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

It remains to be defined whether molecular variants of the genes underlying Mendelian forms of hypertension play some etiological role in essential hypertension. To pursue this issue, we focused on the following three genes: the epithelial sodium channel (ENaC), 11beta-hydroxysteroid dehydrogenase type 2, and mineralocorticoid receptor genes. Five sequence variations of these genes, which were either previously reported to show significant association with hypertension or identified as "mild" molecular variants, were chosen for our study. Each variation was screened in 247 severe hypertensive patients with early onset (<45 years) and any detectable variations were subsequently characterized in 291 older normotensive subjects (>60 years) for the case-control comparison. We also investigated the significance of association between the tested variants and biochemical parameters reflecting sodium-water homeostasis, such as plasma aldosterone concentration (PAC) and renin activity (PRA). Only the T663A variant (alpha-subunit of ENaC) turned out to be polymorphic in the Japanese population. In disagreement with positive associations previously reported in white and black subjects, we observed no significant association between T663A and hypertension, while allele frequencies of A663 were higher in Japanese (58-64%) compared with a reported prevalence of 29% in whites and 15% in blacks. T663A showed a borderline association (p=0.02) with the PAC/PRA ratio but not with PAC or PRA in the multivariate analysis. Our data did not support the association between Mendelian disease gene variants and essential hypertension in the Japanese. However, the present study did not definitively resolve this issue and further investigation is certainly warranted.
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PMID:Evaluation of selected polymorphisms of the Mendelian hypertensive disease genes in the Japanese population. 1167 45

The SHHF/Mcc-fa(cp) (spontaneous hypertension and heart failure) rat is advanced as a novel and suitable non-primate model of pregnancy-associated hypertension and fetal growth restriction because it simultaneously has spontaneous pregnancy-associated hypertension, small for gestational age (SGA) offsprings, and altered placental gene expression. Pregnancy-associated hypertension is a major contributor to maternal and fetal morbidity and mortality with the potential to result in maternal death and the need for iatrogenic preterm delivery. It has been reported to develop spontaneously in humans, but not in animals; consequently, progress in identifying the cause and pathogenesis of this disorder has been hampered. Spontaneous hypertension and heart failure rats develop hypertension spontaneously as they age, therefore we sought to determine whether these rats developed hypertension and SGA offsprings during pregnancy. Our results show that systolic blood pressure (BP) increased >40 mm Hg by the end of the first trimester and remained at this elevated level for the remainder of pregnancy, but decreased after parturition. Placenta weights of SHHF rats (0.60 +/- 0.02 g, n = 36) were significantly higher than Wistar-Kyoto (WKY) rats (0.42 +/- 0.01 g, n = 22, P < .05), but pup weights were significantly lower (2.68 +/- 0.06 g for SHHF rats compared to 3.24 +/- 0.06 g for WKY controls, P < .05). Histologic examination revealed pathologic lesions in neither heart, liver, placenta, nor kidney. L-Arginine administered in drinking water prevented the elevation of BP, particularly during the third trimester. Placentas from SHHF rats displayed altered expression of several genes whose protein products have been implicated in preeclampsia, including serotonin receptor, sodium channel, carbonic anhydrase, estrogen receptor regulator, major histocompatibility complex proteins, superoxide dismutase, and angiotensiogen. In addition, gene expression profiling showed alteration of a number of subcellular putative myristoylproteins not previously associated with preeclampsia, particularly those engaged in post-translational modifications in the placenta. Thus, SHHF rats may be a valuable tool, because it simultaneously has spontaneous pregnancy-associated hypertension, SGA offsprings, and altered placental gene expression.
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PMID:Spontaneous pregnancy-induced hypertension and intrauterine growth restriction in rats. 1171 Jul 86

