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:C0235394 (wasting)
8,040 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

TWO FORMS: Pseudohypoaldosteronisms (PHA) are characterized by end-organ resistance to aldosterone inducing hyperkalemia and hyperaldosteronism. There are two forms of PHA classified according to the level of blood pressure with either hypotension (Type 1 PHA or PHA 1) or hypertension (Type 2 PHA or PHA 2). PHA 1: The association with hypotension and high renin level (PHA 1) is responsible for type 4 tubular acidosis and should suggest congenital or acquired excessive salt loss. Acquired forms are associated with salt wasting of urinary (nephropathy) or digestive (colon resection + ileostomy) origin. Congenital neonatal forms are either sporadic or autosomal dominant or recessive. Sporadic or autosomal dominant forms are caused by mutations in the mineralocorticoid receptor gene and generally remit with age. Autosomal recessive forms are caused by mutations in the gene encoding the amiloride-sensitive sodium channel and are clinically more severe with pulmonary symptoms. PHA 2: The association of hyperkalemia/hyperaldosteronism with high blood pressure should suggest PHA 2 or Gordon's syndrome, still called familial hyperkalemic hypertension. This form of low-renin hypertension is caused by mutations in the WNK genes (WNK 1 for PHA 2C and WNK 4 for PHA 2B), but other genes located on different loci are also involved. These WNK kinases constitute a new signalisation pathway that would regulate blood pressure and homeostasy of Na+, K+, H+ and Cl- ions.
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PMID:[Pseudo-hypoaldosteronisms]. 1502 8

Pseudohypoaldosteronism type 1 (PHA1) is a rare congenital disease inherited in either an autosomal-recessive or an autosomal-dominant trait. The autosomal-dominant form manifests with renal salt loss in infancy and a gradual improvement with advancing age. PHA1 presents with potential life-threatening salt wasting and failure to thrive in early infancy. Autosomal-dominant forms of PHA1 are often caused by heterozygous mutations of the MR gene coding for the mineralocorticoid receptor. Whether heterozygous mutations of the MR gene impair biological function as a result of haplo-insufficiency or due to a dominant-negative effect needs further clarification. We report a case of a renal form of PHA1 in a Turkish family. A heterozygous nonsense mutation c3055C>T (R947X) in exon 9 of the MR gene leading to a premature stop codon was identified in the index patient. The truncated receptor is free of aldosterone binding. The segregation analysis revealed the identical mutation in the patient's father, who never showed any symptoms of PHA. This shows the incomplete penetrance of the phenotype, although a mild salt loss might have been overlooked in the father's childhood.
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PMID:Autosomal-dominant pseudohypoaldosteronism type 1 in a Turkish family is associated with a novel nonsense mutation in the human mineralocorticoid receptor gene. 1512 34

Type I pseudohypoaldosteronism (PHA1) is a rare form of mineralocorticoid resistance characterized by neonatal renal salt wasting and failure to thrive. Typical biochemical features include high levels of plasma aldosterone and renin, hyponatremia and hyperkalemia. Different mutations of the human mineralocorticoid receptor (hMR) gene have been identified in subjects affected by the autosomal dominant or sporadic form of the disease. Our laboratory has investigated a large number of subjects with familial and sporadic PHA1. Several different mutations have been detected, which are localized in different coding exons of the hMR gene. These mutations either create truncated proteins, either affect specific amino acids involved in receptor function. In this paper, we review hMR mutations described to date in PHA1 and their functional characterization. We discuss the absence of mutations in some kindreds and the role of precise phenotypic and biological examination of patients to allow for identification of other genes potentially involved in the disease.
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PMID:Inactivating mutations of the mineralocorticoid receptor in Type I pseudohypoaldosteronism. 1513 10

Mineralocorticoid resistance, also known as type I pseudohypoaldosteronism (PHA1), is a rare inherited disease characterized by salt wasting, dehydration and failure to thrive in the newborn. Two different forms of the disease, which present with either systemic or exclusively renal resistance to aldosterone, are associated with two different modes of inheritance. The generalized, recessive form of the disease is due to abnormalities in the epithelial sodium channel, and inactivating mutations of the mineralocorticoid receptor are responsible for the autosomal dominant form of PHA1 and some sporadic cases. Here, we review the role of aldosterone in the maintenance of normal sodium balance and discuss the different forms of mineralocorticoid resistance and the underlying genetic abnormalities. Although important progress has been made in the past years, there remain several families in whom the genetic defect has not been identified. Precise clinical diagnosis and establishment of intermediate phenotypes should be helpful for identifying other genes involved in PHA1 and gaining new insight into the regulation of sodium homeostasis.
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PMID:Mineralocorticoid resistance. 1535 79

