Functionomics of NCC mutations in Gitelman syndrome using a novel mammalian cell-based activity assay

Valdez-Flores, Marco A.; Vargas‐Poussou, Rosa; Verkaart, Sjoerd; Tutakhel, Omar A. Z.; Valdéz-Ortiz, Ángel; Blanchard, Anne; Tréard, Cyrielle; Hoenderop, Joost G. J.; Bindels, René J. M.; Jeleń, Sabina

doi:10.1152/ajprenal.00124.2016

Cited by 26 publications

(21 citation statements)

References 24 publications

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“…NCC activity was performed as described in Valdez-Flores et al (22). NCC is able to transport NaI-like NaCl in a hydrochlorothiazide (HCTZ)-sensitive manner (22).…”

Section: Ncc Activity Measurements Using Yfp-mkatementioning

confidence: 99%

“…NCC activity was performed as described in Valdez-Flores et al (22). NCC is able to transport NaI-like NaCl in a hydrochlorothiazide (HCTZ)-sensitive manner (22). In brief, HEK293 cells were cotransfected with the halide-sensitive YFP-mKate construct (37) and the appropriate human NCC pCINeo-IRES-eCFP construct or pCINeo-IRES-eCFP mock.…”

Section: Ncc Activity Measurements Using Yfp-mkatementioning

confidence: 99%

“…The respective plasmids were cotransfected in HEK293 cells with halide-sensitive YFP that was coupled to the halide-insensitive fluorescent red protein, mKate. Before measurements, transfected HEK293 cells were incubated in hypotonic low Cl 2 buffer to maximally increase NCC phosphorylation and activity (22). After 30 s, NaI was added to the medium, which induced a significant reduction in the YFP-to-mKate ratio in NCC 3 -expressing cells, which was indicative of NCC transport activity (Fig.…”

Section: Effect Of S811 Phosphorylation On Ncc Functionmentioning

confidence: 99%

“…The importance of NCC in the regulation of blood pressure is illustrated by such diseases as Gitelman syndrome (OMIM: 263800) (20)(21)(22) and familial hyperkalemic ABBREVIATIONS: DCT, distal convoluted tubule; eGFP, enhanced green fluorescent protein; ENaC, epithelial Na + channel; FHHt, familial hyperkalemic hypertension; FLIM, fluorescence lifetime imaging microscopy; FRET, Förster resonance energy transfer; HA, hemagglutinin; HCTZ, hydrochlorothiazide; HEK293, human embryonic kidney 293; ICS, image cytometry standard; NCC 3 , NaCl cotransporter isoform 3; NCC, NaCl cotransporter; NCC SV , NaCl cotransporter isoform splice variant; SPAK, ste20-related proline-alanine-rich kinase; TBS-T, Tris-buffered saline and Tween-20; tNCC, total NaCl cotransporter; WNK, with no lysine; YFP, yellow fluorescent protein hypertension (FHHt; OMIM: 145260) (23)(24)(25)(26). Gitelman syndrome is caused by loss-of-function mutations in the SLC12A3 gene that encodes NCC (20)(21)(22), which results in renal Na + wasting and hypotension (18,27). In contrast, FHHt is a form of hypertension that results from the gain of function of NCC as a consequence of mutations in genes that code for key signaling molecules (23,28).…”

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Dominant functional role of the novel phosphorylation site S811 in the human renal NaCl cotransporter

et al. 2018

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The NaCl cotransporter (NCC) is essential for electrolyte homeostasis and control of blood pressure. The human SLC12A3 gene, which encodes NCC, gives rise to 3 isoforms, of which only the shortest isoform [NaCl cotransporter isoform 3 (NCC)] has been studied extensively. All NCC isoforms share key phosphorylation sites at T55 and T60 that are essential mediators of NCC function. Recently, a novel phosphorylation site at S811 was identified in isoforms 1 and 2 [NaCl cotransporter splice variant (NCC)], which are only present in humans and higher primates. The aim of the current study, therefore, is to investigate the role of S811 phosphorylation in the regulation of NCC by a combination of biochemical and fluorescent microscopy analyses. We demonstrate that hypotonic low-chloride buffer increases S811 phosphorylation, whereas phosphorylation-deficient S811A mutant hinders phosphorylation at T55 and T60 in NCC and NCC. NCC S811A impairs NCC activity in a dominant-negative fashion, although it does not affect plasma membrane abundance. This effect may be explained by the heterodimerization of NCC with NCC. Taken together, our study highlights the dominant-negative effect of NCC on T55 and T60 phosphorylation and NCC activity. Here, we reveal a new function of NCC in humans that broadens the understanding on NCC regulation in blood pressure control.-Tutakhel, O. A. Z., Bianchi, F., Smits, D. A., Bindels, R. J. M., Hoenderop, J. G. J., van der Wijst, J. Dominant functional role of the novel phosphorylation site S811 in the human renal NaCl cotransporter.

