Patterns of sodium excretion during sympathetic nervous system arousal.

Harshfield, Gregory A.; Pulliam, Derrick A.; Alpert, Bruce S.

doi:10.1161/01.hyp.17.6.1156

Cited by 27 publications

(9 citation statements)

References 9 publications

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“…3 For example, the heritability of salt sensitivity, defined as an increased BP response to high-salt intake or decrease of BP on a low-salt diet 9 has been well-documented 10–13 and heritabilities between 43% and 52% have been observed for fractional and 24-h sodium excretion. 14,15Furthermore, Light et al 16 showed that high reactors to a series of psychological stressors, with a family history of essential hypertension tended to retain sodium during the stress test period, which was later confirmed in further human 17 and animal studies. 18,19 Based on this evidence, we hypothesize that a genetic predisposition for impaired sodium handling will adversely affect the pressure-natriuresis response to stress.…”

Section: Introductionmentioning

confidence: 94%

Stress-Induced Sodium Excretion

Zhu

et al. 2009

Hypertension

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Abstract-Impaired stress-induced pressure natriuresis, ie, an inadequate compensatory increase in urinary sodium excretion (U Na V) in response to a stress-induced blood pressure increase, may lead to the premature development of essential hypertension. To assess the heritability of baseline U Na V, stress U Na V, and the U Na V response to stress (⌬U Na Vϭstress U Na VϪ baseline U Na V), we studied 396 black and 494 white twins, including monozygotic and dizygotic twins of the same as well as the opposite sex (mean age: 17.6Ϯ3.3 years; range: 11.9 to 30.0 years). Bivariate genetic model fitting was performed to examine the extent to which genetic and environmental factors are common or specific to baseline and stress U Na V. Heritability estimates for ⌬U Na V can be derived from these bivariate models. All of the bivariate analyses were performed separately in whites and blacks, because univariate models for baseline U Na V showed significant ethnic differences in heritability estimates. Best-fitting models showed that the heritability of stress U Na V was 0.42 in whites and 0.58 in blacks. Only 15% and 11% of the total variance could be attributed to genetic factors common to baseline and stress U Na V in whites and blacks, respectively. After removal of all of the shared influences with baseline U Na V, heritabilities for stress U Na V were 0.32 in whites and 0.57 in blacks. Heritability estimates for ⌬U Na V were 0.36 in whites and 0.39 in blacks. In summary, this study establishes ⌬U Na V and stress U Na V as heritable phenotypes that may be used to study the genetic etiology of early hypertension development. Key Words: natriuresis Ⅲ blood pressure Ⅲ risk factors Ⅲ genetics Ⅲ twin study Ⅲ black T he key role of the kidney in long-term blood pressure (BP) regulation is generally recognized 1,2 and includes sodium handling in response to extended periods of stress. 3 We showed recently that individuals without an adequate compensatory increase in the urinary sodium excretion (U Na V) rate in response to a stress-induced BP increase (ie, impaired stress-induced pressure natriuresis [SIPN]) show a delayed BP recovery after stress, which seemed to be at least partly because of their increased blood volume. 4 For the same level of stress, individuals who show impaired SIPN are, therefore, exposed to a greater cardiovascular and renal load, which may lead to the premature development of essential hypertension and its sequelae. 4,5 This scenario was supported by a recent study in which we observed that adolescent black subjects with impaired SIPN showed a higher albumin excretion rate than those with normal sodium excretion. 6 We previously proposed a gene-environment interaction model of stress-induced hypertension in which we integrated both short-term (cardiovascular) and long-term (renal) BP regulatory pathways. 3,7,8 Several studies suggest the importance of genetic influence on the renal handling of sodium, but evidence is indirect with regard to the renal response to stress. 3 For example, the heritability ...

