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一个具有显性肾素基因突变的家族的临床和分子特征以及对氟氢可的松治疗的反应

Clinical and molecular characterization of a family with a dominant renin gene mutation and response to treatment with fludrocortisone.

作者信息

Bleyer A J, Zivná M, Hulková H, Hodanová K, Vyletal P, Sikora J, Zivný J, Sovová J, Hart T C, Adams J N, Elleder M, Kapp K, Haws R, Cornell L D, Kmoch S, Hart P S

机构信息

Section on Nephrology, Wake Forest University School of Medicine, Winston- Salem, NC 27157, USA.

出版信息

Clin Nephrol. 2010 Dec;74(6):411-22. doi: 10.5414/cnp74411.

DOI:10.5414/cnp74411
PMID:21084044
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4264543/
Abstract

BACKGROUND

A family was identified with autosomal dominant inheritance of anemia, polyuria, hyperuricemia, and chronic kidney disease. Mutational analysis revealed a novel heterozygous mutation c.58T > C resulting in the amino acid substitution of cysteine for arginine in the preprorenin signal sequence (p.cys20Arg) occurring in all affected members.

METHODS

Effects of the identified mutation were characterized using in vitro and in vivo studies. Affected individuals were clinically characterized before and after administration of fludrocortisone.

RESULTS

The mutation affects endoplasmic reticulum co-translational translocation and posttranslational processing, resulting in massive accumulation of non-glycosylated preprorenin in the cytoplasm. This affects expression of intra-renal RAS components and leads to ultrastructural damage of the kidney. Affected individuals suffered from anemia, hyperuricemia, decreased urinary concentrating ability, and progressive chronic kidney disease. Treatment with fludrocortisone in an affected 10-year-old child resulted in an increase in blood pressure and estimated glomerular filtration rate.

CONCLUSIONS

A novel REN gene mutation resulted in an alteration in the amino acid sequence of the renin signal sequence and caused childhood anemia, polyuria, and kidney disease. Treatment with fludrocortisone improved renal function in an affected child. Nephrologists should consider REN mutational analysis in families with autosomal dominant inheritance of chronic kidney disease, especially if they suffer from anemia, hyperuricemia, and polyuria in childhood.

摘要

背景

发现一个家族存在贫血、多尿、高尿酸血症和慢性肾脏病的常染色体显性遗传。突变分析显示,所有患病成员均存在一种新的杂合突变c.58T>C,导致前肾素信号序列中精氨酸被半胱氨酸取代(p.cys20Arg)。

方法

通过体外和体内研究对所发现突变的影响进行特征分析。对受影响个体在服用氟氢可的松前后进行临床特征分析。

结果

该突变影响内质网共翻译转运和翻译后加工,导致未糖基化的前肾素在细胞质中大量蓄积。这影响肾内肾素-血管紧张素系统(RAS)成分的表达,并导致肾脏超微结构损伤。受影响个体患有贫血、高尿酸血症、尿浓缩能力下降和进行性慢性肾脏病。对一名10岁患病儿童使用氟氢可的松治疗后,血压和估计肾小球滤过率升高。

结论

一种新的肾素(REN)基因突变导致肾素信号序列氨基酸序列改变,引起儿童期贫血、多尿和肾脏疾病。氟氢可的松治疗改善了一名患病儿童的肾功能。肾病学家应考虑对常染色体显性遗传慢性肾脏病家族进行REN突变分析,尤其是那些在儿童期患有贫血、高尿酸血症和多尿的家族。

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Dominant renin gene mutations associated with early-onset hyperuricemia, anemia, and chronic kidney failure.与早发性高尿酸血症、贫血和慢性肾衰竭相关的显性肾素基因突变。
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