The epithelial sodium channel (ENaC) is a principal site for sodium reabsorption and as such may participate importantly in blood pressure (BP) regulation. Amiloride, a direct inhibitor of ENaC, characteristically has mild antihypertensive properties, consistent with ENaC having more minor influences on BP regulation. Counter-regulatory influences may, however, prevent amiloride from effectively lowering BP. Aldosterone secretion is known to increase in response to the reduced sodium reabsorption that follows amiloride inhibition of ENaC, and because aldosterone upregulates ENaC function, we considered the possibility that secondary hyperaldosteronism mitigates the ability of amiloride to reduce BP. In the present study, the BP responses to amiloride (5 mg per day), spironolactone (25 mg per day), the combination of the 2 drugs, and placebo were studied in healthy normotensive subjects. Over 4 weeks of treatment, the combination of amiloride and spironolactone lowered systolic BP by 4.6+/-1.6 (mean+/-SEM) mm Hg (P=0.022) and diastolic BP by 2.2+/-1.2 mm Hg (P=0.30), whereas either drug alone had no significant effect on BP. The findings suggest that the 2 drugs with different modes of action-amiloride, a direct inhibitor of ENaC, and spironolactone, a mineralocorticoid receptor antagonist-may compliment each other's ability to inhibit ENaC and thereby reduce sodium reabsorption to a point at which BP decreases. On the other hand, we cannot rule out that the BP response resulted from the greater dose of total drug. The lowering of BP with small doses of inhibitors of ENaC serves as additional evidence for the importance of ENaC to the tonic maintenance of BP.
Hypertension 2001 Nov
PMID:Blood pressure responses to small doses of amiloride and spironolactone in normotensive subjects. 1171 9

Vasopressin is known to acutely stimulate sodium transport in the renal collecting duct. We investigated the long-term regulation by vasopressin of the epithelial sodium channel (ENaC) in the rat kidney. Five-day infusion of dDAVP (a V(2) receptor agonist) to Brattleboro rats lacking vasopressin induced a marked increase in beta- and gamma-subunit ENaC mRNA levels in the renal cortex (beta, 85%; gamma, 100%), with no change in alpha-ENaC mRNA. Expression of beta- and gamma-ENaC mRNAs was also enhanced in lung (beta, 49%; gamma, 33%) but not in distal colon (an organ devoid of V(2) receptors). Similar results were obtained in Sprague Dawley rats after either partial water restriction or dDAVP infusion for 5 days. Transepithelial voltage and transepithelial sodium and water net fluxes were measured in isolated perfused cortical collecting ducts of Brattleboro rats. Acute addition of 2x10(-10) mol/L dDAVP to the bath increased sodium and water fluxes in the same proportion, and to a far greater extent in dDAVP-infused than in control Brattleboro rats (change in Na(+) net flux, 337+/-30 versus 49+/-11 pmol. min(-1). mm(-1), respectively; P<0.001). These effects were abolished by amiloride. Extrarenal water losses, partly originating from the lung, were reduced by high plasma vasopressin level. This study shows that vasopressin increases sodium transport in the renal collecting duct and probably in the lung, through a differential transcriptional regulation of ENaC subunits. This effect is followed by isoosmotic water reabsorption and likely contributes to the process of water conservation. It could lead to less efficient sodium excretion, however, and thus participate in some forms of salt-sensitive hypertension.
Hypertension 2001 Nov
PMID:Chronic exposure to vasopressin upregulates ENaC and sodium transport in the rat renal collecting duct and lung. 1171 12