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Section: Introductionmentioning

confidence: 94%

Stress-Induced Sodium Excretion

Zhu

et al. 2009

Hypertension

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“…The mental stress protocol was a modified version of the standard stress testing protocol we have used successfully up to this point in over 1000 subjects as described previously in both adult 25 and pediatric populations. 17,[26][27][28] The stressor was a competitive video game task played against another individual for monetary reward. On the testing day, the subjects were tested in a private room in a comfortable chair.…”

Section: Stress Testing Protocolmentioning

confidence: 99%

Angiotensin II receptor blocker attenuates stress pressor response in young adult African Americans

Jeong

Hanevold

Harris

et al. 2019

J of Clinical Hypertension

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African Americans (AAs) are susceptible to hypertension (HTN) and its associated organ damage leading to adverse cardiovascular (CV) outcomes. Psychological stress is proposed to contribute to the development of HTN; however, the potential role of the renin‐angiotensin system (RAS) in stress‐related HTN in AAs is largely unknown. In this study, we tested the hypothesis that activation of RAS is a potential contributing factor for altered CV responses to stress, and suppression of angiotensin II (Ang II) activity will improve hemodynamic responses to a prolonged mental stressor in healthy young AAs. Utilizing a double‐blind, randomized, crossover study design, 132 normotensive AAs (25 ± 7 years) were treated with either a placebo (PLC) or 150 mg/d irbesartan (an Ang II type 1 receptor blocker; ARB) for 1 week. On the final day of each treatment, hemodynamic measures and urinary sodium excretion (UNaV) were collected before, during and after a 45 minute‐mental stress. The magnitude of stress‐induced increase in blood pressure with ARB was blunted and delayed compared to PLC. Systolic blood pressure at the end of recovery on ARB was significantly lower compared to either PLC (110 ± 13 vs 117 ± 12 mm Hg respectively; P < 0.001) or the prestress level on ARB (P = 0.02). ARB treatment reduced overall vasoconstriction and improved poststress UNaV. ARB attenuated blood pressure responses to mental stress and improved the poststress BP recovery process which were partly linked to reduced overall vasoconstriction and improved stress‐induced UNaV in young adult AAs prior to the development of disease conditions. These results suggest that treatment approaches that inhibit RAS action could have significant relevance to potentially lower susceptibility to stress responses and eventually the premature development of HTN in AAs.

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“…For example, shockavoidance conditioning decreases renal blood flow in monkeys (Forsyth, 1971;Vatner, 1978) and decreases renal excretion of sodium and water in dogs (Koepke, 1985). In studies with humans, borderline hypertensives (Light, Koepke, Obrist, & Willis, 1983) and normotensive young adults both with (Light et al, 1983) and without (Harshfield, Pulliam, & Alpert, 1991) a family history of hypertension have exhibited reduced sodium excretion rates during laboratory stressors.…”

Section: Discussionmentioning

confidence: 99%

Biobehavioral Effects of Extended Salt Loading and Conflict Stress in Intact Baboons

Turkkan

1994

J Exper Analysis Behavior

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Behavioral stressors may inhibit sodium excretion, potentially increasing plasma volume and elevating blood pressure during chronic exposure. Blood pressure regulation may be especially deranged during manipulations that further challenge the kidney, such as a diet high in salt content. The effects on blood pressure and other variables of combined behavioral stress (food/shock conflict) and dietary salt (12 g NaCl per day; 218 mEq Na+ per day) were examined in adult male baboons over the course of 1 year. Mean arterial pressure was not significantly elevated over baseline after 5 months of high dietary salt alone (6 +/- 5 mmHg) but was maximally elevated by an average of 17 (+/- 3 SEM) mmHg after 5 months of combined salt and conflict stress. Control baboons showed no significant trends in mean arterial pressure across the same time period. Individual subjects whose blood pressure was "salt+stress resistant" or "salt+stress sensitive" were differentiated by their degree of pressure diuresis and natriuresis, urinary free cortisol, and a behavioral index of stress sensitivity. The data indicate additive effects of chronic high dietary salt intake and behavioral stressors on blood pressure in nonhuman primates that are dependent on renal function and pituitary-adrenocortical activity.

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Patterns of sodium excretion during sympathetic nervous system arousal.

Cited by 27 publications

References 9 publications

Stress-Induced Sodium Excretion

Stress-Induced Sodium Excretion

Angiotensin II receptor blocker attenuates stress pressor response in young adult African Americans

Biobehavioral Effects of Extended Salt Loading and Conflict Stress in Intact Baboons

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