Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Loss of physiological regulation of the renal thiazide-sensitive Na+-Cl- cotransporter (NCC) by mutant WNK1 or WNK4 results in pseudohypoaldosteronism type II (PHAII) characterized by arterial hypertension and hyperkalemia. WNK4 normally inhibits NCC, but this effect is lost by eliminating WNK4 catalytic activity or through PHAII-type mutations. In contrast, another member of the WNK family, WNK3, activates NCC. The positive effect of WNK3 on NCC also requires its catalytic activity. Because the opposite effects of WNK3 and WNK4 on NCC were observed in the same expression system, sequences within the WNKs should endow these kinases with their activating or inhibiting properties. To gain insight into the structure-function relationships between the WNKs and NCC, we used a chimera approach between WNK3 and WNK4 to elucidate the domain of the WNKs responsible for the effects on NCC. Chimeras were constructed by swapping the amino or carboxyl terminus domains, which flank the central kinase domain, between WNK3 and WNK4. Our results show that the effect of chimeras toward NCC follows the amino-terminal domain. Thus the amino terminus of the WNKs contains the sequences that are required for their activating or inhibiting properties on NCC.
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PMID:WNK3 and WNK4 amino-terminal domain defines their effect on the renal Na+-Cl- cotransporter. 1870 21

WNK1 gene variants have been associated with adult blood pressure. We aimed to investigate relationships between WNK1 variants and blood pressure, as well as blood pressure change with age, in a longitudinal childhood study. Associations between single nucleotide polymorphisms in WNK1 and blood pressure and the rate of blood pressure change between 7 and 11 years were examined in the Avon Longitudinal Study of Parent and Children Study (n=5326 for systolic blood pressure at 11 years). We observed associations (P<0.05) with diastolic blood pressure gradient with age for 33 of 82 typed and imputed polymorphisms, including polymorphisms in exons 4, 10, and 11 (rs10774466, rs1012729, and rs9804992). The minor allele (G) of rs1012729 (frequency: 25.6%) was associated with a gender-adjusted change in a diastolic blood pressure gradient of -0.11 mm Hg/y (95% CI: -0.20 to -0.03 mm Hg/y; P=0.0054). No associations were shown with the systolic blood pressure gradient. At age 11 years, 30 polymorphisms showed association (P<0.05) with systolic blood pressure, including variants in exons 4 and 10 (rs10774466 and rs1012729). Only 3 polymorphisms were associated with diastolic blood pressure at 11 years. In exploration of polymorphism-dietary cation interactions on systolic blood pressure at 11 years, 59 reached significance (P<0.05; 12.3 expected by chance), mostly (n=33) related to dietary calcium. The findings show that common intronic and exonic WNK1 variants are associated with diastolic blood pressure gradient from 7 to 11 years and with systolic blood pressure at 11 years. Our study suggests that previously reported effects of WNK1 variants on blood pressure are mediated via effects on the gradient of blood pressure change with age.
Hypertension 2008 Nov
PMID:Common variation in the WNK1 gene and blood pressure in childhood: the Avon Longitudinal Study of Parents and Children. 1880 89

It has recently been shown that the WNK [with-no-K(Lys)] kinases (WNK1, WNK2, WNK3 and WNK4) have vital roles in the control of salt homeostasis and blood pressure. This Commentary focuses on recent findings that have uncovered the backbone of a novel signal-transduction network that is controlled by WNK kinases. Under hyperosmotic or hypotonic low-Cl- conditions, WNK isoforms are activated, and subsequently phosphorylate and activate the related protein kinases SPAK and OSR1. SPAK and OSR1 phosphorylate and activate ion co-transporters that include NCC, NKCC1 and NKCC2, which are targets for the commonly used blood-pressure-lowering thiazide-diuretic and loop-diuretic drugs. The finding that mutations in WNK1, WNK4, NCC and NKCC2 cause inherited blood-pressure syndromes in humans highlights the importance of these enzymes. We argue that these new findings indicate that SPAK and OSR1 are promising drug targets for the treatment of hypertension, because inhibiting these enzymes would reduce NCC and NKCC2 activity and thereby suppress renal salt re-absorption. We also discuss unresolved and controversial questions in this field of research.
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PMID:The regulation of salt transport and blood pressure by the WNK-SPAK/OSR1 signalling pathway. 1884 16

