Endogenous ouabain and cardiomyopathy in dialysis patients.

BACKGROUND AND METHODS: Endogenous ouabain (EO) is markedly raised in patients with chronic renal failure. As high EO induces myocardial cell hypertrophy in vitro and it is associated with left ventricular hypertrophy (LVH) in essential hypertensives and in patients with heart failure we investigated the relationship between plasma EO and LV mass and geometry in 156 end-stage renal disease (ESRD) patients. EO was measured by a specific radioimmunoassay and by mass spectrometry. RESULTS: On univariate analysis, plasma EO was directly related to LV mass (r = 0.26, P = 0.001) and LV end diastolic volume (r = 0.25, P = 0.002) and these relationships held true in multiple linear regression models including a series of potential confounders. Patients with eccentric LVH (n = 41, i.e. 26%) had the highest plasma levels of EO when compared to patients with other patterns of LV geometry (P = 0.001). Furthermore, plasma EO had diagnostic value for eccentric LVH because the area under the corresponding ROC curve (68%) was significantly greater (P = 0.002) than the threshold of diagnostic indifference. In this analysis, the sensitivity was 91% and the specificity was 36%. The positive predictive value was 33% but EO had a remarkably high negative predictive value (92%) for the exclusion of eccentric hypertrophy. CONCLUSIONS: In ESRD patients, plasma EO is independently associated with LV mass, LV volume and eccentric LVH. The results of this study are compatible with the hypothesis that EO is involved in alterations of LV mass in ESRD.

Plasma ouabain-like factor during acute and chronic changes in sodium balance in essential hypertension.

An ouabain-like factor has been implicated repeatedly in salt-sensitive hypertension as a natriuretic agent. However, the response of plasma ouabain-like factor to acute and chronic variation of body sodium is unclear. We studied 138 patients with essential hypertension who underwent an acute volume expansion/contraction maneuver (2 days) and 20 patients who entered a blind randomized crossover design involving chronically controlled sodium intake and depletion (170 to 70 mmol/d; 2 weeks each period). In both studies, plasma levels of ouabain-like factor were higher during sodium depletion (acute: 338.8+/-17.4 and 402.7+/-22.8 pmol/L for baseline and low sodium, respectively, P<0.01; chronic: 320.4+/-32.0 versus 481.0+/-48.1 pmol/L, P=0.01). No significant change in plasma ouabain-like factor was observed after a 2-hour saline infusion (333.4+/-23.9 pmol/L) or controlled sodium (402.1+/-34.9 pmol/L). When patients were divided into salt-sensitive or salt-resistant groups, no differences in plasma ouabain-like factor were observed in the 2 groups at baseline or in response to the 2 protocols: salt resistant (n=69, 340.1+/-25.9 pmol/L) versus salt sensitive (n=69, 337.4+/-23.6 pmol/L) and chronic salt resistant (n=11, 336.0+/-53.2) versus salt sensitive (n=9, 301.1+/-331.4 pmol/L). However, circulating ouabain-like factor was increased by sodium depletion in both groups. These results demonstrate that circulating ouabain-like factor is raised specifically by maneuvers that promote the loss of body sodium. Acute expansion of body fluids with isotonic saline is not a stimulus to plasma ouabain-like factor. Moreover, basal levels of plasma ouabain-like factor do not differ among patients with salt-sensitive or salt-resistant hypertension. Taken together, these new results suggest that ouabain-like factor is involved in the adaptation of humans to sodium depletion and argue against the hypothesis that ouabain-like factor is a natriuretic hormone.

Synaptic plasticity in sympathetic ganglia from acquired and inherited forms of ouabain-dependent hypertension.

