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)

A major biologically active Na,K-ATPase inhibitor in the mammalian body may be ouabain-like compound. We investigated the potential roles of circulating ouabain-like compound in the regulation of Na+ and K+ homeostasis in terms of Na+ and K+ distribution between the cells and the extracellular fluid (internal balance). First, we developed a population of rats immunized against ouabain to block the action of ouabain-like compound. We measured plasma and intracellular Na+ and K+ concentrations in skeletal muscle and determined Na+ (extracellular-to-intracellular concentration ratio) and K+ (intracellular-to-extracellular concentration ratio) gradients in immune rats. We examined also the ability to respond to hypertonic NaCl load in immune rats. Consistent lower plasma K+ levels and steeper Na+ and K+ gradients were observed in immune rats. K+ handling in response to hypertonic NaCl load was altered, and lower plasma K+ level was maintained in immune rats. Second, we used PST-2238, a newly developed anti-ouabain agent, to block the action of ouabain-like compound and examined its effect on plasma Na+ and K+ concentrations. Chronic administration of PST-2238 significantly lowered plasma K+ levels in rats with subtotal nephrectomy. These findings collectively suggest that ouabain-like compound may determine at least in part the internal Na+ and K+ distribution and the transmembrane cation gradients in vivo in rats.
Hypertension 1997 Sep
PMID:Role of ouabain-like compound in the regulation of transmembrane sodium and potassium gradients in rats. 932 18

The inhibition of the long-term pressor effect of ouabain may be useful for the therapy of essential hypertension. Here, for the first time, a selective inhibitor of the ouabain pressor effect is described. In vitro, 17beta-(3-furyl)-5beta-androstane-3beta, 14beta, 17alpha-triol (PST 2238) displaced ouabain from its binding sites on purified sodium, potassium ATPase enzyme (Na-K ATPase) (IC50 1.7 x 10(-6) M) without interacting with other receptors involved in blood pressure regulation or hormonal control. In cultured renal cells, incubation with ouabain (10(-10) to 10(-8) M) for 5 days stimulated the Na-K pump at Vmax, whereas PST 2238 showed the same effect at micromolar concentration. The ouabain-dependent increase in the Na-K pump rate was abolished by PST 2238 at concentrations from 10(-14) to 10(-9) M. In rats made hypertensive by chronic infusion of 50 microg/kg/day of ouabain, PST 2238 given p.o at very low doses (0.1-1 microg/kg/day for 4 weeks) abolished the increase in blood pressure and renal Na-K ATPase activity caused by ouabain. PST 2238 did not affect either blood pressure or renal Na-K ATPase activity in normotensive rats. In conclusion, PST 2238 is a very potent compound that normalizes both blood pressure and alterations in the Na-K pump caused by ouabain. Thus it represents the prototype of a new class of antihypertensive drugs that could be effective in forms of hypertension sustained by the concomitant increase of endogenous ouabain levels and alterations in the Na-K pump.
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PMID:PST2238: a new antihypertensive compound that antagonizes the long-term pressor effect of ouabain. 953 97

A genetic alteration in the adducin genes is associated with hypertension and up-regulation of the expression of renal Na, K-ATPase in Milan-hypertensive (MHS) rats, in which increased ouabain-like factor (OLF) levels are also observed. PST 2238, a new antihypertensive compound that antagonizes the pressor effect of ouabain in vivo and normalizes ouabain-dependent up-regulation of the renal Na-K pump, was evaluated for its ability to lower blood pressure and regulate renal Na,K-ATPase activity in MHS genetic hypertension. In this study, we show that PST 2238, given orally at very low doses (1 and 10 microg/kg for 5-6 weeks), reduced the development of hypertension in MHS rats and normalized the increased renal Na,K-ATPase activity and mRNA levels, whereas it did not affect either blood pressure or Na,K-ATPase in Milan-normotensive (MNS) rats. In addition, a similar antihypertensive effect was observed in adult MHS rats after a short-term treatment. In cultured rat renal cells with increased Na-K pump activity at Vmax due to overexpression of the hypertensive variant of adducin, 5 days of incubation with PST 2238 (10(-10-)-10(-9) M) lowered the pump rate to the level of normal wild-type cells, which in turn were not affected by the drug. In conclusion, PST 2238 is a very potent compound that in MHS rats reduces blood pressure and normalizes Na-K pump alterations caused by a genetic alteration of the cytoskeletal adducin. Because adducin gene mutations have been associated with human essential hypertension, it is suggested that PST 2238 may display greater antihypertensive activity in those patients carrying such a genetic alteration.
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PMID:PST 2238: A new antihypertensive compound that modulates Na,K-ATPase in genetic hypertension. 1002 44

