Disorders in peripheral arterial system in asymptomatic elderly: plethysmographic semiology at rest, during postural, effort and pharmacological tests

Overexpression of GRK2 in vascular smooth muscle leads to inappropriate hypertension and acute heart failure as in clinical scenario 1

Clinical scenario 1 (CS1) is acute heart failure (HF) characterized by transient systolic blood pressure (SBP) elevation and pulmonary congestion. Although it is managed by vasodilators, the molecular mechanism remains unclear. The sympathetic nervous system plays a key role in HF, and desensitization of cardiac β-adrenergic receptor (AR) signaling due to G protein-coupled receptor kinase 2 (GRK2) upregulation is known. However, vascular β-AR signaling that regulates cardiac afterload remains unelucidated in HF. We hypothesized that upregulation of vascular GRK2 leads to pathological conditions similar to CS1. GRK2 was overexpressed in vascular smooth muscle (VSM) of normal adult male mice by peritoneally injected adeno-associated viral vectors driven by the myosin heavy chain 11 promoter. Upregulation of GRK2 in VSM of GRK2 overexpressing mice augmented the absolute increase in SBP (+ 22.5 ± 4.3 mmHg vs. + 36.0 ± 4.0 mmHg, P < 0.01) and lung wet weight (4.28 ± 0.05 mg/g vs. 4.76 ± 0.15 mg/g, P < 0.01) by epinephrine as compared to those in control mice. Additionally, the expression of brain natriuretic peptide mRNA was doubled in GRK2 overexpressing mice as compared to that in control mice (P < 0.05). These findings were similar to CS1. GRK2 overexpression in VSM may cause inappropriate hypertension and HF, as in CS1.

Digital pulse plethysmography (DPG) in studies of the hemodynamic response to nitrates--a survey of recording methods and principles of analysis

Digital pulse plethysmography (DPG) has proved a technically simple, noninvasive, sensitive and informative technique for studying the effects of nitroglycerin and other nitrates on peripheral arteries. The importance of performing nitrate evaluation by DPG mainly in elderly subjects is emphasized. On the basis of observations with DPG some indirect conclusions on the effect of nitrates on the coronary arteries are justified. A review, with recommendations based on own experience, is given of various recording techniques and principles of evaluating quantitatively the digital volume pulse contour, with special reference to the influence of nitrates on the position and appearance of dicrotism. DPG seems to be a convenient, noninvasive and helpful procedure in studies on the development of nitrate tolerance.

G protein alterations in hypertension and aging

Defective vasodilator function could be important in the pathogenesis and/or maintenance of the hypertensive state and the predisposition of the elderly to hypertension. Impaired beta-adrenergic-mediated vasodilation and reduced lymphocyte beta-adrenergic activation of adenyl cyclase have been demonstrated both in aging and with hypertension. The cellular mechanisms responsible for these alterations remain unclear. To determine if these defects may be due to alterations in guanine nucleotide regulatory proteins (G proteins) that link receptor activation with effector function, we assessed (1) human lymphocyte adenyl cyclase activity, (2) stimulatory G proteins by cholera toxin-mediated [32P]ADP ribosylation and, in hypertensive subjects, with alpha s-specific and beta-subunit antisera, and (3) inhibitory G proteins by pertussis toxin-mediated [32P]ADP ribosylation and, in older subjects, with alpha i,1,2- and beta-subunit-specific antisera. Lymphocytes from older subjects and from hypertensive subjects demonstrated a comparable reduction in isoproterenol-stimulated adenyl cyclase. However, aluminum fluoride-stimulated activity was reduced only in lymphocytes from hypertensive subjects. Furthermore, aluminum fluoride-stimulated activity was inversely correlated with mean arterial pressure. In lymphocytes from younger hypertensive subjects, cholera toxin-mediated labeling was significantly increased. In contrast, inhibitory G protein labeling by immunodetection was unaltered. In lymphocytes from older subjects, cholera toxin-mediated labeling was not altered; however, pertussis toxin-mediated labelling was significantly increased. In contrast, inhibitory G protein labeling by immunodetection was unaltered. Overall, the study suggests alterations of G protein function of adenyl cyclase is impaired. However, these defects are associated with divergent alterations in stimulatory and inhibitory G proteins.

Insulin-mediated vasodilation: impairment with increased blood pressure and body mass

Insulin resistance is associated with hypertension although it is not known if this relationship is casual. Studies have shown that insulin increases skeletal-muscle blood flow despite also increasing sympathetic activity. To determine whether insulin may act as a direct vasodilator and whether insulin-mediated vascular effects are altered in hypertension, we studied insulin-mediated alterations in dorsal-hand-vein compliance in normotensive and mild and borderline hypertensive subjects. In phenylephrine pre-constricted vessels, insulin caused a dose-dependent increase in venous distensibility. Insulin-mediated venodilation was significantly impaired in hypertensive subjects. The vasodilator potency of insulin was significantly correlated with both blood pressure and body mass index. Insulin may be an endogenous vasodilator. Further, in hypertensive and obese subjects, impairment of insulin-mediated vasodilation may contribute to the increase in peripheral resistance characteristic of hypertension.

