Effect of antihypertensive therapy on sympathetic nervous system activity in patients with essential hypertension

The sympathetic nervous system (SNS) plays a major role in blood pressure regulation. Although the exact relationship of the SNS to the etiology of hypertension remains undetermined, many of the agents used to treat hypertension interfere with this system. Clonidine, methyldopa, guanethidine, and reserpine decrease SNS tone whereas hydralazine, minoxidil, and hydrochlorothiazide increase it. Most evidence suggests that beta-adrenergic blocking agents decrease SNS activity. The effect of prazosin and captopril on the SNS requires further study. The appropriate use of these antihypertensive agents requires a knowledge of their sites of action and the physiological reflexes they induce. Efficacy, toxicity, and effective drug combinations can be predicted based on their mechanism of action and effect on SNS activity.     

Influence of antihypertensive treatment with perindopril, pindolol or felodipinon plasma leptin concentration in patients with essential hypertension.

Leptin - produced predominantly by adipocytes - is presumably also involved in pathogenesis of essential hypertension (EH). In the present study, we addressed the question whether and to what extent antihypertensive monotherapy does influence leptinemia in patients with mild or moderate EH. Forty-two EH patients were enrolled in this randomized, open-labeled study. In all subjects, plasma concentrations of leptin, insulin, glucose, cholesterol, triglycerides and creatinine were estimated twice - before and one month after initiation of monotherapy with perindopril, pindolol or felodipin, respectively. Plasma leptin concentration, in the afternoon and midnight, was significantly higher in patients with essential hypertension than in normotensive healthy subjects (p < 0.01). Therapy with perindopril or felodipin did not influence the daily profile of leptinemia or insulinemia, respectively. However, pindolol monotherapy showed a marked (p < 0.01) suppressive effect on the daily profile of leptinemia, but did not influence insulinemia. Conclusions: First, patients with essential hypertension are characterized by higher plasma leptin levels as compared with normotensive healthy subjects; second, suppressive effect of pindolol on leptinemia may be of pathophysiological relevance in the course of weight gain during beta-blocker therapy.     

Inducible nitric oxide synthase haplotype associated with hypertension and responsiveness to antihypertensive drug therapy

Hypertension is a multifactorial disorder associated with increased inducible nitric oxide synthase (iNOS) expression and activity. While genetic polymorphisms affect iNOS expression, it is not known whether iNOS gene polymorphisms affect the susceptibility to hypertension and the responses to antihypertensive therapy. This study aimed at assessing whether iNOS polymorphisms ((CCTTT)_n, g.-1026C > A, and g.2087G > A) and haplotypes are associated with hypertension and with responsiveness to drug therapy. We studied 115 well controlled hypertensive patients (HTN), 82 hypertensive patients resistant to optimized antihypertensive therapy (RHTN), and 113 normotensive healthy subjects (NT). Genotypings were carried out using real-time polymerase chain reaction (PCR) and PCR amplification followed by capillary electrophoresis. The software PHASE 2.1 was used to estimate the haplotype frequencies in each group. Variant genotypes (GA + AA) for the g.2087G > A polymorphism were more commonly found in hypertensive patients (HTN + RHTN) than in normotensives (P = 0.016; OR = 2.05). We found no associations between genotypes and responsiveness to therapy (P > 0.05). The S-C-A haplotype was more commonly found in hypertensive patients (HTN + RHTN) than in normotensives (P = 0.014; OR = 6.07). Interestingly, this haplotype was more commonly found in the HTN group than in the RHTN group (P = 0.012; OR = 0.14). Our findings indicate that the g.2087G > A polymorphism in the iNOS gene affects the susceptibility to hypertension. Moreover, while the S-C-A haplotype is associated with hypertension, it is also associated with responsiveness to antihypertensive therapy.     

Plasma noradrenaline response to sustained handgrip in patients with essential hypertension.

