综述将讨论它们在调节、药理学和遗传学方面的新进展。

最新发现

肾脏NaPi转运体不仅受到排磷激素甲状旁腺激素(PTH)和成纤维细胞生长因子23(FGF23)的急性调节,还可能受到其他机制的调节。已发现肌醇六磷酸(IP6)激酶的作用,其在肾脏中的缺失会导致低磷血症、高磷尿症和骨质脱矿。NaPi抑制剂可引起尿磷增多,并可能降低慢性肾脏病(CKD)模型中PTH和FGF23的水平。SLC34转运体的功能丧失突变突出了肾脏NaPi转运体的相关性,对患者的分析为变异导致的疾病提供了新见解。主要表现包括肾钙质沉着症和肾结石、佝偻病,变异可能易导致肾功能加速下降。

总结

肾脏Pi转运体受到调节,可能为预防或治疗高磷血症提供新的药物靶点,并增加患肾结石和CKD的遗传风险。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/054c/12144537/43ba977ff771/conhy-34-269-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/054c/12144537/cdf477e2b130/conhy-34-269-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/054c/12144537/63934b4024ab/conhy-34-269-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/054c/12144537/43ba977ff771/conhy-34-269-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/054c/12144537/cdf477e2b130/conhy-34-269-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/054c/12144537/63934b4024ab/conhy-34-269-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/054c/12144537/43ba977ff771/conhy-34-269-g003.jpg

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本文引用的文献

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2
Controlled dietary phosphate loading in healthy young men elevates plasma phosphate and FGF23 levels.对健康年轻男性进行饮食中磷酸盐的控制性负荷会提高血浆磷酸盐和FGF23水平。
Pflugers Arch. 2025 Mar;477(3):495-508. doi: 10.1007/s00424-024-03046-4. Epub 2024 Nov 27.
3
Presentation and outcome in carriers of pathogenic variants in SLC34A1 and SLC34A3 encoding sodium-phosphate transporter NPT 2a and 2c.
编码钠磷转运体NPT 2a和2c的SLC34A1和SLC34A3致病变异携带者的临床表现及转归
Kidney Int. 2025 Jan;107(1):116-129. doi: 10.1016/j.kint.2024.08.035. Epub 2024 Oct 24.
4
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Am J Physiol Renal Physiol. 2024 May 1;326(5):F792-F801. doi: 10.1152/ajprenal.00009.2024. Epub 2024 Mar 28.
5
A novel mouse model for familial hypocalciuric hypercalcemia (FHH1) reveals PTH-dependent and independent CaSR defects.一种用于家族性低钙血症性高钙血症(FHH1)的新型小鼠模型揭示了甲状旁腺激素依赖性和非依赖性的钙敏感受体缺陷。
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