Modulation of sympathetic coronary vasoconstriction by cardiac renin-angiotensin system in human coronary heart disease.

BACKGROUND: In humans, angiotensin II enhances the sympathetic coronary vasoconstriction elicited by the cold pressor test (CPT) and diving. Whether this enhancement depends on the circulating angiotensin II or on the locally produced angiotensin II is unknown, however. METHODS AND RESULTS: We addressed this issue in 14 patients with severe coronary artery disease by evaluating the effects of a 2-minute CPT (n=14) and a 30-second dive (n=8) on mean arterial pressure (MAP, arterial catheter), heart rate (ECG), coronary sinus blood flow (CBF, thermodilution technique), and coronary vascular resistance (MAP/CBF ratio). The 2 stimuli were applied at the end of left intracoronary infusion of either saline or benazeprilat diluted at the concentration of 25 microgram/mL. The rate of benazeprilat infusion had been preliminarily demonstrated to reduce angiotensin II concentration in the coronary sinus without affecting its arterial concentration. The changes in MAP and heart rate induced by CPT and diving were superimposable during saline and benazeprilat infusions. The decrease in CBF induced by CPT and diving during saline infusion was changed into an increase during benazeprilat infusion with a significant attenuation of the coronary vasoconstrictor response. CONCLUSIONS: In patients with coronary artery disease, an attenuation of sympathetic coronary vasoconstriction can be obtained by reducing cardiac angiotensin II formation without involving circulating angiotensin II. This suggests a role of the tissue renin-angiotensin system in modulating autonomic cardiac drive in humans.

Effects of balloon angioplasty and stent implantation on intrarenal echo-Doppler velocimetric indices.

This study was aimed at examining whether four intrarenal echo-Doppler velocimetric indices (pulsatility and resistive indices, acceleration and acceleration time) can be useful for assessing the effects of renal artery dilation obtained with either angioplasty or stent implantation. Echo-Doppler studies were performed in 63 hypertensive patients with 68 renal artery stenoses (39 atherosclerotic and 29 fibromuscular) prior to and within five days after the dilation procedures (55 angioplasties, 13 stent implantations), which resulted in an average reduction of arterial narrowing from 79% to 20%. In 24 patients, the velocimetric indices were also examined in relationship to the venoarterial differences of plasma renin activity and of angiotensin II across the stenotic kidneys. We found that after dilation the values of the four indices had returned within the normal range in all but three arteries (one false negative for resistive index and two for acceleration time). However, decrements in acceleration time was the only factor to be significantly correlated with the reduction of arterial narrowing. Moreover, postdilation values of this index were, on average, slightly but significantly higher in arteries that at follow-up developed restenosis rather than in those that remained patent. For similar reductions in arterial narrowing the absolute changes of all indices were similar in atherosclerotic and fibromuscular stenotic arteries and, in a subset of the atheromatous arteries, were also similar after angioplasty and stent implantation. No relationship was found with the changes in the venoarterial differences of plasma renin activity and angiotensin II. It appears that these intrarenal velocimetric indices and, in particular, acceleration time reliably reflect the technical success of renal artery dilation. The acceleration time index may also be valuable for predicting the restenosis of the dilated vessel. None of the indices, however, mirrors the functional consequences of removal of renal artery stenosis as expressed through the changes in transrenal gradients of the components of the renin-angiotensin system.

Sympathomoderating influence of benazepril in essential hypertension.

OBJECTIVE: In essential hypertension, captopril attenuates forearm vasoconstriction reflexly induced by deactivation of cardiopulmonary and arterial baroreceptors, thus exerting a sympathomoderating effect. We investigated whether this is a common effect of angiotensin converting enzyme (ACE) inhibitors. METHODS AND DESIGN: Cardiopulmonary and arterial baroreceptors were deactivated by progressively reducing central venous pressure (CVP) through progressively greater lower body negative pressures in eight untreated mild essential hypertensives on a moderately low-sodium diet (50 mmol/l per day). This deactivation was performed after oral administration of the non-sulphidrylic ACE inhibitor benazepril (10 mg) and placebo according to a double-blind randomized crossover experimental design. RESULTS: After placebo, the reduction in CVP increased forearm vascular resistance (FVR; mean arterial pressure: plethysmographic forearm blood flow ratio). After benazepril, baseline blood pressure (beat-to-beat finger pressure) and FVR were significantly reduced whilst plasma angiotensin II was suppressed and PRA increased (both measured by radioimmunoassay). The FVR increases induced by progressive CVP reduction were less than after placebo administration, and the overall difference was statistically significant. Benazepril did not affect the reflex FVR reduction observed by increasing CVP through leg raising, nor the reflex changes in plasma norepinephrine measured by high-performance liquid chromatography accompanying the changes in FVR. CONCLUSIONS: Benazepril attenuates sympathetic vasoconstriction as does captopril. This effect (which is mainly operative during an increased sympathetic drive and exerted through a reduction of adrenoceptor responsiveness) is thus likely to be a class- rather than a compound-related feature.