Altered sympathetic nervous system activity has been implicated often in hypertension. We examined short-term potentiation [posttetanic potentiation (PTP)] and long-term potentiation (LTP) in the isolated superior cervical ganglia (SCG) from Sprague-Dawley (SD) rats given vehicle, digoxin, or ouabain by subcutaneous implants as well as in animals with ouabain-induced hypertension (OHR), and inbred Baltimore ouabain-resistant (BOR) and Baltimore ouabain-sensitive (BOS) strains of rats. Postganglionic compound action potentials (CAP) were used to determine PTP and LTP following a tetanic stimulus (20 Hz, 20 s). Baseline CAP magnitude was greater in ganglia from OHR than in vehicle-treated SD rats before tetanus, but the decay time constant of PTP was significantly decreased in OHR and in rats infused with digoxin that were normotensive. In hypertensive BOS and OHR, the time constants for the decay of both PTP and LTP (t(L)) were increased and correlated with blood pressure (slope = 0.15 min/mmHg, r = 0.52, P < 0.047 and 6.7 min/mmHg, r = 0.906, P < 0.0001, respectively). In BOS and OHR, t(L) (minutes) was 492 +/- 40 (n = 7) and 539 +/- 41 (n = 5), respectively, and differed (P < 0.05) from BOR (257 +/- 48, n = 4), SD vehicle rats (240 +/- 18, n = 4), and captopril-treated OHR (370 +/- 52, n = 5). After the tetanus, the CAP at 90 min in BOS and OHR SCG declined less rapidly vs. SD vehicle rats or BOR. Captopril normalized blood pressure and t(L) in OHR. We conclude that the duration of ganglionic LTP and blood pressure are tightly linked in ouabain-dependent hypertension. Our results favor the possibility that enhanced duration of LTP in sympathetic neurons contributes to the increase in sympathetic nerve activity in ouabain-dependent hypertension and suggest that a captopril-sensitive step mediates the link of ouabain with LTP.

Biological implication of conformational flexibility in ouabain: observations with two ouabain phosphate isomers.

Ouabain is a highly polar and unusually potent sodium pump inhibitor that possesses uncommon conformational flexibility in its steroid A-ring moiety. The biological significance of ring flection in the cardiotonic steroids has not been described. Accordingly, we prepared ouabain 1,5,19- and 1,11,19-phosphates. The former stabilizes the steroid A-ring chair conformation and the latter locks the A-ring in the half-boat conformation and decreases flection of the ABC-ring moiety. Using a dog kidney cell line (MDCK) in a pH microphysiometer (Cytosensor), ouabain and its 1,5,19-phosphate at 10(-5) M reduced the rate of extracellular acidification by 15-20%. During inhibitor washout, the rate of recovery from the 1,5,19-phosphate analogue was approximately 3 times faster than ouabain. The 1,11,19-phosphate at 10(-4) M elicited a weak ( approximately 7%) response, and the effects reversed approximately 44-fold faster than ouabain. Studies with purified Na(+),K(+)-ATPase showed that ouabain and its 1,5,19-phosphate analogue were of similar efficacy (EC(50) = 1.1 and 5.2 x 10(-7) M, respectively) and >100-fold more potent than the 1,11,19-phosphate analogue. Studies of the binding kinetics showed that the 1,5,19-phosphate analogue bound 3-fold and dissociated 16-fold faster from the purified Na(+),K(+)-ATPase than ouabain. Both analogues were competitive inhibitors of 3H-ouabain binding. Taken together, these results suggest that the marked conformational flexibility of the A-ring in ouabain ordinarily slows the initial binding of this steroid to the sodium pump. However, once ouabain is bound, flection of the steroidal A- and BC-rings is critical for the maintenance of high-affinity binding. Our results indicate that the ouabain-binding site is comprised of structurally mobile elements and highlight the roles that synchronization between receptor and ligand dynamics play as determinants of biological activity in this system.

Structure-activity relationships for the hypertensinogenic activity of ouabain: role of the sugar and lactone ring.

Elevated levels of an endogenous ouabain circulate in many patients with essential hypertension. However, in contrast to ouabain, digoxin does not induce hypertension. This study investigated the hypothesis that within a single cardiac glycoside, the structural elements that induce hypertension differ from those responsible for high potency as a sodium pump inhibitor. Normal male Sprague-Dawley rats received infusions of vehicle (VEH), rhamnose (RHA), ouabain (OUA), ouabagenin (OGN), dihydro-ouabain (DHO), iso-ouabain (ISO), and a lactone ring opened analog (ORO) at 30 microgram. kg(-1). 24 h(-1) for 5 weeks via subcutaneous osmotic pumps. Cuff pressures were taken weekly. At the end of the study, trunk blood was harvested, extracted by C18 column, and subjected to high-performance liquid chromatography. Fractions were analyzed for OUA, OGN, and DHO by immunoassay. In OUA-, OGN-, and DHO-infused rats, 1 main peak of immunoreactivity corresponding to the infused agent was found. No evidence of in vivo conversion to OUA or DHO was found for any analog except ORO. At 5 weeks, systolic blood pressures in VEH, RHA, OUA, OGN, DHO, ISO, and ORO were 132+/-2.5, 133+/-1.5, 159+/-2.6,* 154+/-4,* 167+/-4,* 171+/-2.2,* and 169+/-2.4* mm Hg, respectively (*P<0.01 versus VEH and RHA, P<0.05 versus OUA). The hypertensinogenic activity was greater than OUA in 3 analogs (DHO, ISO, and ORO) in which the lactone was saturated, conformationally restrained by linkage with the oxygen at C14, or opened, respectively. These compounds were weak inhibitors of dog kidney Na,K-ATPase. Thus, RHA and the unsaturated lactone ring are crucial to the high potency of OUA as an inhibitor of the sodium pump but appear to be unrelated to its ability to induce hypertension. The conclusion that this form of hypertension is mediated primarily by the steroid nucleus suggests also that OUA may have a mechanism of action independent of the sodium pump.