Pseudohypoaldosteronism type 1 (PHA1), a rare disorder of infancy, presents with potential life-threatening salt wasting and failure to thrive. Thus far, PHA1 has been attributed to mutations affecting the mineralocorticoid receptor or any of the three subunits assembling the amiloride-sensitive epithelial sodium channel (ENaC). However, a lot of patients with a phenotype resembling PHA1, show no defects in these proteins, making it likely that further genes are involved in the aetiology of this disease. Recent studies have elucidated additional participants (alpha-spectrin and members of the families of transmembrane serine proteases, ubiquitin-protein ligases, and serum- and glucocorticoid-regulated kinases, respectively) regulating and/or interacting in the complex pathway of sodium retention in the amiloride-sensitive distal nephron. This led us to investigate whether PHA1 can also be associated with mutations in some of these genes. Our data suggest that at least the prostasin gene might be excluded as a causative locus.
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PMID:Pseudohypoaldosteronism type 1 and the genes encoding prostasin, alpha-spectrin, and Nedd4. 1554 82

Glucocorticoid-remediable aldosteronism (GRA) is a monogenic form of human hypertension that predisposes to cerebral hemorrhage. As a result of a chimeric gene duplication, aldosterone is ectopically synthesized in the cortisol-secreting zona fasciculata of the adrenal gland under the control of adrenocorticotropin (ACTH). Hypertension frequently has its onset during childhood and is usually refractory to standard anti-hypertensives such as ACE inhibitors and beta-blockers. Hypokalemia can develop in those treated with a potassium-wasting diuretic, but random potassium levels are usually normal. Diagnosis has been facilitated by the availability of a genetic test. Suppression of ACTH release with exogenous dexamethasone is a useful diagnostic and therapeutic strategy. Treatment with the mineralocorticoid receptor antagonists spironolactone and epleronone is also efficacious. The diagnosis of GRA facilitates directed therapies and screening of at-risk individuals and kindreds.
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PMID:Glucocorticoid-remediable aldosteronism. 1576 39

Several monogenic hypertensive disorders are caused by genetic mutations leading to the deranged function and/or regulation of renal tubular NaCl transport, such as mutations of the renal epithelial Na+ channel (ENaC) in Liddle syndrome, of the kinase WNK1 (with no K) in Gordon syndrome, and of the mineralocorticoid receptor, or of 11beta-hydroxysteroid dehydrogenase. Moreover, excessive formation of aldosterone in glucocorticoid-remediable hypertension leads to severe hypertension. Conversely, impaired function of the Na+,K+,2Cl- cotransporter (NKCC2), the renal outer medullary K+ channel (ROMK1), and the renal epithelial Cl- channel ClCKb/Barttin causes Bartter syndrome and defective Na+,Cl+ cotransporter (NCCT) Gitelman syndrome, salt-wasting disorders with hypotension. These monogenic disorders are rare, but illustrate the significance of renal tubular transport in blood pressure regulation. There is little doubt, however, that deranged renal salt reabsorption significantly contributes to essential hypertension polymorphisms of several genes participating in the regulation of renal Na+ transport have been shown to be associated with blood pressure and prevalence of hypertension. Two common genes will be discussed in more detail. The first encodes the renal Cl- channel ClCKb. A gain-of-function mutation of ClCKb, increasing channel activity by 7- to 20-fold is found in approximately 20% of unselected Caucasians and 40% of an unselected African population. The second common gene variant (prevalence, 3%-5% in unselected Caucasians), to be discussed in more detail, affects the serum and glucocorticoid inducible kinase SGK1, a kinase upregulated by mineralocorticoids and enhancing the activity of ENaC, ROMK, and Na+/K+ATPase. Both gene variants are associated with slightly increased blood pressure. SGK1 further stimulates the glucose transporter SGLT1, and the SGK1 gene variant correlates, in addition, with increased body mass index.
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PMID:Renal tubular transport and the genetic basis of hypertensive disease. 1598 Sep 41

