Rostafuroxin: an ouabain-inhibitor counteracting specific forms of hypertension.

An innovative approach to the therapy of essential hypertension (EH) and the related complications has been pursued by our group with the aim of defining specific genetic-molecular mechanisms underlying the disease in sub-sets of patients. This approach is anticipated to have a major effect on the clinical practice, diagnostics and development of new drugs able to selectively target such mechanisms. The final achievement is the definition of biomarkers for identifying patients who more likely should benefit for a given therapy both in terms of efficacy and reduction of the adverse reactions.

Rostafuroxin: an ouabain antagonist that corrects renal and vascular Na+-K+- ATPase alterations in ouabain and adducin-dependent hypertension.

The genetic and environmental heterogeneity of essential hypertension is responsible for the individual variability of antihypertensive therapy. An understanding of the molecular mechanisms underlying hypertension and related organ complications is a key aspect for developing new, effective, and safe antihypertensive agents able to cure the cause of the disease. Two mechanisms, among others, are involved in determining the abnormalities of tubular Na+ reabsorption observed in essential hypertension: the polymorphism of the cytoskeletal protein alpha-adducin and the increased circulating levels of endogenous ouabain (EO).

Antihypertensive compounds that modulate the Na-K pump.

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 2238: a new antihypertensive compound that modulates renal Na-K pump function without diuretic activity in Milan hypertensive rats.

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: a new antihypertensive compound that modulates the Na-K pump 'in vivo' and 'in vitro'.

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).

Genetic mapping and tailored antihypertensive therapy.

A tailored or individualized antihypertensive therapy represents the new frontier for the treatment of essential hypertension and its organ complications. Indeed, individual variation in the efficacy and tolerability of antihypertensive drugs in human essential hypertension is currently experienced by all physicians and is linked to the genetic heterogeneity of this multifactorial disease. Different approaches have been pursued in the attempt to correlate specific responsiveness to the therapy with phenotypic traits of the patients, but with poor results.

Evidence for an interaction between adducin and Na(+)-K(+)-ATPase: relation to genetic hypertension.

Adducin point mutations are associated with genetic hypertension in Milan hypertensive strain (MHS) rats and in humans. In transfected cells, adducin affects actin cytoskeleton organization and increases the Na(+)-K(+)-pump rate. The present study has investigated whether rat and human adducin polymorphisms differently modulate rat renal Na(+)-K(+)-ATPase in vitro.

PST 2238: A new antihypertensive compound that modulates Na,K-ATPase in genetic hypertension.

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.

PST2238: a new antihypertensive compound that antagonizes the long-term pressor effect of ouabain.

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.

Effects of intravenous endothelin on hemodynamics and cardiac contractility in conscious Milan normotensive rats.

The effects of endothelin-1 (ET-1) on hemodynamics and cardiac contractility were compared with the responses to angiotensin I (AI) and phenylephrine (PE) in Milan normotensive rats. Intravenous (i.v.