The importance of hypertension in the pediatric population is not as well appreciated as in adults. This might be related in part to the lower prevalence of high blood pressure in this age group. As with height and weight, blood pressure increases with age during childhood. The underlying causes of significant hypertension in children differ considerably from those in adults: while the prevalence of hypertension in pediatrics is lower than in adults, clinically identifiable causes of hypertension are common. Abnormalities in steroid biosynthesis have been known for years to cause hypertension in some cases of congenital adrenal hyperplasia. In these patients, hypertension usually accompanies a characteristic phenotype with abnormal sexual differentiation. Recently, the molecular basis of four forms of severe hypertension transmitted on an autosomal basis has been elucidated: (a) the glucocorticoid-remediable aldosteronism (GRA), (b) the syndrome of apparent mineralocorticoid excess (AME), (c) activating mutation of the mineralocorticoid receptor and (d) Liddle's syndrome. All these conditions are characterized primarily by low or low-normal plasma renin, normal or low serum potassium and salt-sensitive hypertension, indicating an increased mineralocorticoid effect. These forms of juvenile hypertension are a consequence of abnormal biosynthesis, metabolism or action of steroid hormones: (a) GRA is due to expression of a chimeric gene produced by fusion of 11beta-hydroxylase aldosterone-synthase genes. Expression of the chimeric enzyme occurs in the zona fasciculata of the adrenal cortex under the control of ACTH and can be suppressed by administration of glucocorticoids. (b) AME is caused by mutations of the 11beta-hydroxysteroid dehydrogenase type 2 enzyme, an enzyme that metabolizes cortisol into its receptor inactive keto-form cortisone, thus protecting the mineralocorticoid receptor (MR) from occupation by glucocorticoids. (c) The activating mutation of the MR results in constitutive MR activity and alters receptor specificity, with progesterone and other steroids lacking 21-hydroxyl groups becoming potent agonists. (d) Liddle's syndrome is due to mutations in the beta or gamma chain of the epithelial sodium channel in distal renal tubule cells. The hyperactivity of this channel caused by the mutations results in increased sodium reabsorption. With the advent of molecular biology in clinical practice it has become evident that some genetic defect may present with a more discrete phenotype, with only moderate hypertension with or without hypokalemia as presenting feature. Considering that hypertension in children and adolescents is often 'nonessential', a search for disorders should be integral part of the diagnostic work-up in young patients with hypertension.
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PMID:Juvenile hypertension, the role of genetically altered steroid metabolism. 1174 Jan 42

The SCNNIA gene, which is located on human chromosome 12p13.3, encodes the alpha subunit of the amiloride-sensitive epithelial sodium channel, and mutations in SCNNIA can result in pseudohypoaldosteronism type I. It was postulated that genetic variations in SCNN1A could lead to an increased risk of hypertension. Sequence variations in SCNN1A were identified, and the association between these polymorphisms and BP was examined in a large cohort (n = 3898) representing the general population in Japan. Four polymorphisms in the promoter region, three polymorphisms in the exonic region, and one polymorphism in the first intron were identified. Because association studies with one-half of the study population indicated that the A(2139)G polymorphism, among others, significantly affected BP, this polymorphism was studied in the entire study population. Multiple logistic analyses indicated that the odds ratio for hypertension with the GA+GG genotype was 1.31 (P = 0.0154) in the total population and 1.77 (P = 0.0035) among subjects <60 yr of age. A significantly higher frequency of proteinuria was also observed among subjects with the GA+GG genotype. A transient transfection assay using MDCK cells indicated that the promoter activity of the G(2139) allele was higher than that of the A(2139) allele. Therefore, possession of the SCNN1A G(2139) allele significantly increased the risk of hypertension. A lower level of SCNN1A subunit expression among subjects with the AA genotype might lead to lower levels of sodium reabsorption in the kidney and might provide protection against the development of hypertension.
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PMID:Association of a sodium channel alpha subunit promoter variant with blood pressure. 1175 24

Abnormalities in steroid biosynthesis have been known for years to cause hypertension in some cases of congenital adrenal hyperplasia. In these patients hypertension usually accompanies a characteristic phenotype with abnormal sexual differentiation. Recently, the molecular basis of four forms of severe hypertension transmitted on an autosomal basis but without additional phenotypic features has been elucidated. All these conditions are characterized primarily by low plasma renin, normal or low serum potassium, and salt-sensitive hypertension, indicating an increased mineralocorticoid effect. These four disorders, the glucocorticoid remediable aldosteronism, the syndrome of apparent mineralocorticoid excess, the activating mutation of the mineralocorticoid receptor, and the Liddle syndrome are a consequence of either abnormal biosynthesis, metabolism, or action of steroid hormones, and are ultimately characterized by an overactivation of the epithelial sodium channel in distal renal tubules. Hyperactivity of this channel results in increased sodium reabsorption and volume expansion leading to an increase in blood pressure as well as potassium loss. With the advent of molecular biology in clinical practice, it has become evident that some genetic defect may present with a more discrete phenotype, with only moderate hypertension with or without hypokalemia as the sole feature. A search for genetic disorders of the mineralocorticoid axis should be an integral part of the diagnostic work-up, particularly in young adults with hypertension.
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PMID:Genetics of the mineralocorticoid system in primary hypertension. 1179 Feb 87

