Gly16 + Glu27 β2-adrenoceptor polymorphisms cause increased forearm blood flow responses to mental stress and handgrip in humans

2005 ◽  
Vol 98 (3) ◽  
pp. 787-794 ◽  
Author(s):  
Ivani C. Trombetta ◽  
Luciana T. Batalha ◽  
Maria U. P. B. Rondon ◽  
Mateus C. Laterza ◽  
Eliana Frazzatto ◽  
...  
Keyword(s):  
Blood Flow ◽  
Sympathetic Nerve ◽  
Mental Stress ◽  
Sympathetic Nerve Activity ◽  
Forearm Blood Flow ◽  
Muscle Sympathetic Nerve Activity ◽  
Isometric Exercise ◽  
Vascular Conductance ◽  
Nerve Activity ◽  
Forearm Vascular Conductance

We hypothesized that the muscle vasodilatation during mental stress and exercise would vary among humans who are polymorphic at alleles 16 and 27 of the β2-adrenoceptors. From 216 preselected volunteers, we studied 64 healthy, middle-aged normotensive women selected to represent three genotypes: homozygous for the alleles Arg16 and Gln27 (Arg16/Gln27, n = 34), Gly16 and Gln27 (Gly16/Gln27, n = 20), and Gly16 and Glu27 (Gly16/Glu27, n = 10). Forearm blood flow (plethysmography) and muscle sympathetic nerve activity (microneurography) were recorded during 3-min Stroop color-word test and 3-min handgrip isometric exercise (30% maximal voluntary contraction). Baseline muscle sympathetic nerve activity, forearm vascular conductance, mean blood pressure, and heart rate were not different among groups. During mental stress, the peak forearm vascular conductance responses were greater in Gly16/Glu27 group than in Gly16/Gln27 and Arg16/Gln27 groups (1.79 ± 0.66 vs. 0.70 ± 0.11 and 0.58 ± 0.12 units, P = 0.03). Similar results were found during exercise (0.80 ± 0.25 vs. 0.28 ± 0.08 and 0.31 ± 0.08 units, P = 0.02). Further analysis in a subset of subjects showed that brachial intra-arterial propranolol infusion abolished the difference in vasodilatory response between Gly16/Glu27 ( n = 6) and Arg16/Gln27 ( n = 7) groups during mental stress (0.33 ± 0.20 vs. 0.46 ± 0.21 units, P = 0.50) and exercise (0.08 ± 0.06 vs. 0.03 ± 0.03 units, P = 0.21). Plasma epinephrine concentration in Arg16/Gln27 and Gly16/Glu27 groups was similar. In conclusion, women who are homozygous for Gly16/Glu27 of the β2-adrenoceptors have augmented muscle vasodilatory responsiveness to mental stress and exercise.

Sex differences in sympathetic neural and limb vascular reactivity to mental stress in humans

2013 ◽  
Vol 304 (3) ◽  
pp. H436-H443 ◽  
Author(s):  
Huan Yang ◽  
Thomas D. Drummer ◽  
Jason R. Carter
Keyword(s):  
Blood Flow ◽  
Mental Stress ◽  
Vascular Reactivity ◽  
Sympathetic Nerve Activity ◽  
Forearm Blood Flow ◽  
Muscle Sympathetic Nerve Activity ◽  
Vascular Conductance ◽  
Nerve Activity ◽  
Men And Women ◽  
Forearm Vascular Conductance

