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)

Mutations in beta or gamma subunit of the epithelial sodium channel (ENaC) have been found to cause a hereditary form of human hypertension, Liddle syndrome. Most of the mutations reported are either nonsense mutations or frame shift mutations which would truncate the cytoplasmic carboxyl terminus of the beta or gamma subunits of the channel, suggesting that these domains are important for the normal regulation of this channel. We sequenced ENaC in a family with Liddle syndrome and found a missense mutation in beta subunit which predicts substitution of Tyr by His at codon 618, 2 bp downstream from a missense mutation (P616L) that has been reported recently. Presence of this mutation correlates with the clinical manifestations (hypertension, hypokalemia, suppressed aldosterone secretion) in this kindred. Functional expression studies in the Xenopus oocytes revealed constitutive activation of the Y618H mutant indistinguishable from that observed for the deletion mutant (R564stop) identified in the original pedigree of Liddle. Our data suggest that the region between Pro616 and Tyr618 is critically important for regulation of ENaC activity.
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PMID:Liddle disease caused by a missense mutation of beta subunit of the epithelial sodium channel gene. 860 45

The amiloride-sensitive epithelial sodium channel (ENaC) plays a major role in sodium transport in kidney and other epithelia, and in regulating blood pressure. The channel is composed of three subunits (alphabetagamma) each containing two proline-rich sequences (P1 and P2) at its C-terminus. The P2 regions in human beta and gammaENaC, identical to the rat betagammarENaC, were recently shown to be deleted in patients with Liddle's syndrome (a hereditary form of hypertension), leading to hyperactivation of the channel. Using a yeast two-hybrid screen, we have now identified the rat homologue of Nedd4 (rNedd4) as the binding partner for the P2 regions of beta and gammarENaC. rNedd4 contains a Ca2+ lipid binding (CaLB or C2) domain, three WW domains and a ubiquitin ligase (Hect) domain. Our yeast two-hybrid and in vitro binding studies revealed that the rNedd4-WW domains mediate this association by binding to the P2 regions, which include the PY motifs (XPPXY) of either betarENaC (PPPNY) or gammarENaC (PPPRY). SH3 domains were unable to bind these sequences. Moreover, mutations to Ala of Pro616 or Tyr618 within the betarENaC P2 sequence (to PPANY or PPPNA, respectively), recently described in Liddle's patients, led to abrogation of rNedd4-WW binding. Nedd4-WW domains also bound to the proline-rich C-terminus (containing the sequence PPPAY) of alpharENaC, and endogenous Nedd4 co-immunoprecipitated with alpharENaC expressed in MDCK cells. These results demonstrate that the WW domains of rNedd4 bind to the PY motifs deleted from beta or gammaENaC in Liddle's syndrome patients, and suggest that Nedd4 may be a regulator (suppressor) of the epithelial Na+ channel.
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PMID:WW domains of Nedd4 bind to the proline-rich PY motifs in the epithelial Na+ channel deleted in Liddle's syndrome. 866 44

The epithelial amiloride-sensitive sodium channel (ENaC) controls transepithelial Na+ movement in Na(+)-transporting epithelia and is associated with Liddle syndrome, an autosomal dominant form of salt-sensitive hypertension. Detailed analysis of ENaC channel properties and the functional consequences of mutations causing Liddle syndrome has been, so far, limited by lack of a method allowing specific and quantitative detection of cell-surface-expressed ENaC. We have developed a quantitative assay based on the binding of 125I-labeled M2 anti-FLAG monoclonal antibody (M2Ab*) directed against a FLAG reporter epitope introduced in the extracellular loop of each of the alpha, beta, and gamma ENaC subunits. Insertion of the FLAG epitope into ENaC sequences did not change its functional and pharmacological properties. The binding specificity and affinity (Kd = 3 nM) allowed us to correlate in individual Xenopus oocytes the macroscopic amiloride-sensitive sodium current (INa) with the number of ENaC wild-type and mutant subunits expressed at the cell surface. These experiments demonstrate that: (i) only heteromultimeric channels made of alpha, beta, and gamma ENaC subunits are maximally and efficiently expressed at the cell surface; (ii) the overall ENaC open probability is one order of magnitude lower than previously observed in single-channel recordings; (iii) the mutation causing Liddle syndrome (beta R564stop) enhances channel activity by two mechanisms, i.e., by increasing ENaC cell surface expression and by changing channel open probability. This quantitative approach provides new insights on the molecular mechanisms underlying one form of salt-sensitive hypertension.
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PMID:Cell surface expression of the epithelial Na channel and a mutant causing Liddle syndrome: a quantitative approach. 898 18