The responses of plasma noradrenaline, arterial blood pressure, and heart rate to sustained handgrip at 30% maximal voluntary contraction were studied in untreated patients with essential hypertension and in healthy subjects of comparable age. There were no significant differences between these two groups in the intensity and duration of handgrip. Increases in heart rate and blood pressure induced by the effort were similar in hypertensive patients and normotensive control subjects, whereas the absolute levels of blood pressure were considerably higher in the patients. In the first 1-2 min of exercise the increases in plasma noradrenaline concentration were similar in both groups. Subsequently, plasma noradrenaline concentration tended to plateau in hypertensive patients while in control subjects it continued to increase. The elevation of plasma noradrenaline in the last minute of effort was, therefore, significantly smaller in hypertensive patients than in the control group.     

Isolation of a plasma protein observed in patients with essential hypertension

Daily progesterone administration (1.33 mg/kg body weight) to immature rabbits brought about an initial increase in the uterine content of uteroglobin which, however, subsided when progesterone treatment was continued for 10 days. During this treatment period progesterone did not lose its own uterine receptors nor did it lose its inhibitory effect on the accumulation of occupied nuclear estrogen receptors. Since immature rabbits were used, the decrease of uteroglobin concentration cannot be explained by inhibitory effects of endogenous estrogens. The results suggest that termination of uteroglobin secretion may be a selective and inherent effect of progesterone itself.     

Erythrocyte cation transport in obesity, hypertension, and during antihypertensive drug therapy

The number and activity of erythrocyte ATPase-dependent sodium-potassium pump units were increased in obese subjects (p = 0.02). No link was observed between the number or activity of the pump units and hypertension. The ouabain-insensitive rubidium (i.e. potassium) transport was not associated with relative body weight or blood pressure status. Sodium-lithium countertransport correlated significantly with obesity but not with blood pressure status. In the hypertensive patients, before or after therapy with verapamil, hydrochlorothiazide, pindolol or atenolol there were no significant differences in cation transport. We propose that the correlation between obesity and essential hypertension cannot be explained by these two cation transport systems.     

Abnormal response of urinary eicosanoid system to norepinephrine infusion in patients with essential hypertension.

To define the role of the renal eicosanoid system in sustaining renal homeostasis in hypertension, we investigated the alterations in urinary excretions of 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha), a stable metabolite of vasodepressor prostacyclin, and thromboxane B2 (TXB2), a stable metabolite of vasoconstrictor TXA2, when norepinephrine was continuously infused for 90 min in hypertensive (n = 13) and normotensive subjects (n = 14). There was no difference in plasma norepinephrine concentration after the infusion between the hypertensive and the normotensive subjects. Moreover, the percent changes in renal vascular resistance elicited by norepinephrine in the hypertensives were equal to those of the normotensive subjects. In the normotensive subjects, the norepinephrine infusion significantly increased urinary 6-keto-PGF1 alpha excretion and decreased urinary excretion of TX, both of which are beneficial for sustaining renal function. In fact, the greater the production of renal 6-keto-PGF1 alpha was, the less the reduction of renal blood flow and urinary sodium excretion was. In the hypertensive subjects, however, these normal responses of the renal eicosanoid system, seen in the normotensives, were abolished; urinary 6-keto-PGF1 alpha was unaltered and thromboxane generation was rather increased. Thus, the renal eicosanoid system dysfunctions in hypertensive subjects when the renal circulation is challenged by norepinephrine. These abnormal responses are likely to cause sodium retention and could contribute, in part, to the hypertensive mechanism in patients with essential hypertension.     

Protein C and plasma serine protease inhibitors in patients with essential hypertension]

Plasma protein C and serine protease inhibitors together with some other hemostasis parameters have been determined in 60 patients with essential hypertension. Significant decrease in protein C and alpha 2-antiplasmin levels, increased fibrinogen, fibrinopeptide A, WF: Ag, plasminogen, and prolongation of euglobulin fibrinolysis time have been observed. Results indicate hypercoagulability and fibrinolysis defect in hypertensive patients.     

Immediate plasma renin response to propranolol: differentiation between essential and renal hypertension.