Mental stress elicits a robust and consistent forearm vasodilation, but vascular reactivity in the calf remains inconsistent. It has been reported that calf vascular responses to MS may be sex dependent. Muscle sympathetic nerve activity (MSNA) is an important contributor to calf blood flow (CBF), yet the relations between sex, limb blood flow, and MSNA reactivity to mental stress have not been explored. We hypothesized that mental stress would elicit more dramatic vasodilation of the limbs in women and that this might be explained by reduced MSNA reactivity and/or blunted sympathetic vascular transduction. We measured heart rate (HR), mean arterial pressure (MAP), CBF, calf vascular conductance (CVC), forearm blood flow (FBF), forearm vascular conductance (FVC), and MSNA concurrently in 18 men (age: 23 ± 2 yr) and 16 women (age: 24 ± 2 yr) during 5 min of supine baseline and 5 min of mental stress. Mental stress elicited similar increases in MAP (Δ10 ± 1 vs. Δ11 ± 1 mmHg), HR (Δ16 ± 2 vs. Δ17 ± 2 beats/min), FBF (Δ81 ± 16% vs. Δ83 ± 15%), and FVC (Δ62 ± 13% vs. Δ65 ± 13%) in men and women, respectively. In contrast, CBF (Δ16 ± 8% vs. Δ37 ± 9%, P = 0.036) and CVC (Δ4 ± 7% vs. Δ24 ± 8%, P = 0.036) responses were exaggerated in women compared with men. Changes in FVC were significantly correlated with changes in CVC in women ( r = 0.681, P = 0.004) but not in men. MSNA reactivity to mental stress was not different between men and women; however, changes in CVC were negatively correlated with increases of MSNA in men ( r = −0.411, P = 0.045) but not in women. In conclusion, our data suggest different patterns of calf vascular reactivity to mental stress in men and women that might relate, in part, to altered vascular transduction of MSNA.

scholarly journals Neurovascular responses to mental stress in prehypertensive humans

2011 ◽  
Vol 110 (1) ◽  
pp. 76-82 ◽  
Author(s):  
Christopher E. Schwartz ◽  
John J. Durocher ◽  
Jason R. Carter
Keyword(s):  
Heart Rate ◽  
Mental Stress ◽  
Sympathetic Nerve Activity ◽  
Mental Arithmetic ◽  
Pressor Response ◽  
Muscle Sympathetic Nerve Activity ◽  
Vascular Conductance ◽  
Nerve Activity ◽  
Vascular Responses ◽  
Forearm Vascular Conductance

Neurovascular responses to mental stress have been linked to several cardiovascular diseases, including hypertension. Mean arterial pressure (MAP), muscle sympathetic nerve activity (MSNA), and forearm vascular responses to mental stress are well documented in normotensive (NT) subjects, but responses in prehypertensive (PHT) subjects remain unclear. We tested the hypothesis that PHT would elicit a more dramatic increase of MAP during mental stress via augmented MSNA and blunted forearm vascular conductance (FVC). We examined 17 PHT (systolic 120–139 and/or diastolic 80–89 mmHg; 22 ± 1 yr) and 18 NT (systolic < 120 and diastolic < 80 mmHg; 23 ± 2 yr) subjects. Heart rate, MAP, MSNA, FVC, and calf vascular conductance were measured during 5 min of baseline and 5 min of mental stress (mental arithmetic). Mental stress increased MAP and FVC in both groups, but the increases in MAP were augmented (Δ 10 ± 1 vs. Δ14 ± 1 mmHg; P < 0.05), and the increases in FVC were blunted (Δ95 ± 14 vs. Δ37 ± 8%; P < 0.001) in PHT subjects. Mental stress elicited similar increases in MSNA (Δ7 ± 2 vs. Δ6 ± 2 bursts/min), heart rate (Δ21 ± 3 vs. Δ18 ± 3 beats/min), and calf vascular conductance (Δ29 ± 10 vs. Δ19 ± 5%) in NT and PHT subjects, respectively. In conclusion, mental stress elicits an augmented pressor response in PHT subjects. This augmentation appears to be associated with altered forearm vascular, but not MSNA, responses to mental stress.

scholarly journals Respiratory influences on muscle sympathetic nerve activity and vascular conductance in the steady state