Endogenous ouabain and hemodynamic and left ventricular geometric patterns in essential hypertension.

We sought to evaluate the relationships among circulating levels of an endogenous ouabain-like factor (EO) and systemic hemodynamics and left ventricular (LV) geometry in patients with recently diagnosed essential hypertension. We selected 92 never-treated patients with essential hypertension. Blood samples were drawn for estimation of plasma EO (radioimmunoassay) and subjects underwent echocardiographic examination to evaluate LV end-systolic and end-diastolic wall thickness and internal dimensions. LV volumes, stroke volume, cardiac output, total peripheral resistance, LV mass, and relative wall thickness were calculated, and all except the last parameter were indexed by body surface area. LV mass also was indexed by height. On the basis of the values of LV mass index (body surface area or height) and relative wall thickness, subjects were divided into groups with either normal geometry, concentric remodeling, concentric hypertrophy, or eccentric nondilated hypertrophy. In the study population as a whole, circulating EO levels were significantly and directly correlated with mean blood pressure (r = 0.21, P = .048), relative wall thickness (r = 0.34, P = .001), and total peripheral resistance index (r = 0.37, P = .0003). Plasma EO also was significantly and inversely correlated with LV end-diastolic volume index (r = -0.32, P = .002), stroke index (r = -0.34, P = .0009), and cardiac index (r = -0.35, P = .0007). In multiple regression analysis, plasma EO was an independent correlate of total peripheral resistance index, cardiac index, and relative wall thickness. Regardless of the indexation method used for LV mass, plasma EO was higher in patients with concentric remodeling than in those with either normal geometry or concentric hypertrophy. Plasma EO tended to be higher (indexation by body surface area) or was significantly higher (indexation by height) in subjects with concentric remodeling than in those with eccentric nondilated hypertrophy. Patients with concentric remodeling showed the highest total peripheral resistance index and the lowest cardiac index. Our data suggest that EO plays a role in regulating systemic hemodynamics and LV geometry in patients with essential hypertension.

Chronic hypertension induced by ouabain but not digoxin in the rat: antihypertensive effect of digoxin and digitoxin.

Elevated circulating levels of an endogenous ouabain (EO) have been associated with essential hypertension. To investigate structure-activity relationships relevant to blood pressure, we infused either ouabain, ouabagenin, digoxin or digitoxin at 30 microg/kg/day in normal Sprague Dawley rats. After five weeks, the ouabain and ouabagenin infused rats were hypertensive, whereas blood pressures declined below their vehicle controls in rats infused with digoxin or digitoxin. In a second study, mean blood pressures were 118.5+/-1.7 mmHg in rats infused with ouabain (15 microg/kg/day) on day 35 vs. 98.3+/-1.8 and 100.3+/-1.1 mmHg in the digoxin (30 microg/kg/day) and vehicle infused groups (both p<0.005 vs. ouabain), respectively. Plasma and kidney levels of ouabain immunoreactivity were increased 4-8 fold in ouabain infused rats while blood pressure and plasma levels of ouabain returned to normal one week following discontinuation of the steroid infusion. In rats with ouabain-dependent hypertension, secondary infusions of digoxin or digitoxin (30 microg/kg/day) normalized blood pressure even though circulating ouabain remained elevated. In digoxin infused rats, neither blood pressure nor kidney digoxin immunoreactivity was raised whereas plasma digoxin was increased. Collectively, the results show that the hemodynamic effects of these sodium pump inhibitors differ dramatically during prolonged administration and that tissue rather than circulating levels of these agents appear to better explain their effects on blood pressure. These studies suggest that sodium pump inhibition is not the exclusive mediator of the hemodynamic effects of these cardiac glycosides and demonstrate the presence of structure-specific mechanisms that regulate their tissue levels and effects on long-term blood pressure.

