WNK1 promotes water homeostasis by acting as a central osmolality sensor for arginine vasopressin release

Jin, Xin; Xie, Jian‐Wei; Yeh, Chia‐Wei; Chen, Jen-Chi; Cheng, Chih-Jen; Lien, Cheng–Chang; Huang, Chou‐Long

doi:10.1172/jci164222

Cited by 4 publications

(1 citation statement)

References 60 publications

(109 reference statements)

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“…WNKs were identified as potential direct osmosensors in a Caenorhabditis elegans RNAi screen for proteins involved in volume control ( Choe and Strange, 2007 ). Recently, WNK1 knockout in the OVLT neuron-blunts vasopressin release in response to water restriction ( Jin et al. , 2023 ).…”

Section: Introductionmentioning

confidence: 99%

Hydrostatic Pressure Sensing by WNK kinases

Humphreys

Teixeira

Akella

et al. 2023

MBoC

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Previous work has demonstrated that the WNK kinases 1 and 3 are direct osmosensors consistent with their established role in cell volume control. WNK kinases may also be regulated by hydrostatic pressure. Hydrostatic pressure applied to cells in culture with N2 gas or to Drosophila Malpighian tubules by centrifugation induces phosphorylation of downstream effectors of endogenous WNKs. In vitro, the autophosphorylation and activity of the unphosphorylated kinase domain of WNK3 (uWNK3) is enhanced to a lesser extent than in cells by 190 kPa applied with N2 gas. Hydrostatic pressure measurably alters the structure of uWNK3. Data from size exclusion chromatography in line with multi-angle light scattering (SEC-MALS), SEC alone at different back pressures, analytical ultracentrifugation (AUC), NMR, and chemical crosslinking indicate a change in oligomeric structure in the presence of hydrostatic pressure from a WNK3 dimer to a monomer. The effects on the structure are related to those seen with osmolytes. Potential mechanisms of hydrostatic pressure activation of uWNK3 and the relationships of pressure activation to WNK osmosensing are discussed.

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Section: Introductionmentioning

confidence: 99%

Hydrostatic Pressure Sensing by WNK kinases

Humphreys

Teixeira

Akella

et al. 2023

MBoC

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Macrophage WNK1 senses intracellular hypo-chlorine to regulate vulnerability to sepsis attack during hypochloremia

Yin,

He,

et al. 2024

International Immunopharmacology

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Plasma concentrations of peptide hormones: Unrealistic levels of vasopressin (AVP), oxytocin (OXT), and brain natriuretic peptide (BNP)

Bie

2024

Acta Physiologica

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Hormones are specific molecules measured in biological fluids by elaborate analytical systems requiring meticulous attention. Variation between laboratories can be expected. However, recently published measurements of AVP, OXT, and BNP in human plasma under basal/control conditions include numbers which, between publications, vary by 100–10 000‐fold. Generally, the methods descriptions are scant, at best, and provide no information about quality control measures. Clearly, two results describing the same basal hormone concentration by numbers three orders of magnitude apart are incongruent providing reason for concern. Basal concentrations of bioactive AVP, OXT, and BNP in human plasma are in the order of 1–10 pmol/L. Therefore, assay systems applied to plasma must be able to measure concentrations of less than 1 pmol/L with appropriate specificity and accuracy. Basal concentrations of AVP, OXT, and BNP above 100 pmol/L should be reconsidered, as such results do not reflect bioactive hormone levels in humans, rats, or mice. Any concentration above 1000 pmol/L is of concern because such levels of bioactive hormone may be seen only under extreme conditions, if at all.

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WNK1 promotes water homeostasis by acting as a central osmolality sensor for arginine vasopressin release

Cited by 4 publications

References 60 publications

Hydrostatic Pressure Sensing by WNK kinases

Hydrostatic Pressure Sensing by WNK kinases

Macrophage WNK1 senses intracellular hypo-chlorine to regulate vulnerability to sepsis attack during hypochloremia

Plasma concentrations of peptide hormones: Unrealistic levels of vasopressin (AVP), oxytocin (OXT), and brain natriuretic peptide (BNP)

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