2013 ◽  
Vol 304 (12) ◽  
pp. H1615-H1623 ◽  
Author(s):  
Jacqueline K. Limberg ◽  
Barbara J. Morgan ◽  
William G. Schrage ◽  
Jerome A. Dempsey
Keyword(s):  
Blood Pressure ◽  
Blood Flow ◽  
Steady State ◽  
Arterial Pressure ◽  
Sympathetic Nerve ◽  
Sympathetic Activity ◽  
Sympathetic Nerve Activity ◽  
Muscle Sympathetic Nerve Activity ◽  
Vascular Conductance ◽  
Nerve Activity

In patients with hypertension, volitional slowing of the respiratory rate has been purported to reduce arterial pressure via withdrawal of sympathetic tone. We examined the effects of paced breathing at 7, 14, and 21 breaths/min, with reciprocal changes in tidal volume, on muscle sympathetic nerve activity, forearm blood flow, forearm vascular conductance, and blood pressure in 21 men and women, 8 of whom had modest elevations in systemic arterial pressure. These alterations in breathing frequency and volume did not affect steady-state levels of sympathetic activity, blood flow, vascular conductance, or blood pressure (all P > 0.05), even though they had the expected effect on sympathetic activity within breaths (i.e., increased modulation during low-frequency/high-tidal volume breathing) ( P < 0.001). These findings were consistent across subjects with widely varied baseline levels of sympathetic activity (4-fold), mean arterial pressure (78–110 mmHg), and vascular conductance (15-fold), and those who became hypocapnic during paced breathing vs. those who maintained normocapnia. These findings challenge the notion that slow, deep breathing lowers arterial pressure by suppressing steady-state sympathetic outflow.

scholarly journals Spontaneous bursts of muscle sympathetic nerve activity decrease leg vascular conductance in resting humans

2013 ◽  
Vol 304 (5) ◽  
pp. H759-H766 ◽  
Author(s):  
Seth T. Fairfax ◽  
Jaume Padilla ◽  
Lauro C. Vianna ◽  
Michael J. Davis ◽  
Paul J. Fadel
Keyword(s):  
Blood Pressure ◽  
Arterial Blood Pressure ◽  
Sympathetic Nerve ◽  
Sympathetic Nerve Activity ◽  
Burst Size ◽  
Muscle Sympathetic Nerve Activity ◽  
Common Femoral Artery ◽  
Vascular Conductance ◽  
Nerve Activity ◽  
Arterial Blood

Previous studies in humans attempting to assess sympathetic vascular transduction have related large reflex-mediated increases in muscle sympathetic nerve activity (MSNA) to associated changes in limb vascular resistance. However, such procedures do not provide insight into the ability of MSNA to dynamically control vascular tone on a beat-by-beat basis. Thus we examined the influence of spontaneous MSNA bursts on leg vascular conductance (LVC) and how variations in MSNA burst pattern (single vs. multiple bursts) and burst size may affect the magnitude of the LVC response. In 11 young men, arterial blood pressure, common femoral artery blood flow, and MSNA were continuously recorded during 20 min of supine rest. Signal averaging was used to characterize percent changes in LVC for 15 cardiac cycles following heartbeats associated with and without MSNA bursts. LVC significantly decreased following MSNA bursts, reaching a nadir during the 6th cardiac cycle (single bursts, −2.9 ± 1.1%; and multiple bursts, −11.0 ± 1.4%; both, P < 0.001). Individual MSNA burst amplitudes and the total amplitude of consecutive bursts were related to the magnitude of peak decreases in LVC. In contrast, cardiac cycles without MSNA bursts were associated with a significant increase in LVC (+3.1 ± 0.5%; P < 0.001). Total vascular conductance decreased in parallel with LVC also reaching a nadir around the peak rise in arterial blood pressure following an MSNA burst. Collectively, these data are the first to assess beat-by-beat sympathetic vascular transduction in resting humans, demonstrating robust and dynamic decreases in LVC following MSNA bursts, an effect that was absent for cardiac cycles without MSNA bursts.