Different effects of in vivo ouabain and digoxin on renal artery function and blood pressure in the rat.

To investigate vascular mechanisms in hypertension, we isolated renal arterial rings from rats with ouabain-dependent hypertension and studied their function. In rats infused with ouabain for 5 weeks, systolic and mean blood pressures (BP) were increased relative to controls. Contractions evoked by high KCl solutions were greater in rings from ouabain-infused rats whereas the threshold concentrations and EC50s for KCl and the peak caffeine contractures were not different. KCl contractures were not affected by 5 microM prazosin. Phenylephrine contractures were increased marginally in ouabain-infused rats, while acetylcholine-induced relaxation was normal. In vitro superfusion of rings with 10 nM ouabain or digoxin did not affect the measured parameters. Plasma ouabain, BP, and all evoked responses were normal one week following interruption of the ouabain infusion. In a second study, BP increased in ouabain (15 microg/kg/day, n= 23), but not digoxin (30 microg/kg/day, n=12), or vehicle-infused (n=16) rats. KCl contractures were greater in rings from ouabain-but decreased in rings from digoxin-infused rats, respectively and correlated with systolic and mean BP (r=0.69, n=30, p<0.005). Peak caffeine (25 mM) responses were similar but the area under the contraction was reduced in the vessels from ouabain-infused rats and correlated inversely with MBP (r=-0.47, n=33, p<0.02). We conclude that a voltage-dependent component of tone in the rat renal artery is reversibly and specifically augmented by in vivo administration of ouabain whereas it is diminished by in vivo digoxin. Vascular production of and response to nitric oxide does not appear to be impaired in the ouabain model. Alterations of intracellular Ca2+ storage and Ca2+ influx in response to in vivo ouabain may underlie the increase in renal vascular resistance and hypertension in this model. The opposite effects of ouabain and digoxin on the hemodynamic and vascular parameters in this study indicate that these agents have novel mechanisms of action in vivo that may not be mediated exclusively by sodium-potassium pumps.

Ouabain augments Ca(2+) transients in arterial smooth muscle without raising cytosolic Na(+).

Ouabain and other cardiotonic steroids (CTS) inhibit Na(+) pumps and are widely believed to exert their cardiovascular effects by raising the cytosolic Na(+) concentration ([Na(+)](cyt)) and Ca(2+). This view has not been rigorously reexamined despite evidence that low-dose CTS may act without elevating [Na(+)](cyt); also, it does not explain the presence of multiple, functionally distinct isoforms of the Na(+) pump in many cells. We investigated the effects of Na(+) pump inhibition on [Na(+)](cyt) (with Na(+) binding benzofuran isophthalate) and Ca(2+) transients (with fura 2) in primary cultured arterial myocytes. Low concentrations of ouabain (3-100 nM) or human ouabain-like compound or reduced extracellular K(+) augmented hormone-evoked mobilization of stored Ca(2+) but did not increase bulk [Na(+)](cyt). Augmentation depended directly on external Na(+), but not external Ca(2+), and was inhibited by 10 mM Mg(2+) or 10 microM La(3+). Evoked Ca(2+) transients in pressurized small resistance arteries were also augmented by nanomolar ouabain and inhibited by Mg(2+). These results suggest that Na(+) enters a tiny cytosolic space between the plasmalemma (PL) and the adjacent sarcoplasmic reticulum (SR) via an Mg(2+)- and La(3+)-blockable mechanism that is activated by SR store depletion. The Na(+) and Ca(2+) concentrations within this space may be controlled by clusters of high ouabain affinity (alpha3) Na(+) pumps and Na/Ca exchangers located in PL microdomains overlying the SR. Inhibition of the alpha3 pumps by low-dose ouabain should raise the local concentrations of Na(+) and Ca(2+) and augment hormone-evoked release of Ca(2+) from SR stores. Thus the clustering of small numbers of specific PL ion transporters adjacent to the SR can regulate global Ca(2+) signaling. This mechanism may affect vascular tone and blood flow and may also influence Ca(2+) signaling in many other types of cells.

Regioselective derivatization of ouabain with trialkylsilyl reagents and selective oxidation of the unprotected alcohols.