The amiloride-sensitive epithelial sodium channel (ENaC) controls sodium reabsorption in the distal nephron. Its activity is under the control of aldosterone. The genes encoding ENaC have been identified and revealed an heteromultimeric structure of the protein composed of three homologous alpha beta gamma subunits. The role of ENaC in the pathogenesis of hypertension has been demonstrated by complete linkage of the gene encoding the beta and gamma subunits to an autosomal form of salt-sensitive hypertension. Analysis of these genes from patients affected by a sever hypertension (Liddle syndrome) identified mutations in the carboxy-terminus of ENaC subunits causing channel hyperactivity, consistent with increased sodium reabsorption in the distal nephron. Pseudohypoaldosteronism type-1 (PHA-1) represents a hereditary form of salt-loosing nephropathy characterized by hyperkalemia, dehydration and metabolic acidosis. Analysis of genes encoding ENaC subunits in patients affected by PHA-1 identified different types of mutations causing loss of function or a decrease in ENaC channel activity. These studies demonstrated the critical role of ENaC channel in the maintenance salt and extracellular fluid balance, and regulation of blood pressure.
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PMID:The ENaC channel as the primary determinant of two human diseases: Liddle syndrome and pseudohypoaldosteronism. 898 44

The amiloride-sensitive, epithelial sodium channel (ENaC) is composed of at least three subunits (alpha, beta, and gamma). This study demonstrates that the ENaC beta subunit gene is expressed in human B cell lines, peripheral blood lymphocytes, and lymph node at the mRNA level. Further, this study shows that both wild-type and mutated alleles of the ENaC beta subunit gene are transcribed in human B lymphocytes derived from an individual affected with Liddle's syndrome, an autosomal dominant form of human hypertension.
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PMID:Expression of the amiloride-sensitive sodium channel beta subunit gene in human B lymphocytes. 901 57

Activity of the epithelial sodium channel (ENaC) is a key determinant of sodium homeostasis and blood pressure. Liddle's syndrome, an inherited form of hypertension, is caused by mutations that delete or alter PY domains in the carboxyl termini of beta or gamma ENaC subunits, leading to increased channel activity. In this study we investigated the mechanism of this effect by analysis of wild-type and mutant ENaC activity in Xenopus oocytes. By inhibiting insertion of new channels into the plasma membrane with brefeldin A, we demonstrate that the half-life of the activity of channels containing Liddle's mutations is markedly prolonged compared with wild-type channels (t1/2 of 30 h in mutant versus 3.6 in wild-type, p < 0.001). We investigated the involvement of clathrin-coated pit-mediated endocytosis by co-expressing a dominant-negative dynamin mutant with wild-type ENaC in oocytes. Expression of this specific inhibitor of endocytosis leads to a large increase in the activity of wild-type channels, demonstrating that normal turnover of this channel is through the clathrin-coated pit pathway. In contrast, co-expression of Liddle's mutations and dynamin mutants leads to no further increase in channel activity, consistent with one of the effects of Liddle's mutations being the loss of endocytosis of these channels. These findings demonstrate the normal mechanism of turnover of ENaC from the cell surface and demonstrate a mechanism that can account for the increased number of channels in the plasma membrane seen in Liddle's syndrome.
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PMID:The activity of the epithelial sodium channel is regulated by clathrin-mediated endocytosis. 932 69

Mutations of the last exon of the beta subunit of the amiloride-sensitive epithelial Na+ channel (betaENaC) can lead to Liddle's syndrome, a rare monogenic form of hypertension. The objective of this study was to test whether more subtle changes of betaENaC could be implicated in essential hypertension. After determination of the betaENaC coding gene organization (12 exons spanning 23.5 kb), a systematic screening of the last exon of the gene was performed in 525 subjects (475 whites, 50 Afro-Caribbeans), all probands of hypertensive families. This search was extended to the remaining 11 exons in a subset of 101 probands with low-renin hypertension. Seven amino acid changes were detected: G589S, T594M, R597H, R624C, E632G (last exon), G442V, and V434M (exon 8). These genetic variants were more frequent in subjects of African origin (44%) than in whites (1%). The functional properties of the variants were analyzed in Xenopus oocytes by two independent techniques, ie, electrophysiology and 22Na+ uptake. Small but not significant differences were observed between the variants and wild type. The clinical evaluation of the family bearing the G589S variant, which provided the highest relative ENaC activity, did not show a cosegregation between the mutation and hypertension. The present study illustrates the difficulty in establishing a relation of causality between a susceptibility gene and hypertension. Furthermore, it does not favor a substantial role of the betaENaC gene in essential hypertension.
Hypertension 1998 Jul
PMID:Genetic analysis of the beta subunit of the epithelial Na+ channel in essential hypertension. 967 49