The epithelial sodium channel (ENaC) expressed in aldosterone-responsive epithelial cells of the kidney and colon plays a critical role in the control of sodium balance, blood volume, and blood pressure. In lung, ENaC has a distinct role in controlling the ionic composition of the air-liquid interface and thus the rate of mucociliary transport. Loss-of-function mutations in ENaC cause a severe salt-wasting syndrome in human pseudohypoaldosteronism type 1 (PHA-1). Gain-of-function mutations in ENaC beta and gamma subunits cause pseudoaldosteronism (Liddle's syndrome), a severe form of salt-sensitive hypertension. This review discusses genetically defined forms of a salt sensitivity and salt resistance in human monogenic diseases and in animal models mimicking PHA-1 or Liddle's syndrome. The complex interaction between genetic factors (ENaC mutations) and the risk factor (salt intake) can now be studied experimentally. The role of single-nucleotide polymorphisms (SNPs) in determining salt sensitivity or salt resistance in general populations is one of the main challenges of the post-genomic era.
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PMID:Epithelial sodium channel and the control of sodium balance: interaction between genetic and environmental factors. 1182 91

Monogenic or Mendelian forms of hypertension have ushered in a revolution in our knowledge. If we add information on syndromes involving low blood pressure, this knowledge base is doubled. Glucocorticoid-remediable aldosteronism, apparent mineralocorticoid excess, and mutations in the mineralocorticoid receptor gene have given us brilliant insights into mineralocorticoid-induced hypertension. The latter discovery has elucidated how mutations may modify the receptor sufficiently to allow erstwhile antagonists to have an agonistic action. The epithelial sodium channel (ENaC) has been elucidated. Gain-of-function mutations in the beta and gamma subunits of ENaC cause Liddle's syndrome. Loss-of-function mutations in all 3 subunits of ENaC cause hypotension (pseudohypoaldosteronism type I). Thus, all 3 subunits can be mutated, causing either hyper- or hypotension. Three loci have been described for Gordon's syndrome, pseudohypoaldosteronism type II; 2 members of the WNK (with no ly sine K) serine-threonine kinase family have recently been found to be responsible. Autosomal-dominant hypertension with brachydactyly features normal sodium and renin-angiotensin-aldosterone responses. The gene has been mapped to chromosome 12p. The condition is interesting because it may represent a novel neural form of hypertension. The elucidation of Mendelian blood pressure-regulatory disorders has been a resounding success.
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PMID:Monogenic forms of human hypertension. 1189 1

The epithelial sodium channel (ENaC) in the apical membrane of polarized epithelial cells is the rate-limiting step for Na entry into the cell; in series with the basolateral Na pump, it allows the vectorial transepithelial transport of Na ions. ENaC is expressed in different epithelia like the distal nephron or colon, and the airways epithelium. In the lung ENaC controls the composition and the amount of pulmonary fluid, whereas in the distal nephron ENaC under the control of aldosterone and vasopressin, is essential to adapt the amount of Na+ reabsorbed with the daily sodium intake. Activating mutations of ENaC cause severe disturbances of Na+ homeostasis leading to hypertension in human and in mouse models. Functional expression of ENaC in different cell systems allowed the identification of structural domains of the protein that are essential for channel function and/or modulation of channel activity. Site-directed mutations in specific domains of the channel protein lead to channel hyperactivity or channel loss of function. Knowledge about ENaC structure-function relationships opens new opportunities for development of pharmacological tools for controlling ENaC activity, such as channel activators of potential benefit in the treatment of pulmonary edema, or highly potent ENaC blockers with natriuretic effects.
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PMID:Structure function relationships of ENaC and its role in sodium handling. 1195 Jan 46


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