Many mammalian tissues contain cardiac glycoside-like steroids that inhibit the sodium pump. A ouabain-like compound has been described in the human circulation and suggested to be ouabain or a closely related isomer. Ouabain is a highly hydroxylated compound and one of the most potent inhibitors of the sodium pump. Trialkylsilyl derivatization of ouabain has been carried out to determine reagent selectivity among the eight hydroxy groups as a prelude to the synthesis of regiospecific isomers. Mono-, di-, tri-, and hexa-trialkylsilyl derivatives have been prepared with substitution at the 19-, the 3',19-, the 1,3',19-, and the 1,2',3',4',11, 19-positions, respectively. Mass spectrometry and NMR confirmed the substitutions. Selective protection of the hydroxy groups allows selective oxidation of the unprotected steroid ring alcohols without oxidation of the 2'- and 4'-rhamnoside alcohols. Pyridinium dichromate oxidation of the di-trialkylsilyl and tri-trialkylsilyl derivatives gave the 1,11-diketone and the 11-ketone analogues, respectively. These regioselective reactions open a route to the synthesis of a series of closely related isomers of ouabain and other derivatives that may have useful structure-activity relationships and utility in the elucidation of the biosynthesis of ouabain-like compounds.

Na(+) entry via store-operated channels modulates Ca(2+) signaling in arterial myocytes.

In many nonexcitable cells, hormones and neurotransmitters activate Na(+) influx and mobilize Ca(2+) from intracellular stores. The stores are replenished by Ca(2+) influx via "store-operated" Ca(2+) channels (SOC). The main routes of Na(+) entry in these cells are unresolved, and no role for Na(+) in signaling has been recognized. We demonstrate that the SOC are a major Na(+) entry route in arterial myocytes. Unloading of the Ca(2+) stores with cyclopiazonic acid (a sarcoplasmic reticulum Ca(2+) pump inhibitor) and caffeine induces a large external Na(+)-dependent rise in the cytosolic Na(+) concentration. One component of this rise in cytosolic Na(+) concentration is likely due to Na(+)/Ca(2+) exchange; it depends on elevation of cytosolic Ca(2+) and is insensitive to 10 mM Mg(2+) and 10 microM La(3+). Another component is inhibited by Mg(2+) and La(3+), blockers of SOC; this component persists in cells preloaded with 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid to buffer Ca(2+) transients and prevent Na(+)/Ca(2+) exchange-mediated Na(+) entry. This Na(+) entry apparently is mediated by SOC. The Na(+) entry influences Na(+) pump activity and Na(+)/Ca(2+) exchange and has unexpectedly large effects on cell-wide Ca(2+) signaling. The SOC pathway may be a general mechanism by which Na(+) participates in signaling in many types of cells.

Left ventricular mass, stroke volume, and ouabain-like factor in essential hypertension.

Many patients with essential hypertension (EH) exhibit increased left ventricular mass. Similarly, elevated circulating levels of an endogenous ouabainlike factor (OLF) have been described in some but not all patients with EH. Moreover, ouabain has a hypertrophic influence on isolated cardiac myocytes. Accordingly, we investigated relationships among plasma OLF, left ventricular mass, and cardiac function in patients with EH. Plasma OLF was determined in 110 normotensive subjects and 128 patients with EH. Echocardiographic parameters and humoral determinants were measured in EH. Plasma OLF levels were increased (P<0.0001) in patients with EH (377+/-19 pmol/L) versus normotensive (253+/-53 pmol/L) subjects. The distribution of plasma OLF was unimodal in normotensives, whereas it was bimodal in EH. Twenty-four-hour diastolic ambulatory blood pressure was slighter higher in EH with high OLF compared with EH with normal OLF (93.2+/-1.14 versus 89.4+/-1.33 mm Hg, P=0.03). Left ventricular mass index and stroke volume in EH with high OLF were greater than in EH with normal OLF (101.9+/-3.3 versus 86.1+/-2.5 g/m(2), P=0.0003, and 57.10+/-1.48 versus 52.30+/-1.14 mL/m(2), P=0. 02, respectively), although heart rate was slower (74.2+/-1.3 versus 80.5+/-1.3 bpm, P=0.005). Multiple regression analysis that tested the influence of body mass index, age, gender, 24-hour blood pressure, and OLF on left ventricular mass revealed independent contributions of systolic (13.2%) and diastolic (12.4%) blood pressure and plasma OLF (11.6%) to left ventricular mass. We conclude that approximately 50% of patients with uncomplicated EH have elevated-high circulating OLF levels, higher diastolic blood pressure, greater left ventricular mass and stroke volume, and reduced heart rate. We propose that the OLF affects cardiovascular function and structure and should be considered as a factor that contributes to the risk of morbid events.

