UMLS:C0020538 - FACTA Search

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

Mutations in the serine-threonine kinases WNK1 and WNK4 [with no lysine (K) at a key catalytic residue] cause pseudohypoaldosteronism type II (PHAII), a Mendelian disease featuring hypertension, hyperkalemia, hyperchloremia, and metabolic acidosis. Both kinases are expressed in the distal nephron, although the regulators and targets of WNK signaling cascades are unknown. The Cl(-) dependence of PHAII phenotypes, their sensitivity to thiazide diuretics, and the observation that they constitute a "mirror image" of the phenotypes resulting from loss of function mutations in the thiazide-sensitive Na-Cl cotransporter (NCCT) suggest that PHAII may result from increased NCCT activity due to altered WNK signaling. To address this possibility, we measured NCCT-mediated Na(+) influx and membrane expression in the presence of wild-type and mutant WNK4 by heterologous expression in Xenopus oocytes. Wild-type WNK4 inhibits NCCT-mediated Na-influx by reducing membrane expression of the cotransporter ((22)Na-influx reduced 50%, P < 1 x 10(-9), surface expression reduced 75%, P < 1 x 10(-14) in the presence of WNK4). This inhibition depends on WNK4 kinase activity, because missense mutations that abrogate kinase function prevent this effect. PHAII-causing missense mutations, which are remote from the kinase domain, also prevent inhibition of NCCT activity, providing insight into the pathophysiology of the disorder. The specificity of this effect is indicated by the finding that WNK4 and the carboxyl terminus of NCCT coimmunoprecipitate when expressed in HEK 293T cells. Together, these findings demonstrate that WNK4 negatively regulates surface expression of NCCT and implicate loss of this regulation in the molecular pathogenesis of an inherited form of hypertension.
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PMID:Molecular pathogenesis of inherited hypertension with hyperkalemia: the Na-Cl cotransporter is inhibited by wild-type but not mutant WNK4. 1251 52

Mutations in WNK1 and WNK4, genes encoding members of a novel family of serine-threonine kinases, have recently been shown to cause pseudohypoaldosteronism type II (PHAII), an autosomal dominant disorder featuring hypertension, hyperkalemia, and renal tubular acidosis. The localization of these kinases in the distal nephron and the Cl(-) dependence of these phenotypes suggest that these mutations increase renal Cl(-) reabsorption. Although WNK4 expression is limited to the kidney, WNK1 is expressed in many tissues. We have examined the distribution of WNK1 in these extrarenal tissues. Immunostaining using WNK1-specific antibodies demonstrated that WNK1 is not present in all cell types; rather, it is predominantly localized in polarized epithelia, including those lining the lumen of the hepatic biliary ducts, pancreatic ducts, epididymis, sweat ducts, colonic crypts, and gallbladder. WNK1 is also found in the basal layers of epidermis and throughout the esophageal epithelium. The subcellular localization of WNK1 varies among these epithelia. WNK1 is cytoplasmic in kidney, colon, gallbladder, sweat duct, skin, and esophagus; in contrast, it localizes to the lateral membrane in bile ducts, pancreatic ducts, and epididymis. These epithelia are all notable for their prominent role in Cl(-) flux. Moreover, these sites largely coincide with those involved in the pathology of cystic fibrosis, a disease characterized by deranged epithelial Cl(-) flux. Together with the known pathophysiology of PHAII, these findings suggest that WNK1 plays a general role in the regulation of epithelial Cl(-) flux, a finding that suggests the potential of new approaches to the selective modulation of these processes.
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PMID:WNK1, a kinase mutated in inherited hypertension with hyperkalemia, localizes to diverse Cl- -transporting epithelia. 1252 52

A gain of function mutation resulting in the substitution of leucine for serine at codon 810 (S810L) in the human mineralocorticoid receptor (MR) is responsible for early-onset hypertension that is exacerbated in pregnancy. All steroids, including progesterone, that display antagonist properties when bound to the wild-type MR are able to activate the mutant receptor (MR(L810)). These findings suggest that progesterone may contribute to the dramatic aggravation of hypertension in MR(L810) carriers during pregnancy. However, the steroid(s) responsible for hypertension in MR(L810) carriers (men and nonpregnant women) has not yet been identified. Here we show that cortisone and 11-dehydrocorticosterone, the main cortisol and corticosterone metabolites produced in the distal nephron, where sodium reabsorption stimulated by aldosterone takes place, bind with high affinity to MR(L810). The potency with which cortisone and 11-dehydrocorticosterone bind to the mutant MR contrasts sharply with their low wild-type MR-binding capacity. In addition, cotransfection assays demonstrate that cortisone and 11-dehydrocorticosterone are potent activators of the MR(L810) trans-activation function. Because the plasma concentration of cortisol in humans is about 30-fold higher than that of corticosterone, these findings strongly suggest that cortisone is one of the endogenous steroids responsible for early-onset hypertension in men and nonpregnant women carrying the MR(L810) mutation.
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PMID:The severe form of hypertension caused by the activating S810L mutation in the mineralocorticoid receptor is cortisone related. 1253 13