A low-sodium diet corrects the defect in beta-adrenergic response in older subjects

BACKGROUND

One of the prominent cardiovascular abnormalities in the elderly is reduced beta-adrenoceptor responsiveness. Because dietary sodium restriction corrects the defect in vascular and lymphocyte beta-adrenoceptor responsiveness in hypertensive subjects, we postulated an analogous effect in the elderly. Thus, vascular and lymphocyte beta-adrenergic responsiveness were studied in 10 older normotensive subjects (age, 56 +/- 2 years) on either a 400- or 10-meq/day sodium diet.

METHODS AND RESULTS

In older subjects fed a high-sodium diet, maximal isoproterenol-mediated vasodilation was depressed compared with a group of normotensive younger subjects studied previously. When they were fed a low-sodium diet, however, maximal isoproterenol-mediated vasodilation in the elderly was increased significantly. Lymphocyte adenylyl cyclase sensitivity to isoproterenol was comparably increased. Blood pressure was significantly reduced on a low-sodium diet, and mean arterial pressure was significantly inversely correlated with the extent of isoproterenol-mediated vasodilation.

CONCLUSIONS

These studies indicate that a low-sodium diet corrects the defect in both vascular and lymphocyte beta-adrenergic responsiveness with aging. This suggests an important role for dietary modification in the adrenergic regulation of vascular tone in the elderly.

Postural changes in cardiac volumes in men in relation to adult age

Cardiac volumes by equilibrium gated cardiac blood pool scans and heart rate were measured in the supine and sitting positions in 64 male volunteer subjects (age 25-80 yrs) who had been rigorously screened to exclude cardiovascular disease. After the upright position was assumed, the average cardiac output of all subjects was unchanged but heart rate increased and stroke volume decreased due to a decrease in end diastolic volume. Neither the supine or sitting cardiac output nor the average postural change in cardiac output, cardiac volumes or heart rate was age-related. While the average cardiac output among the subjects was unaltered with a change in posture, in some individuals it increased slightly while in others it decreased. The postural change in cardiac output among the individuals correlated by linear regression analysis with a change in heart rate only in younger subjects and with a change in stroke volume in all age groups, but the slope of this relationship was greater in older than in younger subjects. The postural change in stroke volume was strongly correlated with a change in end diastolic volume and this relationship did not vary with age. Thus, although the average postural change in cardiac output among healthy subjects is not age-related, a given change in cardiac output with posture in an older individual depends more on a change in stroke volume and less on a heart rate change than in a younger one. This result, like the response to vigorous upright exercise previously demonstrated to occur with aging, indicates a greater reliance in the elderly on the Frank-Starling mechanism than on heart rate for a given change in cardiac output in response to perturbations from the basal supine state.

Exercise cardiac output is maintained with advancing age in healthy human subjects: cardiac dilatation and increased stroke volume compensate for a diminished heart rate

To assess the effect of age on cardiac volumes and function in the absence of overt or occult coronary disease, we performed serial gated blood pool scans at rest and during progressive upright bicycle exercise to exhaustion in 61 participants in the Baltimore Longitudinal Study of Aging. The subjects ranged in age from 25 to 79 years and were free of cardiac disease according to their histories and results of physical, resting and stress electrocardiographic, and stress thallium scintigraphic examinations. Absolute left ventricular volumes were obtained at each workload. There were no age-related changes in cardiac output, end-diastolic or end-systolic volumes, or ejection fraction at rest. During vigorous exercise (125 W), cardiac output was not related to age (cardiac output [1/min] = 16.02 + 0.03 [age]; r = .12, p = .46). However, there was an age-related increase in end-diastolic volume (end-diastolic volume [ml] = 86.30 + 1.48 [age]; r = .47, p = .003) and stroke volume (stroke volume [ml] = 85.52 + 0.80 [age]; r = .37, p = .02), and an age-related decrease in heart rate (heart rate [beats/min] = 184.66 - 0.70 [age]; r = -.50, p = .002). The dependence of the age-related increase in stroke volume on diastolic filling was emphasized by the fact that at this high workload end-systolic volume was higher (end-systolic volume [ml] = 3.09 + 0.65 [age]; r = .45, p = .003) and ejection fraction lower (ejection fraction = 88.48 - 0.18 [age]; r = -.33, p = .04) with increasing age. These findings indicate that although aging does not limit cardiac output per se in healthy community-dwelling subjects, the hemodynamic profile accompanying exercise is altered by age and can be explained by an age-related diminution in the cardiovascular response to beta-adrenergic stimulation.