Effects of angiotensin II on sodium potassium pumps, endogenous ouabain, and aldosterone in bovine zona glomerulosa cells.

Angiotensin (Ang) II stimulates secretions of aldosterone and an endogenous ouabain-like steroid (EO) from bovine adrenal zona glomerulosa (BAG) cells. The BAG cell sodium pump, a possible target of EO, affects aldosterone secretion although little is known about this pump. Here, we describe the effects of Ang II on the characteristics of this transporter and steroid secretions. Under serum-free conditions, 3H-ouabain bound to a single class of sites on BAG cells. Binding of label was time and concentration dependent, was sensitive to extracellular potassium ions, and was displaced by ouabain and digoxin with EC50 of approximately 218 and approximately 232 nmol/L, respectively. Sodium pump-mediated 86Rb uptake was inhibited by ouabain (EC50 approximately 301 nmol/L). Ang II dose dependently augmented secretions of EO and aldosterone, increased ouabain-sensitive 86Rb uptake and 3H-ouabain binding, and increased the affinity for 3H-ouabain binding (Kd, from 205 to 80 nmol/L) with no change in the maximal number of sodium pumps (5.45x10(6)) per cell. Losartan blocked all effects of Ang II except EO secretion, which was inhibited by PD123319. We conclude that BAG cells express sodium pumps in high density and bind ouabain to a single class of low-affinity sites. The characteristics of the sodium pumps protect BAG cells from EO autotoxicity but may exclude them from mediating feedback inhibition of EO secretion. The effects of Ang II on sodium pump activity, ouabain binding affinity, and aldosterone secretion are mediated via Ang II type 1 receptors, whereas Ang II type 2 receptors augment EO secretion. The role of the Ang II-mediated increase in the ouabain sensitivity of BAG cell sodium pumps in the secretions of aldosterone and EO remains to be elucidated.

Observations on the nature, biosynthesis, secretion and significance of endogenous ouabain.

The human circulation contains four readily distinguishable biologically active inhibitors of the sodium pump that appear to be endogenous to mammals. Of these, one has been purified to homogeneity and by numerous chromatographic, mass spectral, biochemical, and physiological analyses has been shown to be a novel steroidal isomer of ouabain in which the location and orientation of two or more steroidal hydroxyl groups differ. The human endogenous "ouabain" (EO) is a high affinity reversible inhibitor of the pump with inotropic and vasopressor activity. Circulating levels of EO depend upon the adrenal cortex and metabolic events preceding and following pregnenolone formation are involved in EO biosynthesis. Within the adrenal gland, the stimulus-secretion mechanisms for EO secretion are distinct from those for aldosterone highlighting different regulation. Among Caucasians with essential hypertension, 30-45% have elevated circulating levels of EO. Sustained elevation of plasma ouabain in rats induces chronic hypertension with characteristics similar to those in patients and whose severity is determined by inherited factors and renal function. In conclusion, at least one of the mammalian counterparts to the cardiac glycosides is a novel steroidal isomer of ouabain. The isomer is secreted by the adrenal cortex, and augments cardiovascular function. The observation of this entity in the human circulation, the demonstration of its biosynthesis, and the existence of specific receptors suggest to us that EO is a novel adrenocortical hormone and may be part of a broader family of novel mammalian steroids that regulate the sodium pump and other processes.

Different signaling pathways mediate stimulated secretions of endogenous ouabain and aldosterone from bovine adrenocortical cells.

Angiotensin II stimulates secretion of corticosteroids and an ouabain-like compound from adrenocortical cells. The angiotensin AT1 and AT2 receptor subtypes have been linked with stimulated secretion of aldosterone and endogenous ouabain, respectively, but the second messenger mechanisms involved in the latter secretion are not known. Accordingly, we investigated the effects of several pharmacological agents that affect signaling pathways on the basal and stimulated secretions of aldosterone and endogenous ouabain from primary cell cultures of bovine adrenocortical cells. The AT2 receptor antagonist, PD 123319, blocked the effects of angiotensin II on secretion of endogenous ouabain but not aldosterone. Treatment of the cells with either dibutyryl cAMP, a membrane permeant analog, or the phorbol ester tetradecanoyl phorbol acetate stimulated aldosterone secretion but had no effect on the secretion of endogenous ouabain. On the other hand, the membrane permeant analog, 8BcGMP, maximally activated secretion of endogenous ouabain whereas incubation of cells with sodium orthovanadate blocked angiotensin II stimulated secretion of endogenous ouabain. Neither 8BcGMP nor sodium orthovanadate affected the basal or stimulated components of aldosterone secretion. These results show that the secretions of aldosterone and endogenous ouabain from bovine adrenocortical cells are mediated by different intracellular signaling mechanisms and provide evidence that the adrenal secretions of these steroids are regulated differently.