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“…NCC activity was performed as described in Valdez-Flores et al (22). NCC is able to transport NaI-like NaCl in a hydrochlorothiazide (HCTZ)-sensitive manner (22).…”

Section: Ncc Activity Measurements Using Yfp-mkatementioning

confidence: 99%

Section: Ncc Activity Measurements Using Yfp-mkatementioning

confidence: 99%

Section: Effect Of S811 Phosphorylation On Ncc Functionmentioning

confidence: 99%

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Dominant functional role of the novel phosphorylation site S811 in the human renal NaCl cotransporter

et al. 2018

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“…NCC is an important pharmacological target in the treatment of hypertension as thiazide-type diuretics, which specifically block NCC, are considered first-line therapy [12,13]. Furthermore, over 180 loss-of-function mutations have been identified in the SLC12A3 gene, encoding NCC, in relation to Gitelman syndrome (OMIM 263,800) [14–16]. This is an autosomal recessive disease that is portrayed by hypocalciuria, hypomagnesemia, hypokalemic metabolic alkalosis, sodium wasting and lower blood pressure levels in comparison to their age-matched unaffected relatives [17,18].…”

Section: Introductionmentioning

confidence: 99%

Role of the alternative splice variant of NCC in blood pressure control

2018

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The renal thiazide-sensitive sodium-chloride cotransporter (NCC), located in the distal convoluted tubule (DCT) of the kidney, plays an important role in blood pressure regulation by fine-tuning sodium excretion. The human SLC12A3 gene, encoding NCC, gives rise to three isoforms, of which only the third isoform (NCC3) has been extensively investigated so far. However, recent studies unraveled the importance of the isoforms 1 and 2, collectively referred to as NCC splice variant (NCCSV), in several (patho)physiological conditions. In the human kidney, NCCSV localizes to the apical membrane of the DCT and could constitute a functional route for renal sodium-chloride reabsorption. Analysis of urinary extracellular vesicles (uEVs), a non-invasive method for measuring renal responses, demonstrated that NCCSV abundance changes in response to acute water loading and correlates with patients’ thiazide responsiveness. Furthermore, a novel phosphorylation site at serine 811 (S811), exclusively present in NCCSV, was shown to play an instrumental role in NCCSV as well as NCC3 function. This review aims to summarize these new insights of NCCSV function in humans that broadens the understanding on NCC regulation in blood pressure control.

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New insights into the role of endoplasmic reticulum‐associated degradation in Bartter Syndrome Type 1

et al. 2021

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Mutations in Na-K-2Cl co-transporter, NKCC2, lead to type I Bartter syndrome (BS1), a life-threatening kidney disease. Yet, our knowledge of the molecular regulation of NKCC2 mutants remains poor. Here, we aimed to identify the molecular pathogenic mechanisms of one novel and three previously reported missense NKCC2 mutations. Co-immunolocalization studies revealed that all NKCC2 variants are not functional because they are not expressed at the cell surface due to retention in the endoplasmic reticulum (ER). Cycloheximide chase assays together with treatment by protein degradation and mannose trimming inhibitors demonstrated that the defect in NKCC2 maturation arises from ER retention and associated degradation (ERAD). Small interfering RNA (siRNA) knock-down experiments revealed that the ER lectin OS9 is involved in the ERAD of NKCC2 mutants. 4-phenyl butyric acid (4-PBA) treatment mimicked OS9 knock-down effect on NKCC2 mutants by stabilizing their immature forms. Importantly, out of the four studied mutants, only one showed an increased protein maturation upon treatment with glycerol. In summary, our study reveals that BS1 is among diseases linked to the ERAD pathway. Moreover, our data open the possibility that maturation of some ER retained NKCC2 variants is correctable by chemical chaperones offering, therefore, promising avenues in elucidating the molecular pathways governing the ERAD of NKCC2 folding mutants.

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Functionomics of NCC mutations in Gitelman syndrome using a novel mammalian cell-based activity assay

Cited by 26 publications

References 24 publications

Dominant functional role of the novel phosphorylation site S811 in the human renal NaCl cotransporter

Dominant functional role of the novel phosphorylation site S811 in the human renal NaCl cotransporter

Role of the alternative splice variant of NCC in blood pressure control

New insights into the role of endoplasmic reticulum‐associated degradation in Bartter Syndrome Type 1

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