Adrenergic control of the cardiovascular system in deer mice native to high altitude

IF 2.1 Q3 PHYSIOLOGY Current research in physiology Pub Date : 2022-01-01 DOI:10.1016/j.crphys.2022.01.006
Oliver H. Wearing , Derek Nelson , Catherine M. Ivy , Dane A. Crossley II , Graham R. Scott
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引用次数: 3

Abstract

Studies of animals native to high altitude can provide valuable insight into physiological mechanisms and evolution of performance in challenging environments. We investigated how mechanisms controlling cardiovascular function may have evolved in deer mice (Peromyscus maniculatus) native to high altitude. High-altitude deer mice and low-altitude white-footed mice (P. leucopus) were bred in captivity at sea level, and first-generation lab progeny were raised to adulthood and acclimated to normoxia or hypoxia. We then used pharmacological agents to examine the capacity for adrenergic receptor stimulation to modulate heart rate (fH) and mean arterial pressure (Pmean) in anaesthetized mice, and used cardiac pressure-volume catheters to evaluate the contractility of the left ventricle. We found that highlanders had a consistently greater capacity to increase fH via pharmacological stimulation of β1-adrenergic receptors than lowlanders. Also, whereas hypoxia acclimation reduced the capacity for increasing Pmean in response to α-adrenergic stimulation in lowlanders, highlanders exhibited no plasticity in this capacity. These differences in highlanders may help augment cardiac output during locomotion or cold stress, and may preserve their capacity for α-mediated vasoconstriction to more effectively redistribute blood flow to active tissues. Highlanders did not exhibit any differences in some measures of cardiac contractility (maximum pressure derivative, dP/dtmax, or end-systolic elastance, Ees), but ejection fraction was highest in highlanders after hypoxia acclimation. Overall, our results suggest that evolved changes in sensitivity to adrenergic stimulation of cardiovascular function may help deer mice cope with the cold and hypoxic conditions at high altitude.

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高原鹿鼠心血管系统的肾上腺素能控制
对高海拔原生动物的研究可以提供有价值的见解生理机制和进化的性能在挑战性的环境。我们研究了高海拔地区鹿鼠(Peromyscus maniculatus)控制心血管功能的机制是如何进化的。在海平面人工饲养高海拔鹿鼠和低海拔白足鼠(P. leucopus),将第一代实验室后代饲养至成年,并适应常氧或低氧环境。然后,我们使用药物检测肾上腺素能受体刺激对麻醉小鼠心率(fH)和平均动脉压(Pmean)的调节能力,并使用心压-容量导管评估左心室收缩力。我们发现高地人通过β1-肾上腺素能受体的药理刺激增加fH的能力始终比低地人更大。此外,低氧驯化降低了低地人对α-肾上腺素能刺激增加Pmean的能力,而高原人在这种能力上没有可塑性。高原人的这些差异可能有助于在运动或冷应激时增加心输出量,并可能保持α介导的血管收缩能力,从而更有效地将血流重新分配到活动组织。高原人在心脏收缩力的某些指标(最大压力导数,dP/dtmax,或收缩末期弹性,Ees)上没有表现出任何差异,但在缺氧驯化后,高原人的射血分数最高。总的来说,我们的研究结果表明,对肾上腺素能刺激心血管功能的敏感性的进化变化可能有助于鹿小鼠应对高海拔地区的寒冷和缺氧条件。
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CiteScore
3.20
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0.00%
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0
审稿时长
62 days
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