Ouabain-like factor quantification in mammalian tissues and plasma: comparison of two independent assays.

The resolution of controversies that concern the detectability of an endogenous ouabain-like factor (OLF) in mammalian tissues and plasma was approached by the application of a standardized method for its extraction and quantification. Two independent assays were used to quantify the OLF: (1) a radioimmunoassay, which used a polyclonal anti-ouabain antiserum, and (2) a radioenzymatic assay based on the inhibition of dog kidney Na+,K+-ATPase. Plasma and tissues were obtained from the Milan hypertensive strain (MHS) and the Milan normotensive strain (MNS) of rats and from healthy human volunteers. Results indicate that (1) a single high-performance liquid chromatography (HPLC) fraction identical to that of ouabain was identified by both assay methods in the rat hypothalamus and hypophysis and in both rat and human plasma; (2) dilution curves of OLF and standard ouabain were parallel and with a similar Kd, both in radioimmunoassay (3 nmol/L) and ATPase assay (14 nmol/L); (3) after HPLC, OLF was similarly quantified by the two methods in the hypothalamus, hypophysis, adrenals, and plasma of rats and in human plasma; (4) OLF was present in larger amounts in the hypothalamus, hypophysis, and plasma of MHS rats than that of MNS rats; (5) the HPLC fraction of human plasma was quantified similarly by both assays (range, 60 to 150 pmol/L); (6) recovery of standard ouabain in pre-HPLC plasma extracts was approximately 90%; and (7) pre-HPLC OLF concentrations in human plasma ranged between 0.05 and 0.75 nmol/L. Rat cerebral tissues and both rat and human plasma contained measurable amounts of OLF, which were quantified similarly by radioimmunoassay and ATPase assay, both before and after HPLC fractionation. The increased MHS tissue and plasma levels of OLF are in keeping with the pathogenetic role of this factor in MHS hypertension.

Angiotensin II stimulates secretion of endogenous ouabain from bovine adrenocortical cells via angiotensin type 2 receptors.

Angiotensin II stimulates secretion of corticosteroids and ouabain-like activity from adrenocortical cells. Distinct adrenocortical angiotensin II receptor subtypes (AT1, AT2) have been described, and the present studies investigated their roles in steroid secretion. Using primary bovine adrenocortical cell cultures under serum free conditions, angiotensin II stimulated the secretions of aldosterone, cortisol, and endogenous ouabain as verified by high-performance chromatography. The dose-response curves for stimulated steroid secretion were parallel with unitary slopes while the half-maximally effective concentrations of angiotensin II were 0.31 to 0.38 nmol/L for secretions of aldosterone and cortisol and 2.3 nmol/L for endogenous ouabain. The nonselective mammalian antagonist (Sar1-Ile8) angiotensin II blocked stimulated secretion of all three steroids without affecting basal output. In the presence of the AT1 antagonist DuP753, angiotensin II-stimulated secretions of aldosterone and cortisol were blocked while secretion of endogenous ouabain was unaffected. In the presence of the AT2 antagonist PD123319, both basal and angiotensin II-stimulated secretions of aldosterone and cortisol were normal while stimulated secretion of endogenous ouabain was inhibited. The secretion of endogenous ouabain was activated maximally by the AT2 agonist CGP42112 under conditions in which aldosterone secretion was unaffected. These results demonstrate that AT2 receptors stimulate secretion of endogenous ouabain from bovine adrenocortical cells. The specificity of AT1 and AT2 receptor stimulation indicates that separate signaling mechanisms having minimal cross talk control the adrenocortical secretions of corticosteroids and cardiac-active steroids. Adrenocortical AT2 receptors may be important in the adaptation to low salt diets and other conditions in which angiotensin II is increased.

Endogenous ouabain, sodium balance and blood pressure: a review and a hypothesis.

