Abstract

Type III and IV Bartter syndromes (BS) are rare kidney tubulopathies caused by loss-of-function mutations in the CLCNKB and BSND genes coding respectively for the ClC-Kb chloride channels and accessory subunit barttin. ClC-K channels are expressed in the Henle’s loop, distal convoluted tubule, and cortical collecting ducts of the kidney and contribute to chloride absorption and urine concentration. In our Italian cohort, we identified two new mutations in CLCNKB, G167V and G289R, in children affected by BS and previously reported genetic variants, A242E, a chimeric gene and the deletion of the whole CLCNKB. All the patients had hypokalemia and metabolic alkalosis, increased serum renin and aldosterone levels and were treated with a symptomatic therapy. In order to define the molecular mechanisms responsible for BS, we co-expressed ClC-Kb wild type and channels with point mutations with barttin in HEK 293 cells and characterized chloride currents through the patch-clamp technique. In addition, we attempted to revert the functional defect caused by BS mutations through barttin overexpression. G167V and A242E channels showed a drastic current reduction compared to wild type, likely suggesting compromised expression of mutant channels at the plasma membrane. Conversely, G289R channel was similar to wild type raising the doubt that an additional mutation in another gene or other mechanisms could account for the clinical phenotype. Interestingly, increasing ClC-K/barttin ratio augmented G167V and A242E mutants’ chloride current amplitudes towards wild type levels. These results confirm a genotype-phenotype correlation in BS and represent a preliminary proof of concept that molecules functioning as molecular chaperones can restore channel function in expression-defective ClC-Kb mutants.

Highlights

  • Bartter’s syndromes (BS) are a group of kidney genetic tubulopathies characterized by salt and fluid loss, elevated prostaglandin E2 (PGE2) production, increased renin and aldosterone circulating levels, normal-to-low blood pressure and growth delay (Simon et al, 1997; Birkenhäger et al, 2001; Andrini et al, 2015; Seys et al, 2017; Fulchiero and Seo-Mayer, 2019)

  • In this study we provide the functional characterization of two novel ClC-Kb mutations associated with BS phenotypes in children, G167V and G289R, and demonstrate that the accessory subunit barttin can partially restore G167V and A242E channels function

  • Hypochloremia, hypokalemia, metabolic alkalosis, and growth retardation are the most common manifestations of type III BS observed in the G167V (Patient I) and A242E carriers (Patients II-III)

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Summary

Introduction

Bartter’s syndromes (BS) are a group of kidney genetic tubulopathies characterized by salt and fluid loss, elevated prostaglandin E2 (PGE2) production, increased renin and aldosterone circulating levels, normal-to-low blood pressure and growth delay (Simon et al, 1997; Birkenhäger et al, 2001; Andrini et al, 2015; Seys et al, 2017; Fulchiero and Seo-Mayer, 2019). ClC-Ks channels and barttin are expressed in Henle’s loop, distal convoluted tubule, and cortical collecting ducts of the kidney, where they contribute to sodium chloride reabsorption, urine concentration, and blood pressure maintenance (Estévez et al, 2001; Krämer et al, 2008; Fahlke and Fischer, 2010; Barrallo-Gimeno et al, 2015; Pinelli et al, 2016; Jentsch and Pusch, 2018). Type IV BS is a more severe variant with additional sensorineural hearing loss (Fulchiero and Seo-Mayer, 2019)

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