A primary renal alteration due to a genetic polymorphism of the cytoskeletal protein adducin associated with an up-regulation of the renal Na-K pump and increased levels of ouabainlike factor (OLF) has been identified as a possible causes of hypertension in Milan rats (MHS). This adducin polymorphism has also been found to be associated with hypertension and the blood pressure changes related to renal Na handling in humans and increased OLF levels have been found in a relevant portion of hypertensive patients. Increased activity and expression of the Na-K pump has also been observed under the following 'in vitro' and 'in vivo' conditions: rat renal cells transfected with the 'hypertensive' variant of adducin, as compared with normal cells; normal rat renal cells incubated for 5 days with 10(-9) M ouabain and normal rats made hypertensive by a chronic infusion of low doses of ouabain (OS rats). An up-regulation of the Na-K pump seems therefore to be a common biochemical alteration induced both by an adducin polymorphism and/or chronic exposure to low concentrations of ouabain (or OLF). A new antihypertensive compound, PST 2238, that selectively antagonizes the pressor effect and the alteration of the renal Na-K pump induced both by an adducin polymorphism and OLF, is described. The ability of PST 2238 to lower blood pressure and normalize the Na-K pump both in MHS and OS rats suggests that this compound could be useful in the treatment of those forms of essential hypertension in which renal Na-handling alterations are associated with either adducin polymorphisms and/or increased OLF levels.
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PMID:PST 2238: a new antihypertensive compound that modulates the Na-K pump 'in vivo' and 'in vitro'. 1101 14

The search for endogenous digitalis led to the isolation of ouabain from blood adrenals and hypothalamus. Additional cardiotonic steroids of the cardenolid and bufadienolide type seem to circulate in blood. Adrenal cortical cells in tissue culture release ouabain upon addition of angiotensin 11. Ouabain in blood is increased in 50% of Caucasians with low renin hypertension. Analogous to other steroid hormones, cardiotonic steroid hormones in blood are bound to a specific cardiac glycoside binding globulin. Since ouabain induced growth of myocytes in tissue culture, this effect probably mediates by partial inhibition of the sodium pump and consecutive rise of intracellular Ca2+ the thickening of the wall of arteries and myocardium. PST 2238, an antagonist of cardiac glycoside function at the sodium pump, leads in rats under prolonged therapy to a decrease of hypertension. The finding of ouabain as a new adrenal hormone of the Na+ metabolism and of ouabain antagonists opens new possibilities of therapy of hypertension and congestive heart failure.
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PMID:Endogenous cardiotonic steroids. 1135 1

The search for endogenous digitalis has led to the isolation of ouabain as well as several additional cardiotonic steroids of the cardenolide and bufadienolide type from blood, adrenals, and hypothalamus. The concentration of endogenous ouabain is elevated in blood upon increased Na(+) uptake, hypoxia, and physical exercise. Changes in blood levels of ouabain upon physical exercise occur rapidly. Adrenal cortical cells in tissue culture release ouabain upon addition of angiotensin II and epinephrine, and it is thought that ouabain is released from adrenal cortex in vivo. Ouabain levels in blood are elevated in 50% of Caucasians with low-renin hypertension. Infusion over several weeks of low concentrations of ouabain, but not of digoxin, induces hypertension in rats. A digoxin-like compound, which has been isolated from human urine and adrenals, as well various other endogenous cardiac glycosides may counterbalance their actions within a regulatory framework of water and salt metabolism. Marinobufagenin, for instance, whose concentration is increased after cardiac infarction, may show natriuretic properties because it inhibits the alpha1 isoform of Na(+)/K(+)-ATPase, the main sodium pump isoform of the kidney, much better than other sodium pump isoforms. In analogy to other steroid hormones, cardiotonic steroid hormones in blood are bound to a specific cardiac glycoside binding globulin. The discovery of ouabain as a new adrenal hormone affecting Na(+) metabolism and the development of the new ouabain antagonist PST 2238 allows for new possibilities for the therapy of hypertension and congestive heart failure. This will lead in turn to a better understanding of the disease on a physiological and endocrinological level and of the action of ouabain on the cellular level as a signal that is transduced to the plasma membrane as well as to the cell nucleus.
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PMID:Endogenous cardiac glycosides, a new class of steroid hormones. 1202 81