Phosphatidylinositol 3-kinase (PI3K) activity is increased in aortae from deoxycorticosterone (DOCA)-salt rats and enhanced PI3K activity contributes to the arterial hyperreactivity in these animals. Because PI3K activity is increased in DOCA-salt hypertension, we postulated that phosphorylation of Akt and glycogen synthase kinase 3 (GSK-3), serine threonine kinases that are downstream of PI3K, would be increased in DOCA-salt hypertension. In this study, we focused on GSK-3. Because GSK-3 activity is reduced by phosphorylation, we expected that its activity would be reduced in DOCA-salt hypertensive arteries and that reduced GSK-3 activity could contribute to enhanced adrenergic signaling and vascular smooth muscle hypertrophy that augment the heightened contractile response in DOCA-salt hypertension. Surprisingly, we observed a decrease in phosphorylation of GSK-3, indicating an increase in GSK-3 activity. To determine whether increased GSK-3 activity contributes to altered arterial reactivity in DOCA-salt animals, we measured isometric contraction to norepinephrine (NE) in the presence and absence of PI3K or GSK-3 inhibition. Addition of LY294002 (20 micromol/L), a PI3K inhibitor, resulted in a rightward shift in response to NE and normalized the NE-induced contractions in the DOCA hypertensive vessels. SB415286, a GSK-3 inhibitor, resulted in a slight rightward shift in response to NE in the DOCA-salt vessels. Thus, enhanced GSK-3 activity modestly augments the effects of PI3K but does not appear to contribute greatly to the altered arterial reactivity in DOCA-salt hypertension.
Hypertension 2003 Apr
PMID:PI3-kinase-induced hyperreactivity in DOCA-salt hypertension is independent of GSK-3 activity. 1262 35

Four types of monogenic hypertension belong to the group of mineralocorticoid hypertension, which are characterized by high renal water and sodium retention and resulting suppression of plasma renin activity (PRA), high urinary potassium secretion and consecutive low plasma potassium:1. increased production of the hormone aldosterone: glucocorticoid-remediable aldosteronism (GRH), 2. prereceptor disorder with loss of selectivity of the mineralocorticoid receptor: apparent mineralocorticoid excess (AME), 3. receptor disorder with constitutive activation of the mineralocorticoid receptor: "Geller syndrome", 4. postreceptor disorder with enhanced function of the epithelial sodium channel: Liddle's syndrome. While in GRH high synthesis of aldosterone results in high plasma aldosterone and low PRA, in the primary renal malfunctions of the AME, constitutive activation of the mineralocorticoid receptor and the Liddle's syndrome both plasma aldosterone and PRA are low. These forms of hypertension are rather rare in their complete expression, but they point to candidate genes whose mutations may predispose to hypertension. A point mutation of the ENaC beta-subunit (T594M) occurs rather frequent in people of African origin, with 5%. Therefore it is suggested to analyze the genotype of black hypertensive patients as a prerequisite for a rational amiloride therapy. Contrarily, the rather frequent (A[2139]G) polymorphism of the promoter of the alpha-subunit is supposed to mark a lower risk of hypertension. Mutations in the serine-threonine kinases WNK1 or WNK4 cause pseudohypoaldosteronism type II. WNK1 and WNK4 are expressed in the distal part of the nephron. Stimulation of sodium reabsorption by aldosterone is normal but without influence on hyperkalemia. An extrarenal disorder is suggested to be the cause of autosomal-dominant hypertension with brachydactyly: the patients react with a severely impaired baroreflex und show neurovascular contact. The mutation causing this syndrome is not known.
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PMID:[Monogenic hypertension]. 1271 44

Kallikreins are a group of serine proteases and are distinguished by having serine residue at their active site. Their general function is to convert inactive pro-peptide into its biologically active form. In recent years, emerging evidence indicates that some kallikrein-kinin enzymes also play a role in the modulation of renin-angiotensin system. These kallikrein-like prorenin converting enzymes act on renin-angiotensin by converting prorenin into biologically active renin. In this investigation, kallikrein-like prorenin converting enzyme (PRCE C) (mK9) is isolated from genetically inbred high blood pressure (BPH) and their normal counterparts (BPN) mice, and its protein levels are quantitated. Levels of mRNA expression are also compared. Additionally, localization of the enzyme is visualized by in situ hybridization histochemistry. Results indicated higher levels of PRCE C (mK9) enzyme in BPH mice in comparison to their normal counterparts. mRNA expression was also higher in BPH mice. In situ hybridization histochemistry results localized PRCE C (mK9) in the striated duct cells of submandibular gland.
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PMID:Kallikrein-like prorenin-converting enzymes in inbred hypertensive mice. 1272 15