scholarly journals The Role of Central Command in the Increase in Muscle Sympathetic Nerve Activity to Contracting Muscle During High Intensity Isometric Exercise

2021 ◽  
Vol 15 ◽  
Author(s):  
Daniel Boulton ◽  
Chloe E. Taylor ◽  
Simon Green ◽  
Vaughan G. Macefield
Keyword(s):  
Sympathetic Nerve ◽  
High Intensity ◽  
Sympathetic Nerve Activity ◽  
Muscle Sympathetic Nerve Activity ◽  
Isometric Exercise ◽  
Dependent Manner ◽  
Nerve Activity ◽  
Contracting Muscle ◽  
Tungsten Microelectrode ◽  
The Right

We previously demonstrated that muscle sympathetic nerve activity (MSNA) increases to contracting muscle as well as to non-contracting muscle, but this was only assessed during isometric exercise at ∼10% of maximum voluntary contraction (MVC). Given that high-intensity isometric contractions will release more metabolites, we tested the hypothesis that the metaboreflex is expressed in the contracting muscle during high-intensity but not low-intensity exercise. MSNA was recorded continuously via a tungsten microelectrode inserted percutaneously into the right common peroneal nerve in 12 participants, performing isometric dorsiflexion of the right ankle at 10, 20, 30, 40, and 50% MVC for 2 min. Contractions were immediately followed by 6 min of post-exercise ischemia (PEI); 6 min of recovery separated contractions. Cross-correlation analysis was performed between the negative-going sympathetic spikes of the raw neurogram and the ECG. MSNA increased as contraction intensity increased, reaching mean values (± SD) of 207 ± 210 spikes/min at 10% MVC (P = 0.04), 270 ± 189 spikes/min at 20% MVC (P &lt; 0.01), 538 ± 329 spikes/min at 30% MVC (P &lt; 0.01), 816 ± 551 spikes/min at 40% MVC (P &lt; 0.01), and 1,097 ± 782 spikes/min at 50% MVC (P &lt; 0.01). Mean arterial pressure also increased in an intensity-dependent manner from 76 ± 3 mmHg at rest to 90 ± 6 mmHg (P &lt; 0.01) during contractions of 50% MVC. At all contraction intensities, blood pressure remained elevated during PEI, but MSNA returned to pre-contraction levels, indicating that the metaboreflex does not contribute to the increase in MSNA to contracting muscle even at these high contraction intensities.

Time-dependent modulation of arterial baroreflex control of muscle sympathetic nerve activity during isometric exercise in humans

2006 ◽  
Vol 290 (4) ◽  
pp. H1419-H1426 ◽  
Author(s):  
Masashi Ichinose ◽  
Mitsuru Saito ◽  
Narihiko Kondo ◽  
Takeshi Nishiyasu
Keyword(s):  
Sympathetic Nerve ◽  
Sympathetic Nerve Activity ◽  
Muscle Sympathetic Nerve Activity ◽  
Isometric Exercise ◽  
Time Dependent ◽  
Operating Pressure ◽  
Dependent Manner ◽  
Arterial Baroreflex ◽  
Isometric Handgrip ◽  
Nerve Activity