Plasma active and inactive renin and fetal complications in women with high risk pregnancies.

To examine whether the activation of the renin system, which occurs during pregnancy, may be relevant for the development and the outcome of the fetus, we measured active and inactive renin throughout gestation in 29 women having a pregnancy defined as "high risk" because of a clinical history of hypertension, nephropathy, and unexplained abortions. In 23 of these women who delivered full-term infants with normal weight and status, we found that active renin increased progressively from early pregnancy until the end of the second trimester and then declined slightly thereafter. In contrast, in the remaining six women who had fetal complications consisting of either signs of distress requiring cesarean section or growth retardation, the increase in active renin failed to occur. In all women the levels of inactive renin were more elevated throughout gestation than those observed in nonpregnant women, and were higher, although not significantly, in women without fetal complications than in those with fetal complications. Thus, a blunted activation of the renin system during pregnancy is associated with alteration in fetal development and may possibly contribute to it.

Effect of angiotensin converting enzyme inhibition on cardiovascular regulation during reflex sympathetic activation in sodium-replete patients with essential hypertension.

In order to investigate whether angiotensin II (Ang II) may contribute to cardiovascular regulation through facilitation of the adrenergic function, we examined the haemodynamic and humoral effects of the application of lower-body negative pressure (LBNP) in sodium-replete patients with essential hypertension before and after acute and chronic angiotensin converting enzyme (ACE) inhibition. We measured the changes in blood pressure, heart rate, central venous pressure, forearm blood flow, plasma noradrenaline, renin activity and Ang II induced by LBNP of two different magnitudes: a milder one deactivating predominantly the cardiopulmonary receptors (mild LBNP), and a greater one deactivating both the cardiopulmonary and the arterial baroreceptors (strong LBNP). We found that during mild LBNP systemic blood pressure was maintained after acute and chronic ACE inhibition, as in control studies; however, the decrements in forearm blood flow and the increments in forearm vascular resistance caused by LBNP were diminished after ACE inhibition (the latter by 69 and 67%, respectively, in acute and chronic studies), in spite of the fact that the falls in central venous pressure and the increases in noradrenaline (NA) were similar to those observed in control conditions. During strong LBNP, the fall in systemic blood pressure was greater after acute and chronic ACE inhibition than in control conditions and was associated with a reduction in the response of forearm vascular resistance similar to that observed during mild LBNP, while the increments in NA were again superimposable to those seen before ACE inhibition. These alterations in the haemodynamic responses to LBNP induced by ACE inhibition were associated with significant increments in basal plasma renin activity and with marked reductions in Ang II. These findings suggest that even in the sodium-replete state, Ang II exerts a facilitatory action on adrenergic function that is physiologically relevant for the regulation of forearm blood flow and the maintenance of blood pressure during the application of gravitational stresses.

Effectiveness of Sepharose-bound trypsin versus liquid-phase trypsin plus benzamidine for activation of inactive renin in human plasma.