Focal adhesion kinase (FAK) and focal adhesion kinase-related nonkinase (FRNK) are likely involved in mechanical signaling during hypertension. We investigated expression, subcellular distribution, and phosphorylation of FAK, as well as FRNK in left ventricles of spontaneously hypertensive heart failure rats. Compared with normotensive controls, FAK and FRNK increased in left ventricles of hypertensive rats. Increased FAK and FRNK were mainly present in membrane cytoskeleton and nuclear fractions. Confocal microscopy demonstrated that FAK and FRNK translocated to nuclei and intercalated disks in cardiac myocytes from hypertensive rats. Serine and tyrosine phosphorylation of FAK increased dramatically in hypertensive rats. FAK phosphorylated at tyrosine 397 was present in membranes and intercalated disks, but not in nuclei. FAK was also phosphorylated on serine 722 but not on serine 910. In contrast, FRNK was phosphorylated on serine 217, the equivalent site of FAK serine 910, but not serine on 30, the homologous site of FAK serine 722. Serine phosphorylated FAK and FRNK accumulated in membranes and nuclei but not in intercalated disks. Nuclear translocation of FAK and FRNK may play important roles in regulating mechanical signal transduction in cardiac myocytes.
Hypertension 2003 Jun
PMID:Subcellular redistribution of focal adhesion kinase and its related nonkinase in hypertrophic myocardium. 1273 87

Although the cyclic AMP response element-binding protein (CREB) plays an important role in the survival of neuronal cells and T lymphocytes, the role of CREB in vascular smooth muscle cells (VSMCs) is incompletely characterized. We examined the role of CREB in VSMCs stimulated with reactive oxygen species. Activation of CREB was examined by Western blot analysis with an antibody that specifically recognizes phosphorylation at serine 133 of CREB, which is a critical marker of activation. Hydrogen peroxide (H2O2) time-dependently induced phosphorylation of CREB, with a peak at 15 minutes. The H2O2-induced phosphorylation of CREB was partially blocked by inhibition of either extracellular signal-regulated protein kinase kinase by PD98059 or of p38 mitogen-activated protein kinase (MAPK) by SB203580. AG1478, an epidermal growth factor receptor (EGFR) inhibitor, suppressed the H2O2-induced phosphorylation of CREB and tyrosine phosphorylation of EGFR. Overexpression of the dominant-negative form of CREB by an adenovirus vector suppressed H2O2-induced c-fos expression. These findings suggest that H2O2 induces CREB phosphorylation through EGFR transactivation and mitogen-activated protein kinase pathways. CREB might be a novel redox-sensitive transcription factor involved in the regulation of VSMC gene expression.
Hypertension 2003 Aug
PMID:Cyclic AMP response element-binding protein mediates reactive oxygen species-induced c-fos expression. 1281 Jul 57

Biochemical and pharmacological studies have suggested that NOS2 (inducible nitric oxide synthase) has a functional role in the blood pressure response to increases in dietary salt intake. On a high-salt diet, the Dahl/Rapp salt-sensitive (S) strain of rat, a genetic model of salt-sensitive hypertension, did not show increased nitric oxide production. NOS2 from S rats possesses a point mutation that results in substitution of proline for serine at position 714. In the present study, rat NOS2 was shown to be ubiquitinated in vitro and in vivo and to be degraded by the proteasome; this process was accelerated for the S714P mutant. Accelerated degradation of the S714P mutant enzyme accounted for the diminished enzyme activity of this mutant. Hsp90 (heat-shock protein 90) associated with NOS2 and modulated degradation, but was not responsible for the accentuated degradation of the S714P mutant enzyme. The combined findings demonstrate the integral role of ubiquitination and degradation by the proteasome in the regulation of NO production by rat NOS2. Demonstrating that this process is responsible for the abnormal function of the S714P mutant NOS2 in S rats confirms the physiological importance of the proteasome in NOS2 function.
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PMID:Accelerated ubiquitination and proteasome degradation of a genetic variant of inducible nitric oxide synthase. 1295 38

Feedback inhibition is a fundamental principle in signal transduction allowing rapid adaptation to different stimuli. In mammalian cells, the major feedback inhibitor for G-protein-coupled receptors (GPCR) is G-protein-coupled receptor kinase 2 (GRK-2), which phosphorylates activated receptors, uncouples them from G proteins and initiates their internalization. The functions of GRK-2 are indispensable and need to be tightly controlled. Dysregulation promotes disorders such as hypertension or heart failure. In our search for a control mechanism for this vital kinase, here we show that the Raf kinase inhibitor protein (RKIP) is a physiological inhibitor of GRK-2. After stimulation of GPCR, RKIP dissociates from its known target, Raf-1 (refs 6-8), to associate with GRK-2 and block its activity. This switch is triggered by protein kinase C (PKC)-dependent phosphorylation of the RKIP on serine 153. The data delineate a new principle in signal transduction: by activating PKC, the incoming receptor signal is enhanced both by removing an inhibitor from Raf-1 and by blocking receptor internalization. A physiological role for this mechanism is shown in cardiomyocytes in which the downregulation of RKIP restrains beta-adrenergic signalling and contractile activity.
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PMID:Protein kinase C switches the Raf kinase inhibitor from Raf-1 to GRK-2. 1465 44

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