马运动前后肾素-血管紧张素-醛固酮系统分析

IF 2.1 2区农林科学 Q1 VETERINARY SCIENCES

Journal of Veterinary Internal Medicine Pub Date : 2025-03-06 DOI:10.1111/jvim.70036

Todd Holbrook, Jorge Hernandez, Taralyn McCarrel, Guy Lester, Margaret Sleeper, Oliver Domenig, Darcy Adin

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引用次数: 0

摘要

研究背景：运动对马经典和替代肾素-血管紧张素-醛固酮系统（RAAS）通路的影响尚未被研究。我们假设运动可以激活RAAS通路，而耐力运动比短时间高强度的运动更能激活马的经典通路。25匹马（21匹客户自养，4匹研究用）被分为4个运动组(10匹阿拉伯马，50英里骑行[A-E]；4匹纯种马，1英里跑步机锻炼[TB-TM]；5匹纯种马，1 - 1/16英里赛跑[TB-R]；和6匹四分之一的马330-500码比赛[QH-R])。方法在运动前后采集血液。平衡分析测定血清RAAS代谢物和酶活性。比较运动前后RAAS通路的组成。在运动组之间比较每个变量的运动后/运动前比率。数据以中位数报告(第一、第三四分位数；Pre vs. post)和p <； 0.05被认为是显著的。结果运动增加经典RAAS代谢物（pmol/L）；血管紧张素I， 2.5 [2.5, 2.5] vs. 8.2 [2.5, 19.0]；血管紧张素II， 10.2 [6.0, 21.9] vs. 53.0 [37.4, 95.8]；醛固酮，83.8 [53.4,149.5]vs. 170.6 [112.2, 251.7])；替代RAAS代谢物(pmol/L；血管紧张素1 - 7,1.5(1.5,1.5)和5.1 (1.5,12.5);血管紧张素1 - 5,2.5 [2.5,7.3]vs. 14.9[9.0, 25.4])和血管紧张素转换酶-2活性(ng/mL；16.6 [13.9, 20.4] vs. 25.2 [20.2, 33.0]；P < 0.001)。TB-R组血管紧张素1-7比值高于TB-TM和A-E组（p < 0.001）。结论和临床意义马的经典和替代RAAS通路在运动后均增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Renin-Angiotensin-Aldosterone System Profiling in Horses Before and After Exercise

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Renin-Angiotensin-Aldosterone System Profiling in Horses Before and After Exercise

Background

The impact of exercise on the classical and alternative renin-angiotensin-aldosterone system (RAAS) pathways has not been studied in horses.

Hypothesis

We hypothesized that exercise would activate both RAAS pathways and that endurance exercise would cause more activation of the classical pathway compared to short-duration, high-intensity exercise in horses.

Animals

Twenty-five horses (21 client-owned and 4 research) were included in 4 exercise groups (10 Arabians, 50-mile ride [A-E]; 4 thoroughbreds, 1-mile treadmill exercise [TB-TM]; 5 thoroughbreds, 1–1/16th-mile race [TB-R]; and 6 quarter horses 330-500-yard race [QH-R]).

Methods

Blood was collected before and after exercise. Equilibrium analysis was performed to measure serum RAAS metabolites and enzyme activities. The components of the RAAS pathways were compared before and after exercise. Post/pre-exercise ratios for each variable were compared among exercise groups. Data were reported as median (first, third quartiles; pre vs. post) and p < 0.05 was considered significant.

Results

Exercise increased classical RAAS metabolites (pmol/L; angiotensin I, 2.5 [2.5, 2.5] vs. 8.2 [2.5, 19.0]; angiotensin II, 10.2 [6.0, 21.9] vs. 53.0 [37.4, 95.8]; aldosterone, 83.8 [53.4, 149.5] vs. 170.6 [112.2, 251.7]); alternative RAAS metabolites (pmol/L; angiotensin 1–7, 1.5 [1.5, 1.5] vs. 5.1 [1.5, 12.5]; angiotensin 1–5, 2.5 [2.5, 7.3] vs. 14.9 [9.0, 25.4]) and angiotensin-converting enzyme-2 activity (ng/mL; 16.6 [13.9, 20.4] vs. 25.2 [20.2, 33.0]; p < 0.001) for all horses. Angiotensin 1–7 ratios were higher for TB-R compared with TB-TM and A-E (p < 0.001).

Conclusions and Clinical Importance

Both classical and alternative RAAS pathways increase after exercise in horses.

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来源期刊

Journal of Veterinary Internal Medicine 农林科学-兽医学

CiteScore

4.50

自引率

11.50%

发文量

243

审稿时长

22 weeks

期刊介绍： The mission of the Journal of Veterinary Internal Medicine is to advance veterinary medical knowledge and improve the lives of animals by publication of authoritative scientific articles of animal diseases.