We compared the effectiveness of two techniques involving the use of the enzyme trypsin to activate inactive renin in human plasma. Both these methods were developed to optimize activation with trypsin by preventing the possible destruction of activated renin by trypsin itself. In one method, an antitryptic agent such as benzamidine is added to plasma, concomitantly with trypsin (liquid phase). In the other a low concentration of Sepharose-bound (immobilized) trypsin is used. In six plasma samples we have found that trypsin (1.5 mg/ml) activation, with or without benzamidine (0.8 mg/ml), yielded similar values of activated renin (11.0 +/- 2.7 vs. 11.3 +/- 2.3 ng/ml/hr). However, the addition of immobilized trypsin to pool plasma pretreated with trypsin plus benzamidine caused a further increase in plasma renin activity (PRA); in contrast, the addition of trypsin and benzamidine to pool plasma pretreated with immobilized trypsin caused a decrease in PRA. In 17 plasma samples from patients with essential hypertension we found that the inactive renin values were always higher after treatment with immobilized trypsin than with trypsin plus benzamidine (9.0 +/- 0.7 vs. 6.1 +/- 0.5 ng/ml/hr, P less than 0.01); moreover, there was a positive correlation between the differences in the values of inactive renin measured with the two methods and the values obtained with immobilized trypsin (r = 0.64, P less than 0.01). Therefore, the activation with immobilized trypsin is more effective than that with liquid-phase trypsin, alone or in combination with benzamidine, in converting inactive renin in human plasma.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of angiotensin II blockade on the responses of the pituitary-adrenal axis to corticotropin-releasing factor in humans.

We investigated the possibility that angiotensin II (ANGII) augments the sensitivity of the pituitary to corticotropin releasing factor (CRF) by comparing, in patients with essential hypertension, the responses of plasma adrenocorticotropic hormone (ACTH), cortisol, aldosterone, and renin activity to a bolus injection of either 0.5 or 1.0 microgram/kg of synthetic ovine CRF in control conditions and after chronic treatment with the converting enzyme inhibitor captopril to block the formation of ANGII; the effects of CRF were examined up to 4 h after its administration. In control studies, we found that the two doses of CRF induced similar increments in ACTH and cortisol, the levels of which remained elevated throughout the studies; these changes were associated with increments in plasma aldosterone that were dose dependent, less pronounced, and of shorter duration and with a slight decrease in plasma renin activity. Captopril treatment increased basal plasma renin activity and lowered plasma aldosterone while leaving basal ACTH and cortisol unchanged. During converting enzyme inhibition, the responses of ACTH and cortisol to CRF were similar to those observed in control studies, whereas the changes in plasma aldosterone and plasma renin activity were, respectively, smaller and greater. From these results, it appears that during ANGII blockade the sensitivity of ACTH to CRF stimulation is unaffected, whereas that of the adrenals to ACTH is selectively reduced at the level of the zona glomerulosa.

Comparative measurements of immunoreactive renin, plasma renin activity and angiotensin II in human plasma.

In human plasma samples we compared the values of renin activity, determined with a conventional enzymatic assay, with those of immunoreactive renin, determined with a new, direct immunoradiometric assay which employs highly specific monoclonal antibodies, and with those of angiotensin II; the comparative measurements of renin were carried out also in trypsin activated samples of nephric and anephric subjects. We found that, overall, there was a close relationship between renin activity and immunoreactive renin; however, this relationship was absent when the statistical analysis was restricted to plasmas with low or very low renin. We also found that, within a rather wide range of values, angiotensin II was more closely correlated with immunoreactive renin than with renin activity. Trypsin activation increased to a similar extent immunoreactive renin and renin activity in plasma of nephric and anephric subjects and, overall, the values of total renin obtained with the two assays were significantly correlated. The results of these comparative determinations indicate that, in general, the measurement of immunoreactive renin represents a valid alternative to that of renin activity and a reliable index of the activity of the renin-angiotensin system. In addition, studies with trypsin activation suggest that even in the anephric state human plasma contains an inactive enzyme convertible into an active form which has immunological properties similar to those of active renin.

Acute and chronic converting enzyme inhibition reduces the vasomotor response to reflex sympathetic activation in man.

Several lines of evidence indicate that angiotensin II (ANG II) may potentiate the vascular response to sympathetic stimulation. However, there are no clear signs that this action of ANG II is physiologically relevant in man. To investigate this problem, we used the lower body negative pressure technique (LBNP, -15 mmHg) to deactivate cardiopulmonary receptors and reflexly stimulate the sympathetic nervous system. The haemodynamic (changes in blood pressure, heart rate, central venous pressure, forearm blood flow) and humoral effects [changes in plasma noradrenaline (PNA) and plasma renin activity (PRA)] of this manoeuvre were examined before and after blockade of angiotensin formation achieved by the administration of the converting enzyme inhibitor, captopril. Studies were performed in patients with essential hypertension in control conditions and after acute and chronic captopril treatment. We found that the reduction in forearm blood flow induced by LBNP was significantly diminished after acute and chronic captopril in spite of the fact that the fall in central venous pressure and the increases in PNA were similar to those observed in control conditions. In contrast, the response of renin to LBNP was enhanced, at least after acute captopril administration. These findings suggest that efficiency of the reflexes originating from the cardiopulmonary receptors is impaired after captopril. Angiotensin II contributes to the vasoconstrictive ability of the sympathetic nervous system, either through a direct vascular action or by enhancing the vascular responsiveness to noradrenaline stimulation. However, this sympathetic facilitatory action of ANG II does not appear to be extended on the adrenergic mechanisms which regulate renin release.