We investigated the time-dependent modulation of arterial baroreflex (ABR) control of muscle sympathetic nerve activity (MSNA) that occurs during isometric handgrip exercise (IHG). Thirteen healthy subjects performed a 3-min IHG at 30% maximal voluntary contraction, which was followed by a period of imposed postexercise muscle ischemia (PEMI). The ABR control of MSNA (burst incidence and strength and total activity) was evaluated by analyzing the relationship between spontaneous variations in diastolic arterial pressure (DAP) and MSNA during supine rest, at each minute of IHG, and during PEMI. We found that 1) the linear relations between DAP and MSNA variables were shifted progressively rightward until the third minute of IHG (IHG3); 2) 2 min into IHG (IHG2), the DAP-MSNA relations were shifted upward and were shifted further upward at IHG3; 3) the sensitivity of the ABR control of total MSNA was increased at IHG2 and increased further at IHG3; and 4) during PEMI, the ABR operating pressure was slightly higher than at IHG2, and the sensitivity of the control of total MSNA was the same as at IHG2. During PEMI, the DAP-burst strength and DAP-total MSNA relations were shifted downward from the IHG3 level to the IHG2 level, whereas the DAP-burst incidence relation remained at the IHG3 level. These results indicate that during IHG, ABR control of MSNA is modulated in a time-dependent manner. We suggest that this modulation of ABR function is one of the mechanisms underlying the progressive increase in blood pressure and MSNA during the course of isometric exercise.

scholarly journals Relative burst amplitude of muscle sympathetic nerve activity is an indicator of altered sympathetic outflow in chronic anxiety

2018 ◽  
Vol 120 (1) ◽  
pp. 11-22 ◽  
Author(s):  
Seth W. Holwerda ◽  
Rachel E. Luehrs ◽  
Allene L. Gremaud ◽  
Nealy A. Wooldridge ◽  
Amy K. Stroud ◽  
...  
Keyword(s):  
Sympathetic Nerve ◽  
Mental Stress ◽  
Sympathetic Nerve Activity ◽  
Acute Stress ◽  
Physiological Stress ◽  
Muscle Sympathetic Nerve Activity ◽  
Sympathetic Outflow ◽  
Nerve Activity ◽  
Burst Amplitude ◽  
Chronic Anxiety

Relative burst amplitude of muscle sympathetic nerve activity (MSNA) is an indicator of augmented sympathetic outflow and contributes to greater vasoconstrictor responses. Evidence suggests anxiety-induced augmentation of relative MSNA burst amplitude in patients with panic disorder; thus we hypothesized that acute stress would result in augmented relative MSNA burst amplitude and vasoconstriction in individuals with chronic anxiety. Eighteen participants with chronic anxiety (ANX; 8 men, 10 women, 32 ± 2 yr) and 18 healthy control subjects with low or no anxiety (CON; 8 men, 10 women, 39 ± 3 yr) were studied. Baseline MSNA and 24-h blood pressure were similar between ANX and CON ( P > 0.05); however, nocturnal systolic blood pressure % dipping was blunted among ANX ( P = 0.02). Relative MSNA burst amplitude was significantly greater among ANX compared with CON immediately preceding (anticipation) and during physiological stress [2-min cold pressor test; ANX: 73 ± 5 vs. CON: 59 ± 3% arbitrary units (AU), P = 0.03] and mental stress (4-min mental arithmetic; ANX: 65 ± 3 vs. CON: 54 ± 3% AU, P = 0.02). Increases in MSNA burst frequency, incidence, and total activity in response to stress were not augmented among ANX compared with CON ( P > 0.05), and reduction in brachial artery conductance during cold stress was similar between ANX and CON ( P = 0.92). Relative MSNA burst amplitude during mental stress was strongly correlated with state ( P < 0.01) and trait ( P = 0.01) anxiety (State-Trait Anxiety Inventory), independent of age, sex, and body mass index. Thus in response to acute stress, both mental and physiological, individuals with chronic anxiety demonstrate selective augmentation in relative MSNA burst amplitude, indicating enhanced sympathetic drive in a population with higher risk for cardiovascular disease. NEW & NOTEWORTHY Relative burst amplitude of muscle sympathetic nerve activity in response to acute mental and physiological stress is selectively augmented in individuals with chronic anxiety, which is a prevalent condition that is associated with the development of cardiovascular disease. Augmented sympathetic burst amplitude occurs with chronic anxiety in the absence of common comorbidities. These findings provide important insight into the relation between anxiety, acute stress and sympathetic activation.

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