Autosomal dominant pseudohypoaldosteronism type 1 (adPHA1) is a rare condition that is characterized by renal resistance to aldosterone, with salt wasting, hyperkalemia, and metabolic acidosis. It is thought of as a mild disorder; affected children's symptoms respond promptly to salt therapy, and treatment is not required after childhood. Mutations in the mineralocorticoid receptor gene (MR) cause adPHA1, but the long-term consequences of MR deficiency in humans are not known. Herein are described six novel adPHA1-causing MR mutations (four de novo) and evidence that haploinsufficiency of MR is sufficient to cause adPHA1. Furthermore, genotype-phenotype correlation is reported in a large adPHA1 kindred. A number of cases of neonatal mortality in infants who were at risk for adPHA1 were identified; coupled with the frequent identification of de novo mutations in affected individuals, this suggests that the seemingly benign adPHA1 may have been a fatal neonatal disorder in previous eras, preventing propagation of disease alleles. In contrast, it is shown that adult patients with adPHA1 are clinically indistinguishable from their wild-type relatives except for presumably lifelong elevation of renin, angiotensin II, and aldosterone levels. These data highlight the critical role of MR in the maintenance of salt homeostasis early in life and illuminate the sodium dependence of pathologic effects of renin and angiotensin II. They furthermore argue that nongenomic effects of aldosterone play no significant role in the long-term development of cardiovascular disease.
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PMID:Autosomal dominant pseudohypoaldosteronism type 1: mechanisms, evidence for neonatal lethality, and phenotypic expression in adults. 1661 13

Congestive heart failure (CHF) is more than a failing heart and salt-avid state. Also present is a systemic illness which features oxidative stress in diverse tissues, a proinflammatory phenotype, and a wasting of soft tissue and bone. Reactive oxygen and nitrogen species contribute to this illness and the progressive nature of CHF. Aldosteronism, an integral component of the neurohormonal profile found in CHF, plays a permissive role in leading to an altered redox state. Because of augmented urinary and fecal excretion of Ca(2+) and Mg(2+) and consequent decline in plasma-ionized [Ca(2+)](o) and [Mg(2+)](o) that accompanies aldosteronism, parathyroid glands release parathyroid hormone (PTH) in an attempt to restore Ca(2+) and Mg(2+) homeostasis; this includes bone resorption. However, PTH-mediated intracellular Ca(2+) overloading, considered a Ca(2+) paradox, leads to oxidative stress. This can be prevented by: spironolactone, an aldosterone receptor antagonist that rescues urinary and fecal cation losses; parathyroidectomy; amlodipine, a Ca(2+) channel blocker; N-acetylcysteine, an antioxidant. In addition to the role played by aldosteronism in the appearance of secondary hyperparathyroidism is the chronic use of a loop diuretic, which further enhances urinary Ca(2+) and Mg(2+) excretion, and reduced Ca(2+) stores associated with hypovitaminosis D. This broader perspective of CHF and the ever increasing clinical relevance of divalent cations and oxidative stress raise the question of their potential management with macro- and micronutrients. An emerging body of evidence suggests the nutritional management of CHF offers an approach that will be complementary to today's pharmaceutical-based strategies.
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PMID:Oxidative stress in aldosteronism. 1663 Nov 48

Aldosterone plays a key role in electrolyte balance and blood pressure regulation. Type 1 pseudohypoaldosteronism (PHA1) is a primary form of mineralocorticoid resistance characterized in the newborn by salt wasting, hyperkalemia, and failure to thrive. Inactivating mutations of the mineralocorticoid receptor (MR; NR3C2) are responsible for autosomal dominant and some sporadic cases of PHA1. The question as to whether other genes may be involved in the disease is of major importance because of the potential life-threatening character of the disease, the potential cardiovascular effects of compensatory aldosterone excess, and the role of the mineralocorticoid system in human hypertension. We present the first comprehensive study seeking nucleotide substitutions in coding regions, intron-exon junctions, and untranslated exons, as well as for large deletions. A total of 22 MR gene abnormalities were found in 33 patients. We demonstrate that MR mutations are extremely frequent in PHA1 patients classified according to aldosterone and potassium levels and give indications for accurate clinical and biological investigation. In our study the possibility of a genocopy exists in three PHA1 kindreds. The other patients without MR mutations might have different diseases resembling to PHA1 in the neonatal period, which could be identified by extensive clinical and functional exploration.
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PMID:Mineralocorticoid receptor mutations are the principal cause of renal type 1 pseudohypoaldosteronism. 1697 28


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