PST 2238 is a new antihypertensive compound that is able to correct the molecular and functional alterations of the renal Na-K pump and the pressor effect associated with either alpha-adducin mutations or high circulating levels of endogenous ouabain (EO) in genetic and experimental rat models. Due to the close relationship between renal Na-K pump function and tubular Na reabsorption, PST 2238 was investigated to determine whether it is endowed with diuretic activity and consequently might trigger alterations of the renin-aldosterone system and the carbohydrate and lipid metabolism often associated with chronic diuretic therapy. In Milan hypertensive (MHS) rats, in which hypertension is genetically associated with alpha-adducin mutation, increased tubular Na reabsorption, and hyperactivation of the renal Na-K pump. PST 2238 reduced blood pressure and normalized the renal Na-K pump activity at oral doses of micro g/kg, but did not induce, either acutely or chronically, any diuretic activity or hormonal or metabolic alterations. In contrast, HCTZ, given to MHS rats orally at 40 mg/kg, although it displayed diuretic activity and reduced the renal Na-K pump activity, did not lower blood pressure and caused hyperactivation of the renin-aldosterone system, hypokaliemia, and hyperglycemia. The findings lead to the conclusion that PST 2238 is a new antihypertensive compound that normalizes the altered function of the renal Na-K pump associated with hypertension in rat models, but that it is devoid of diuretic activity and does not induce the diuretic-associated side effects.
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PMID:PST 2238: a new antihypertensive compound that modulates renal Na-K pump function without diuretic activity in Milan hypertensive rats. 1245 21

A primary impairment of the kidney sodium excretion has been documented both in hypertensive patients (EH) and genetic animal models (Milan hypertensive rat [MHS]) carrying mutations of the cytoskeletal protein adducin and/or increased plasma levels of endogenous ouabain (EO). Ouabain (OU) itself induces hypertension in rats and both OU and mutated adducin activate the renal Na/K-ATPase function both in vivo and in cultured renal cells (NRK). A new antihypertensive agent, PST 2238, able to selectively interact with these alterations has been developed. PST lowers blood pressure (BP) by normalizing the expression and activity of the renal Na-K pump selectively in those rat models carrying the adducin mutation (MHS) and/or increased EO levels (OS) at oral doses of 0.1-10 micro g/kg. In NRK cells either transfected with mutated adducin or incubated with 10(-9) M OU, PST normalizes the Na-K pump activity. Recently, an association between EO and cardiac complications has been observed in both EH and rat models consistent with a prohypertrophic activity of OU. OS rats showed a 10% increase of left ventricle and kidney weights as compared with controls, and PST 2238 (1 micro g/kg OS) prevented both ventricle and renal hypertrophy. This effect was associated with the ability of PST to antagonize the OU-dependent activation of growth-related genes, in the membrane subdomains of caveolae. In conclusion, PST is a new antihypertensive agent that may prevent cardiovascular complications associated with hypertension through the selective modulation of the Na-K pump function.
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PMID:Antihypertensive compounds that modulate the Na-K pump. 1276 20

In addition to inhibition of the Na-K ATPase, ouabain activates a signal transduction function, triggering growth and proliferation of cultured cells even at nanomolar concentrations. An isomer of ouabain (EO) circulates in mammalians at subnanomolar concentrations, and increased levels are associated with cardiac hypertrophy and hypertension. We present here a study of cardiac and renal hypertrophy induced by ouabain infused into rats for prolonged periods and relate this effect to the recently described ouabain-induced activation of the Src-EGFr-ERK signaling pathway. Ouabain infusion into rats (15 microg/kg/day for 18 weeks) doubled plasma ouabain levels from 0.3 to 0.7 nm and increased blood pressure by 20 mm Hg (p < 0.001), cardiac left ventricle (+11%, p < 0.05), and kidney weight (+9%, p < 0.01). These effects in vivo are associated with a significant enrichment of alpha1, beta1, gammaa Na-K ATPase subunits together with Src and EGFr in isolated renal caveolae membranes and activation of ERK1/2. In caveolae, direct Na-K ATPase/Src interactions can be demonstrated by co-immunoprecipitation. The interaction is amplified by ouabain, at a high affinity binding site, detectable in caveolae but not in total rat renal membranes. The high affinity site for ouabain is associated with Src-dependent tyrosine phosphorylation of rat alpha1 Na-K ATPase. The antihypertensive compound, PST 2238, antagonized all ouabain-induced effects at 10 microg/kg/day in vivo or 10(-10)-10(-8) m in vitro. These findings provide a molecular mechanism for the in vivo pro-hypertrophic and hypertensinogenic activity of ouabain, or by analogy those of EO in humans. They also explain the pharmacological basis for PST 2238 treatment.
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PMID:Organ hypertrophic signaling within caveolae membrane subdomains triggered by ouabain and antagonized by PST 2238. 1516 29

Sigma-Tau is developing PST-2238, the prototype of a new class of hypertensive steroidal ATPase modulators, for the potential treatment of hypertension [169159]. Phase II trials were ongoing in early 2002 [441505].
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PMID:PST-2238 Sigma-Tau. 1557 Apr 67


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