WNK kinases are serine-threonine kinases with an atypical placement of the catalytic lysine. WNK1, the first member discovered, has multiple alternatively spliced isoforms, including a ubiquitously expressed full-length long form (L-WNK1) and a kidney-specific form (KS-WNK1) predominantly expressed in the kidney. Intronic deletions of WNK1 that increase WNK1 transcript cause pseudohypoaldosteronism type 2, an autosomal-dominant disease characterized by hypertension and hyperkalemia. L-WNK1 inhibits renal K(+) channel ROMK, likely contributing to hyperkalemia in PHAII. Previously, we reported that KS-WNK1 by itself has no effect on ROMK1 but antagonizes L-WNK1-mediated inhibition of ROMK1. Amino acids 1-253 of KS-WNK1 (KS-WNK1(1-253)) are sufficient for reversing the inhibition of ROMK1 caused by L-WNK1(1-491). Here, we further investigated the mechanisms by which KS-WNK1 counteracts L-WNK1 regulation of ROMK1. We reported that two regions of KS-WNK1(1-253) are involved in the antagonism of L-WNK1; one includes the first 30 amino acids unique for KS-WNK1 encoded by the alternatively spliced initiating exon 4A, and the other is equivalent to the autoinhibitory domain (AID) of L-WNK1. Mutations of two phenylalanine residues known to be critical for autoinhibitory function of AID abolish the ability of the AID region of KS-WNK1 to antagonize L-WNK1. To examine the physiological role of KS-WNK1 in the regulation of renal K(+) secretion, we generated transgenic mice that overexpress amino acids 1-253 of KS-WNK1 under the control of a kidney-specific promoter. Transgenic mice have lower serum K(+) levels and higher urinary fractional excretion of K(+) compared with wild type littermates despite the same amount of daily urinary K(+) excretion. Moreover, transgenic mice (compared with wild type littermates) displayed a higher abundance of ROMK on the apical membrane of distal nephron. Thus, KS-WNK1 is an important physiological regulator of renal K(+) excretion, likely through its effects on the ROMK1 channel.
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PMID:Regulation of ROMK channel and K+ homeostasis by kidney-specific WNK1 kinase. 1924 42

WNK1--a serine/threonine kinase involved in electrolyte homeostasis and blood pressure (BP) control--is an excellent candidate gene for essential hypertension (EH). We and others have previously reported association between WNK1 and BP variation. Using tag SNPs (tSNPs) that capture 100% of common WNK1 variation in HapMap, we aimed to replicate our findings with BP and to test for association with phenotypes relating to WNK1 function in the British Genetics of Hypertension (BRIGHT) study case-control resource (1700 hypertensive cases and 1700 normotensive controls). We found multiple variants to be associated with systolic blood pressure, SBP (7/28 tSNPs min-p = 0.0005), diastolic blood pressure, DBP (7/28 tSNPs min-p = 0.002) and 24 hour urinary potassium excretion (10/28 tSNPs min-p = 0.0004). Associations with SBP and urine potassium remained significant after correction for multiple testing (p = 0.02 and p = 0.01 respectively). The major allele (A) of rs765250, located in intron 1, demonstrated the strongest evidence for association with SBP, effect size 3.14 mmHg (95%CI:1.23-4.9), DBP 1.9 mmHg (95%CI:0.7-3.2) and hypertension, odds ratio (OR: 1.3 [95%CI: 1.0-1.7]).We genotyped this variant in six independent populations (n = 14,451) and replicated the association between rs765250 and SBP in a meta-analysis (p = 7 x 10(-3), combined with BRIGHT data-set p = 2 x 10(-4), n = 17,851). The associations of WNK1 with DBP and EH were not confirmed. Haplotype analysis revealed striking associations with hypertension and BP variation (global permutation p<10(-7)). We identified several common haplotypes to be associated with increased BP and multiple low frequency haplotypes significantly associated with lower BP (>10 mmHg reduction) and risk for hypertension (OR<0.60). Our data indicates that multiple rare and common WNK1 variants contribute to BP variation and hypertension, and provide compelling evidence to initiate further genetic and functional studies to explore the role of WNK1 in BP regulation and EH.
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PMID:Polymorphisms in the WNK1 gene are associated with blood pressure variation and urinary potassium excretion. 1934 40

Mutations in the WNK kinases WNK1 and WNK4 cause a rare familial form of hypertension (Gordon syndrome) by increasing expression of the thiazide-sensitive co-transporter NCCT in the kidney. Regulation of NCCT expression involves a scaffold of proteins composed of several kinases, including the third member of the WNK kinase family, WNK3. This protein, expressed in several tissues including kidney and brain, displays splice variation around exons 18 and 22. We expressed these proteins in Xenopus oocytes and found that the renal isoform of WNK3 increased but the brain isoform decreased NCCT expression and activity. Introduction of a kinase-inactivating mutation into renal WNK3 reversed its action on NCCT, and the same mutation in the brain isoforms led to loss of function. We also studied the effect of phosphorylation of a key NCCT threonine (T58) on the effects of WNK3/4 coexpression; NCCT mutants with a T58A or T58D substitution had the same surface expression as T58 but had significantly altered transporter activity; however, both isoforms of WNK3 as well as WNK4 still modulated expression of these NCCT mutants. Finally, experiments using kinase-dead STE20/SPS1-related proline/alanine-rich kinase (SPAK), a putative downstream target for WNKs, revealed that brain WNK3 acts in tandem with SPAK, whereas renal WNK3 seems to upregulate NCCT through a SPAK-independent pathway. Taken together, these results suggest that the C-terminal motifs contributed by exons 18 and 22 play an important role in the actions of WNK3 isoforms on NCCT.
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PMID:Renal and brain isoforms of WNK3 have opposite effects on NCCT expression. 1947 Jun 69

