Genetic and clinical characterization of familial renal glucosuria

NDT Plus Pub Date : 2023-10-17 DOI:10.1093/ckj/sfad265
Lubin Xu, Ruohuan Zhao, Yumo Zhao, Xueqing Tang, Nuo Si, Xiuzhi Guo, Cai Yue, Min Nie, Limeng Chen
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Abstract

Abstract Background Familial renal glucosuria (FRG) is a hereditary disorder caused by variants in SLC5A2, encoding sodium-glucose cotransporter 2 (SGLT2). In this study, we aimed to characterize proximal tubule solute transport, glucagon secretion, and genotype-phenotype relationship in FRG patients. Methods We sequenced SLC5A2 and PDZK1IP1 in 21 FRG patients and measured the renal threshold of glucose (RTG) in 15 patients. We built an open-source online calculator of RTG, evaluated the proximal tubule transport of amino acid, uric acid, and phosphate, and explored glucagon secretion after glucose ingestion in FRG patients. Results We identified 12 novel SLC5A2 variants (G484D, R564W, A212S, c.574 + 1G > C, W649*, S592Cfs*6, Q579*, Y339*, V39F, G491E, A464E, and G360D) in our cohort and yielded 111 SLC5A2 variants from literature review. RTG in our cohort ranged from 1.0 to 9.2 mmol/L. Patients with two SLC5A2 variants had lower RTG (3.9 vs. 6.2 mmol/L) and higher 24-hour urinary glucose excretion (24hUG) than single-variant carriers (291.0 vs. 40.01 mmol/1.73m2). Patients with homozygous missense or in-frame indels had mean 24hUG of 457.2 mmol/1.73m2, comparable to those with homozygous truncating variants (445.0 mmol/1.73m2) and significantly more than those with homozygous splicing variants (196.6 mmol/1.73m2). Patients with homozygous missense variants involving conservative residues (582.0 mmol/1.73m2) had more 24hUG than those with variants at non-conservative residues (257.6 mmol/1.73m2). Four out of 14 tested patients had mild aminoaciduria. The RTG of FRG patients had no significant correlation to phosphate reabsorption but a potential negative correlation to the fractional excretion of uric acid. Postprandial suppression of glucagon secretion was absent in most FRG patients. Conclusions We built a comprehensive map showing the impact of SLC5A2 variant type and variant location on glucosuria severity. Our results highlighted the role of key residues in maintaining the transport function of SGLT2 and the functional link between glucosuria and reabsorption of amino acid and uric acid in FRG patients.
家族性肾性糖尿症的遗传与临床特征
家族性肾性糖尿症(FRG)是一种由编码钠-葡萄糖共转运蛋白2 (SGLT2)的SLC5A2变异引起的遗传性疾病。在这项研究中,我们的目的是表征近端小管溶质转运、胰高血糖素分泌和基因型-表型在FRG患者中的关系。方法对21例FRG患者的SLC5A2和PDZK1IP1进行测序,并对15例FRG患者的肾糖阈值(RTG)进行测定。我们建立了一个开源的RTG在线计算器,评估了FRG患者近端小管中氨基酸、尿酸和磷酸盐的运输,并探讨了葡萄糖摄入后FRG患者胰高血糖素的分泌情况。结果共鉴定出12个SLC5A2新变异(G484D、R564W、A212S、c.574 + 1G;C, W649*, S592Cfs*6, Q579*, Y339*, V39F, G491E, A464E和G360D),从文献综述中获得111个SLC5A2变异。我们队列中的RTG范围为1.0至9.2 mmol/L。两种SLC5A2变异的患者RTG较低(3.9 vs. 6.2 mmol/L), 24小时尿糖排泄量(24hUG)高于单变异携带者(291.0 vs. 40.01 mmol/1.73m2)。纯合型错义或框内型患者的平均24hUG为457.2 mmol/1.73m2,与纯合型截断型(445.0 mmol/1.73m2)相当,显著高于纯合型剪接型(196.6 mmol/1.73m2)。含有保守残基的纯合错义变异(582.0 mmol/1.73m2)患者比含有非保守残基变异(257.6 mmol/1.73m2)的患者有更多的24hUG。14名患者中有4名患有轻度氨基酸性尿症。FRG患者的RTG与磷酸重吸收无显著相关性,但与尿酸的部分排泄有潜在的负相关。餐后胰高血糖素分泌抑制在大多数FRG患者中不存在。我们建立了一个全面的地图,显示SLC5A2变异类型和变异位置对血糖严重程度的影响。我们的研究结果强调了关键残基在维持SGLT2转运功能中的作用,以及FRG患者血糖与氨基酸和尿酸重吸收之间的功能联系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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