The immediate short-term effect on plasma renin activity of intravenous injection of propranolol was studied in 31 normal subjects and 166 hypertensive patients. In patients with essential hypertension and normal subjects plasma renin activity fell considerably within 15 minutes; the fall was directly proportional to initial plasma renin levels. In contrast, in patients with renal hypertension the fall was much less pronounced or totally absent. These differences in response to propranolol provide, though presently only on a group basis, a biochemical means of differentiating between patients with renal hypertension and those with essential hypertension. The observations also indicate that, unlike normal subjects and patients with essential hypertension, in patients with renal hypertension sympathetic activity plays no part in the control of basal plasma renin levels.     

Central alpha-activation by clonidine reduces plasma level of beta-endorphin in patients with essential hypertension

Whether peripheral beta-endorphin contributes to the antihypertensive action of clonidine was examined by measuring plasma levels of beta-endorphin-like immunoreactivity (beta EpLI) after acute administration of clonidine in patients with essential hypertension. Administration of clonidine (0.225 mg) in one dose significantly lowered blood pressure, decreased heart rate and reduced the plasma level of beta EpLI and ACTH, while the placebo had no effect on blood pressure, heart rate or plasma level of beta EpLI suggesting that peripheral beta-endorphin does not play a major role in the antihypertensive action of acute clonidine administration.     

Plasma leptin levels strongly correlate with plasma renin activity in patients with essential hypertension.

Previous studies demonstrated elevated plasma leptin and angiotensinogen (PRA) levels in essential hypertension. However, a few studies investigated the relationship between leptin and angiotensinogen levels in both lean and overweight/ obese hypertensives. The aim of the present study was therefore to examine the relationship between blood pressure, leptin and plasma renin activity in normotensives and in both lean and overweight/obese patients with essential hypertension. Two groups of subjects who were carefully matched for age, gender, waist:hip ratio and body mass index (BMI) were studied: 28 normotensives (NT) (age: 40.1+/-9.1 years old, BMI: 28.1+/-3.6 kg/m2, male/female: 18/10) and 33 newly diagnosed mild to moderate essential hypertensives (EHT) (age: 38.9+/-10 years old, BMI: 27.9+/-4.8 kg/m2, male/female: 22/11). No significant differences in age, gender, waist:hip ratio, fasting blood glucose and BMI were detected between EHT and NT groups. However, systolic and diastolic pressures, mean arterial blood pressures, plasma leptin levels and PRA were significantly higher in EHT group than in NT group (P = 0.001). Plasma leptin levels were strongly correlated with BMI in EHT (r=0.67, P = 0.001) and NT groups (r=0.44, P = 0.001). Plasma leptin levels were correlated with plasma PRA levels in both EHT and NT groups (r = 0.66 and r = 0.44; both P < 0.05, respectively). There was no correlation between leptin or PRA and systolic, diastolic pressures, or mean arterial blood pressures. Furthermore, the patients were divided as lean (n=16) and overweight/obese (n = 17) and compared with BMI-matched controls. In both subgroups, plasma leptin and PRA levels were also higher than those of controls. Our results showed that elevated plasma leptin and PRA are associated with hypertension in both lean and overweight/obese hypertensives. Moreover, plasma leptin was significantly correlated with plasma angiotensinogen levels. These findings suggest that adipose mass is an important determinant of blood pressure, although the mechanism is not clear.     

Effects of various doses of captopril on plasma aldosterone concentrations in patients with essential hypertension

Various doses (5 mg, 12.5 mg and 25 mg) of angiotensin I converting enzyme inhibitor (SQ 14,255, captopril) were administered to 8 patients with essential hypertension on a three-crossover study design, and the time course of mean blood pressure (MBP), plasma renin activity (PRA), plasma angiotensin converting enzyme activity (ACE-A), plasma cortisol (PC) and plasma aldosterone (PA) were determined following administration of the drug. MBP fell in a dose dependent manner, and PRA showed a minor but significant increases in cases receiving 5 and 12.5 mg of the drug. A large and significant increase in PRA was observed following 25 mg of captopril. ACE-A was also reduced in a dose dependent manner. There was no difference between changes in PC at any of the three dose levels. The serum potassium concentration was determined before and 3 hr after 25 mg of captopril treatment and no significant change was observed. In spite of the dose dependent and theoretical changes in the above parameters, lowered responses of PA to each dose of the drug were shown in reverse order against an increasing dose. That is to say, the grade of fall in PA following 25 of captopril was smaller than that following the other doses of the drug, and 5 mg induced a greater decrease in PA than 12.5 mg. Based on these findings, the relatively high dose of captopril in the present study was apparently more effective in increasing some factors which suppressed reduction of PA by a fall in angiotensin II than a low dose of the drug.     

