Nikola Jeck scite author profile

Intensified blood-pressure control, with target 24-hour blood-pressure levels in the low range of normal, confers a substantial benefit with respect to renal function among children with chronic kidney disease. Reappearance of proteinuria after initial successful pharmacologic blood-pressure control is common among children who are receiving long-term ACE inhibition. (ClinicalTrials.gov number, NCT00221845.)

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Clinical presentation of genetically defined patients with hypokalemic salt-losing tubulopathies

Peters

Jeck

Reinalter

et al. 2002

The American Journal of Medicine

243

196

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Barttin increases surface expression and changes current properties of ClC-K channels

Waldegger

Jeck

Barth

et al. 2002

Pflügers Arch - Eur J Physiol

159

181

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The term Bartter syndrome encompasses a heterogeneous group of autosomal recessive salt-losing nephropathies that are caused by disturbed transepithelial sodium chloride reabsorption in the distal nephron. Mutations have been identified in the NKCC2 (Na(+)-K(+)-2Cl(-)) cotransporter and ROMK potassium channel, which cooperate in the process of apical sodium chloride uptake, and ClC-Kb chloride channels, which mediate basolateral chloride release. Recently, mutations in barttin, a protein not related to any known ion transporter or channel, were described in BSND, a variant of Bartter syndrome associated with sensorineural deafness. Here we show that barttin functions as an activator of ClC-K chloride channels. Expression of barttin together with ClC-K in Xenopus oocytes increased ClC-K current amplitude, changed ClC-K biophysical properties, and enhanced ClC-K abundance in the cell membrane. Co-immunoprecipitation revealed a direct interaction of barttin with ClC-K. We performed in situ hybridization on rat kidney slices and RT-PCR analysis on microdissected nephron segments to prove co-expression of barttin, ClC-K1 and ClC-K2 along the distal nephron. Functional analysis of BSND-associated point mutations revealed impaired ClC-K activation by barttin. The results demonstrate regulation of a CLC chloride channel by an accessory protein and indicate that ClC-K activation by barttin is required for adequate tubular salt reabsorption.

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pH gating of ROMK (K _ir 1.1) channels: Control by an Arg-Lys-Arg triad disrupted in antenatal Bartter syndrome

Schulte

Hahn²,

Konrad³

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

139

169

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Inward-rectifier K ؉ channels of the ROMK (Kir1.1) subtype are responsible for K ؉ secretion and control of NaCl absorption in the kidney. A hallmark of these channels is their gating by intracellular pH in the neutral range. Here we show that a lysine residue close to TM1, identified previously as a structural element required for pH-induced gating, is protonated at neutral pH and that this protonation drives pH gating in ROMK and other K ir channels. Such anomalous titration of this lysine residue (Lys-80 in K ir1.1) is accomplished by the tertiary structure of the Kir protein: two arginines in the distant N and C termini of the same subunit (Arg-41 and Arg-311 in K ir1.1) are located in close spatial proximity to the lysine allowing for electrostatic interactions that shift its pK a into the neutral pH range. Structural disturbance of this triad as a result from a number of point mutations found in patients with antenatal Bartter syndrome shifts the pK a of the lysine residue off the neutral pH range and results in channels permanently inactivated under physiological conditions. Thus, the results provide molecular understanding for normal pH gating of K ir channels as well as for the channel defects found in patients with antenatal Bartter syndrome.

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Salt Wasting and Deafness Resulting from Mutations in Two Chloride Channels

et al. 2004

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Nikola Jeck

Strict Blood-Pressure Control and Progression of Renal Failure in Children

Clinical presentation of genetically defined patients with hypokalemic salt-losing tubulopathies

Barttin increases surface expression and changes current properties of ClC-K channels

pH gating of ROMK (K _ir 1.1) channels: Control by an Arg-Lys-Arg triad disrupted in antenatal Bartter syndrome

Salt Wasting and Deafness Resulting from Mutations in Two Chloride Channels

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Nikola Jeck

Strict Blood-Pressure Control and Progression of Renal Failure in Children

Clinical presentation of genetically defined patients with hypokalemic salt-losing tubulopathies

Barttin increases surface expression and changes current properties of ClC-K channels

pH gating of ROMK (K ir 1.1) channels: Control by an Arg-Lys-Arg triad disrupted in antenatal Bartter syndrome

Salt Wasting and Deafness Resulting from Mutations in Two Chloride Channels

Contact Info

Product

Resources

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pH gating of ROMK (K _ir 1.1) channels: Control by an Arg-Lys-Arg triad disrupted in antenatal Bartter syndrome