The responses of adrenocorticotrophic hormone and cortisol to insulin-induced hypoglycaemic stress in man are unimpaired during chronic converting enzyme inhibition.

In vitro and animal studies indicate that circulating angiotensin II (ANG II) can stimulate adrenocorticotrophic hormone (ACTH) and cortisol secretion, but it is far from established that ANG II has a physiologically relevant influence on steroidogenesis. We studied the effects of hypoglycaemia induced with insulin injection (0.15 IU/kg) in patients with essential hypertension to answer this question. Hypoglycaemia was induced before and after a short term course of treatment with the converting enzyme inhibitor captopril to obtain a sustained blockade of ANG II formation. Alterations in serum glucose, plasma potassium, plasma ACTH, cortisol, renin activity and aldosterone were examined. In control studies there was a profound fall in serum glucose and plasma potassium after insulin, associated with increments in plasma renin activity, which correlated with those of aldosterone but not with those of ACTH and cortisol. Chronic captopril increased baseline plasma renin activity and lowered baseline aldosterone while leaving ACTH and cortisol unchanged. During converting enzyme inhibition the insulin-induced decrements in glucose and potassium, as well as the increments in ACTH, cortisol and aldosterone, were similar to those observed in control studies, whereas the increments in plasma renin activity were much greater. From these results it does not appear that ANG II has a relevant influence on ACTH and cortisol production, or on their responses to hypoglycaemic stress. Rather, these findings indicate that even under the present experimental conditions ANG II is the primary regulator of aldosterone secretion. However, this function can be taken over by ACTH when the generation of ANG II is blocked.

Participation of the renin-angiotensin system in the maintenance of blood pressure during changes in posture in patients with essential hypertension.

To assess whether and how the activation of the renin-angiotensin system that occurs in response to changes in posture contributes to the maintenance of blood pressure, we measured blood pressure, heart rate, plasma noradrenaline and plasma active and inactive renin in patients with essential hypertension in the supine, sitting and standing positions, (each sustained for 30 min), before and after administration of captopril. These studies were performed before and after a brief period of diuretic therapy. Both in the normal and in the sodium depleted state captopril reduced the normal adaptive response of blood pressure to changes in body position, whereas the responses of heart rate and plasma noradrenaline to these stimuli were unaffected by captopril. In contrast, the postural increases in active renin were magnified after captopril while inactive renin was unchanged throughout these acute studies. Our results indicate that during mild but rather prolonged postural stresses the generation of angiotensin by active renin supports blood pressure either through its direct vasoconstrictive effect and/or by potentiating the activity of the sympathetic nervous system. It is unlikely that the changes in active renin depend upon conversion from the inactive form.

Role of cardiopulmonary receptors in reflex control of renin release in man.

Animal studies have shown that renin release is reflexly modulated by cardiopulmonary and arterial baroreceptors, and that during changes in posture the former receptors play a major role. This role has been challenged in man, however, by reflex modulation of renin secretion which has been claimed to take place only if arterial and cardiopulmonary receptor areas are engaged together. We studied 19 normotensive and essential hypertensive subjects in which plasma renin activity was assessed by radioimmunoassay during a mild 20 min increase and a mild 20 min reduction in central venous pressure (+1.1 +/- 0.2 mmHg and -2.6 +/- 0.4 mmHg). The increase and reduction in central venous pressure were accompanied by no change in systolic blood pressure, diastolic blood pressure and heart rate which indicated that the increased and reduced stimulus had involved only cardiopulmonary receptors and not arterial baroreceptors as well. During the increase in central venous pressure plasma renin activity showed a significant (P less than 0.01) reduction (-18 +/- 3%) whereas during the reduction in central venous pressure it showed a significant (P less than 0.01) and more marked increased (+64 +/- 17%). The plasma renin activity increase observed during lower body suction was not significantly different from that observed during a 20 min tilting, a manoeuvre that reduced central venous pressure to an extent similar to that observed during lower body suction, but that also deactivated carotid baroreceptors by positioning the carotid sinuses above the heart and reducing their transmural pressure. Thus in normotensive and hypertensive humans renin release can be reflexly modulated by selective engagement of cardiopulmonary receptors.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of haemodialysis on active and inactive renin in nephric and anephric patients.