Effect of somatostatin on plasma renin activity and blood pressure in patients with essential hypertension

The effects of somatostatin on plasma renin activity (PRA) and blood pressure were evaluated in patients with essential hypertension (EH) and in normotensive subjects. All subjects examined were hospitalized and placed on a diet containing 7-8 g/day sodium chloride and received an intravenous infusion of somatostatin (500 microgram/20 ml of saline, for 60 min) in the basal condition. During somatostatin infusion, the mean blood pressure (MBP) remained unaffected in all patients with EH and the normotensive subjects, while the PRA decreased slightly in the EH group. When the patients with EH were classified according to their renin levels (low, normal and high), parallel significant decreases in MBP and PRA were found only in the high renin group during the somatostatin infusion. No significant change in MBP and PRA was observed in the other groups including the normotensive subjects. To assess the activity of synthetic somatostatin, the plasma levels of growth hormone (GH) and cyclic AMP were measured. These levels were lowered significantly during the infusion and the GH levels showed a rebound 15 min after cessation of the infusion. The cyclic AMP returned to the basal levels, but no rebound was observed. The above data indicate that the fall in blood pressure in the high renin group in the basal condition was probably due in part to reduced renin release by somatostatin, and the maintenance of high blood pressure especially in high renin EH.     

Increased activity of the platelet-activating factor acetylhydrolase in plasma low density lipoprotein from patients with essential hypertension

We have measured activity of platelet-activating factor (PAF) acetylhydrolase, an enzyme that specifically inactivates PAF, in plasma from patients with essential hypertension and healthy controls. The average activities in 34 patients and 22 controls were 113 +/- 60 and 79 +/- 32 nmol/ml/min, respectively, and the difference was significant (p less than 0.05). Approximately three fourths of the total plasma activity was recovered in LDL, with the remainder in HDL; and there was a significant difference in the activity associated with the LDL between patients and controls. The relative distribution of the activity among lipoproteins was almost equal in the two groups, and there was no difference in plasma lipids or apoproteins between them. In patients there was a tendency for plasma PAF acetylhydrolase activity to increase with the length of the history of hypertension. Further studies are needed to distinguish between a number of reasons for increased levels of plasma PAF acetylhydrolase in essential hypertension.     

Approach to drug therapy for hypertension.

Prevention of complications of hypertension requires the lowering of blood pressure. The therapeutic goal is to achieve and maintain a diastolic pressure of less than 90 mm Hg with minimal adverse effects. The treatment of patients with established diastolic blood pressures between 90 and 104 mm Hg (determined from three separate readings) should be individualized; general measures such as weight loss and salt restriction should be tried first as an alternative to drug therapy. Patients with diastolic pressure in excess of 104 mm Hg should be treated with antihypertensive drugs; the first step should be the use of a thiazide diuretic in addition to general measures. Patients with diastolic pressures of 90 to 115 mm Hg may require the addition of a beta-adrenergic-receptor antagonist, methyldopa or clonidine if the therapeutic goal is not achieved; rarely they require the further addition of hydralazine or prazosin. Patients with diastolic pressures of 116 to 129 mm Hg usually require initially both a thiazide diuretic and a beta-blocker, methyldopa or clonidine; if the therapeutic goal is not achieved, hydralazine or prazosin is added, and if a further hypotensive effect is required guanethidine can be added. Patients with severe hypertension (diastolic pressures greater than 130 mm Hg) may require urgent treatment with combinations of drugs of all three levels. Emphasis should be placed on individualized therapy and patient compliance in the assessment of therapeutic failures. These "step-care" guidlines represent a framework for antihypertensive therapy devised from information available in 1977. It is not a rigid scheme and should be adjusted to the individual patient to ensure as normal a life as possible.