WNK1 [with-no-lysine (K)-1] is a ubiquitous serine/threonine kinase with a unique placement of the catalytic lysine residue. Increased WNK1 expression levels in humans causes a hypertension-hyperkalemia syndrome by altering renal Na(+) and K(+) transport. The function of WNK1 outside of the kidney remains elusive. In this study, we report that Wnk1 ablation causes cardiovascular developmental defects. The developing heart of null mutant embryos has smaller chambers and reduced myocardial trabeculation at E10.5. Yolk sac vessels in the E10.5 null mutant fail to remodel into a network of large and small vessels, and embryonic vessels show defective angiogenesis that involves both arteries and veins. The arterial marker neuropilin-1 and venous marker EphB4 are ectopically expressed in mutant veins and arteries, respectively. However, the orphan nuclear receptor COUP-TFII as well as the Notch signaling pathway, which are known to be critical for angiogenesis and artery-vein specification, are not significantly altered in Wnk1(-/-) mutants. Conditional deletion of Wnk1 in endothelial cells phenotypically copies defects caused by global Wnk1 ablation. Moreover, endothelial-specific expression of a Wnk1 transgene rescues cardiovascular developmental defects in Wnk1(-/-) mice. These findings identify a novel function of WNK1 in endothelial cells that is critical for angiogenesis and heart development, raising the possibility for a role of endothelial WNK1 in the control of blood pressure and postnatal angiogenesis and cardiac growth.
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PMID:Endothelial-specific expression of WNK1 kinase is essential for angiogenesis and heart development in mice. 1964 17

Pseudohypoaldosteronism type II (PHAII) is caused by the mutation of two members of the WNK (with-no-K[Lys] kinase) kinase family. We describe here the development of an in vitro WNK1 microfluidic mobility shift assay for kinetic mechanism studies. Assays using capillary electrophoresis on a microfluidic chip are suitable for both compound selection and mechanistic studies, because of the robustness of this method, as well as its high-throughput feature and insensitivity to the ATP concentration. Double-reciprocal plots of the initial rates versus the concentration of the substrate revealed that the random sequential activity of WNK catalyzed OXSR1 (oxidative stress response kinase-1) phosphorylation. WNK1 inhibitors were then found from among 86 kinases in a commercially available library. Interestingly, the Hck, Lck, and Src inhibitors, PP1 and PP2, exhibited positive inhibition against WNK1. The inhibition mode of PP1 was analyzed to be pure ATP competition with a K(i) value of 12.7 microM, showing noncompetitive inhibition against the OXSR1 peptide. From the structure-based comparison, we found that, since the WNK1 enzymes are categorized as STEs (homologues of yeast Sterile 7, Sterile 11, and Sterile 20 kinases) and Hck belongs to the TK (tyrosine kinase) family on the basis of the results of the Human Kinome Project, the residues at the catalytic site of the WNK1 that interact with PP1 were well-conserved in Hck. We concluded that the compound-based structural alignment enabled us to find interesting relationships among the kinases. This information helps us to screen specific WNK1 therapeutic reagents with no inhibition of the Src, Hck, and Lck kinases for the treatment of hypertension.
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PMID:Kinetic mechanism and inhibitor characterization of WNK1 kinase. 1973 68

The WNK (With No K-Lysine) family of proteins is widely expressed and has been shown to promote blood pressure homeostasis through a variety of mechanisms. Members of this family have been reported to affect sodium/chloride cotransporters, sodium/potassium/chloride cotransporters, potassium/chloride cotransporters, the renal outer medullary potassium channel, and the epithelial sodium channel, directly and indirectly. Mutations in WNK1 and WNK4 were shown to cause pseudohypoaldosteronism type II, a Mendelian disorder characterized by hypertension, hyperkalemia, and acidosis. Because of the complexity of the renal system, it has been difficult to completely define the role of these kinases in kidney function. This article reviews current knowledge of the role of these proteins in ion homeostasis and volume control.
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PMID:WNK kinases and blood pressure control. 1989 53

Evidence is mounting that a multi-gene kinase network is central to the regulation of renal Na(+) and K(+) excretion and that aberrant signaling through the pathway can result in renal sodium retention and hypertension (HTN). The kinase network minimally includes the Ste20-related proline-alanine-rich kinase (SPAK), the with-no-lysine kinases (WNKs), WNK4 and WNK1, and their effectors, the thiazide-sensitive NaCl cotransporter and the potassium secretory channel, ROMK. Available evidence indicates that the kinase network normally functions as a switch to change the mineralocorticoid hormone response of the kidney to either conserve sodium or excrete potassium, depending on whether aldosterone is induced by a change in dietary sodium or potassium. Recently, common genetic variants in the SPAK gene have been identified as HTN susceptibility factors in the general population, suggesting that altered WNK-SPAK signaling plays an important role in essential HTN. Here, we highlight recent breakthroughs in this emerging field and discuss areas of consensus and uncertainty.
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PMID:Multigene kinase network, kidney transport, and salt in essential hypertension. 2037 89


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