To investigate the origin, the mechanisms of regulation and the possible biological significance of inactive renin we examined the effects of haemodialysis on plasma active and inactive (cryoactivatable) renin in four anephric and in 10 nephric patients. Before haemodialysis inactive renin was similar in anephric and in the majority of nephric patients; this suggests that the source of the inactive enzyme is predominantly extrarenal. In response to haemodialysis active renin rose significantly in nephric patients whereas inactive renin showed minor and inconsistent increments in both groups. These results indicate that the response of the inactive enzyme to haemodialysis is less than that of its active counterpart and is unaffected by the presence of the kidneys. Therefore, it appears unlikely that inactive renin represents a circulating precursor of active renin.

Cryoactivation fails to augment plasma renin activity in the cat.

1. Active and cryoactivated renin (plasma renin) activity after incubation at -5 degrees C for 4 days, were measured in cat plasma sampled before and during the following procedures: suprarenal aortic stenosis, electrical stimulation of the pons and mild hypotensive haemorrhage. 2. Under all experimental conditions the values of plasma renin activity for both the activated and non-activated samples were similar. 3. The absence of a cryoactivatable aliquot of renin suggests that in cat plasma the inactive form of the enzyme either is actually absent or has a liability to the action of cold different than in other animal species.

Time course of the changes in active and cryoactivatable renin in response to acute stimuli before and after diuretic therapy in man.

In order to elucidate whether inactive renin may represent a precursor of the active enzyme we examined the short-term effects of ambulation and of Captopril administration on active and cryoactivatable renin in patients with essential hypertension before and after 5 days of diuretic therapy. We have found that in the large majority of patients before diuretic the increments in active renin in response to these stimuli were moderate and associated with unchanged levels of cryoactivatable renin; significant decrements in cryoactivatable renin were observed only in a small group of patients in whom the increments in active renin induced by ambulation were unusually rapid and marked. Diuretic therapy caused parallel increments in baseline values of active and of cryoactivatable renin and potentiated the response of the active enzyme to ambulation and to Captopril; however, cryoactivatable renin was still unmodified during both the acute stimuli. Thus, it appears that, normally, the rise in active renin induced by ambulation and Captopril administration is associated, both before and after diuretic therapy, with unchanged levels of the inactive enzyme; however, before diuretic, abrupt increments in the demand for active renin can determine changes in opposite direction of inactive renin as if the latter were a precursor of the former.

Dissociation of the effects of alpha 1-adrenergic blockade on blood pressure and renin release in patients with essential hypertension.

Prazosin, a selective antagonist of postsynaptic alpha-adrenoreceptors, was used to investigate the influence mediated by the juxtaglomerular alpha-adrenoreceptors on renin release in man. We studied, in seven patients with essential hypertension, the acute effects of 0.25 mg prazosin, given intravenously, on blood pressure and plasma renin activity, the degree of alpha-blockade induced by the drug being assessed by comparing the increments in blood pressure following a test dose of phenylephrine before and after prazosin administration. We also measured the increments in plasma renin activity in response to beta-adrenergic stimulus consisting of an isoproterenol challenge, before and during the prazosin induced alpha blockade. Prazosin infusion caused, within 20 min, a marked reduction of the pressor response to phenylephrine, a significant increment in plasma renin activity, and no change in blood pressure. The increments in renin in response to isoproterenol were significantly greater, both in absolute and percent values, after rather than before prazosin. These results indicate that the increase in renin during systemic alpha 1-adrenoreceptor blockade may be independent of the fall in blood pressure and support the view that the juxtaglomerular alpha 1-adrenoreceptors participate in the regulation of renin release with an inhibitory action, which antagonizes the stimulating influence of the beta-adrenoreceptors.