OBJECTIVE: To assess possible relationships between endogenous ouabain, sodium balance and blood pressure. CONTENT: This review concerns the structure of endogenous ouabain, circulating levels of this steroid in various disorders of fluid and electrolyte balance, recent evidence for the association of endogenous ouabain with human hypertension, the influence of sodium and volume factors on ouabain-induced hypertension, and possible mechanisms for the hypertensinogenic activity of ouabain. CONCLUSIONS: The human circulation contains a closely related isomer of ouabain of putative adrenocortical origin. Elevated circulating levels of this 'endogenous ouabain' are common but not universal in physiologic and pathologic states associated with positive sodium balance or high blood pressure, or both. In the absence of adrenal hyperfunction, elevating circulating levels of endogenous ouabain appear to be secondary to impaired renal clearance. Prolonged elevation of circulating ouabain in the rat induces sustained hypertension. This model exhibits normal plasma renin activity, increased levels of ouabain in the hypothalamus, pituitary, and kidney, and responds to angiotensin converting enzyme inhibitor. In rats with normal kidney function, ouabain-induced hypertension is primarily sodium-insensitive although maneuvers that hinder renal sodium excretion augment the pressor effect of this steroid. Prolonged administration of ouabain into the brain ventricles augments sympathetic nervous system activity and induces sustained hypertension. These observations lead us to propose the following hypothesis. Among Caucasian patients with essential hypertension, a large fraction have elevated circulating levels of endogenous ouabain, possibly caused by an inherited or acquired renal defect in clearance of this steroid. In these patients, and in rats with ouabain-induced hypertension, increased local generation of, or increased target organ sensitivity to, angiotensin II, or both, may contribute critically to heightened vasoconstriction and a sustained increase in blood pressure. Investigations of the efferent pressor mechanisms and the renal handling of endogenous ouabain are novel approaches to the etiology and therapy of several common cardiovascular disorders.

Immunoreactive endogenous ouabain in primary aldosteronism and essential hypertension: relationship with plasma renin, aldosterone and blood pressure levels.

OBJECTIVE: To investigate the role of ouabain in human hypertension and to establish whether immunoreactive endogenous ouabain is secreted by the adrenal gland under the influence of dopaminergic regulation. METHODS: We measured plasma levels of endogenous ouabain by immunoassay, together with other variables, including plasma renin activity and aldosterone levels, in 91 clinically selected hypertensives and 19 healthy volunteers. We also measured endogenous ouabain in adrenal venous blood and the effect of DA2 dopaminergic receptor blockade and stimulation. After a thorough clinical evaluation, 64 patients were diagnosed with essential hypertension and 24 with primary aldosteronism. RESULTS: Plasma levels of endogenous ouabain were higher in essential hypertensives than in controls. Multiple regression analysis showed a significant relationship of mean blood pressure with plasma endogenous ouabain, age and body mass index, but not with other measured parameters. The plasma levels of endogenous ouabain were more than two standard deviations above the mean value for normotensives in 45% of patients with essential hypertension in whom plasma renin activity was normal. Higher plasma levels of endogenous ouabain were found in patients with aldosterone excess, specifically affecting 56% of 17 patients with surgically confirmed adrenal cortical adenoma and one (14%) of seven patients with idiopathic causes. Removal of adenomas lowered blood pressure in half of the patients in whom plasma levels of endogenous ouabain normalized after surgery. Plasma endogenous ouabain levels were similar in venous blood from the adrenal and inferior vena cava, and plasma levels were not influenced by DA2 dopaminergic blockade and stimulation. CONCLUSION: Approximately half of Caucasian patients with essential hypertension and with hyperaldosteronism exhibit elevated circulating levels of endogenous ouabain. The latter do not appear to be secondary to hypertension, are unrelated to plasma renin activity, and may not involve adrenal type-2 dopaminergic receptors.

Secretion of endogenous ouabain from bovine adrenocortical cells: role of the zona glomerulosa and zona fasciculata.

Recent experiments have demonstrated the secretion of a ouabain-like compound from primary cultures of bovine adrenocortical cells (1). To determine the relative contribution of the outer zones of the adrenal cortex to the secretion of endogenous ouabain, we measured the content of this steroid in zona glomerulosa and zona fasciculata tissue freshly excised from bovine adrenals and in the secretion media of primary cell cultures derived from these zones. The tissue content of endogenous ouabain was 5.7-fold higher in the zona glomerulosa than in the zona fasciculata. The concentration of endogenous ouabain was 4.1-fold higher in 24-hour conditioned media from zona glomerulosa than in zona fasciculata cultures. Angiotensin II and ACTH stimulated the secretion of endogenous ouabain from zona glomerulosa cultures, but had no effect on zona fasciculata cultures. These findings suggest that endogenous ouabain is primarily synthesized and secreted from the adrenal zona glomerulosa.