We describe a family with Liddle's disease caused by a novel mutation of the beta subunit of the human epithelial sodium channel (ENaC). A 15-year-old Japanese female was referred to our outclinic because of hypertension. The physical examination showed no abnormal findings except mild hypertension, but the laboratory data revealed low levels of plasma renin activity, plasma aldosterone and serum potassium. A comprehensive analysis of steroid hormones showed only high levels of urinary free cortisol and 17-hydroxycorticosteroids. During loading tests, blood pressure and serum potassium responded well to triamterene and slightly to spironolactone, but did not respond to dexamethasone. In addition, the normal ratio of tetrahydrocortisol plus 5alpha-tetrahydrocortisol to tetrahydrocortisone in a 24 h urinary excretion test strongly suggested a diagnosis of Liddle's disease rather than apparent mineralocorticoid excess syndrome. DNA sequence analysis of members of this family revealed a single cytosine base insertion at Arg-597 of the beta human ENaC in the proband and her mother, leading to a loss of the last 34 amino acids from the normally encoded protein as the result of a frameshift. We conclude that a de novo cytosine insertion into the final exon of the C-terminus of the beta human ENaC is responsible for Liddle's disease in this Japanese family.
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PMID:Identification of a single cytosine base insertion mutation at Arg-597 of the beta subunit of the human epithelial sodium channel in a family with Liddle's disease. 967 38

Baroreceptor nerve endings detect acute fluctuations in arterial pressure. We tested the hypothesis that members of the DEG/ENaC family of cation channels, which are responsible for touch sensation in Caenorhabditis elegans, may be components of the baroreceptor mechanosensor. We found the gamma subunit of ENaC localized to the site of mechanotransduction in baroreceptor nerve terminals innervating the aortic arch and carotid sinus. A functional role for DEG/ENaC members was suggested by blockade of baroreceptor nerve activity and baroreflex control of blood pressure by an amiloride analog that inhibits DEG/ENaC channels. These data suggest that ENaC subunits may be components of the baroreceptor mechanotransducer and pave the way to a better definition of mechanisms responsible for blood pressure regulation and hypertension.
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PMID:A molecular component of the arterial baroreceptor mechanotransducer. 988 13

Liddle's disease is an autosomal dominant form of human hypertension resulting from a basal activation of amiloride-sensitive Na+ channels (ENaC). This channel activation is produced by mutations in the beta- and/or gamma-carboxy-terminal cytoplasmic tails, in many cases causing a truncation of the last 45-76 amino acids. In this study, we tested two hypotheses; first, beta- and gamma-ENaC C-terminal truncation mutants (beta DeltaC and gamma DeltaC), in combination with the wild-type alpha-ENaC subunit, reproduce the Liddle's phenotype at the single channel level, i.e., an increase in open probability (Po), and second, these C-terminal regions of beta- and gamma-ENaC act as intrinsic blockers of this channel. Our results indicate that alpha beta DeltaC gamma DeltaC-rENaC, incorporated into planar lipid bilayers, has a significantly higher single channel Po compared to the wild-type channel (0.85 vs 0.60, respectively), and that 30-mer synthetic peptides corresponding to the C-terminal region of either beta- or gamma-ENaC block the basal-activated channel in a concentration-dependent fashion. Moreover, there was a synergy between the peptides for channel inhibition when added together. We conclude that the increase in macroscopic Na+ reabsorption that occurs in Liddle's disease is at least in part due to an increase in single channel Po and that the cytoplasmic tails of the beta- and gamma-ENaC subunits are important in the modulation of ENaC activity.
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PMID:Peptide inhibition of ENaC. 989 Sep 17


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