Exercise improves systemic metabolism in a monocrotaline model of pulmonary hypertension

IF 2.3 Q2 SPORT SCIENCES

Sports Medicine and Health Science Pub Date : 2024-03-08 DOI:10.1016/j.smhs.2024.03.001

Ganesha Poojary , Sampara Vasishta , R. Huban Thomas , Kapaettu Satyamoorthy , Ramachandran Padmakumar , Manjunath B. Joshi , Abraham Samuel Babu

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Abstract

Exercise training in pulmonary arterial hypertension (PAH) has been gaining popularity with guidelines now recommending it as an important adjunct to medical therapy. Despite improvements in function and quality of life, an understanding of metabolic changes and their mechanisms remain unexplored. The objective of this study was therefore to understand the metabolic basis of exercise in a monocrotaline model of PAH.

24 male Wistar rats (age: 8–12 weeks and mean body weight: [262.16 ± 24.49] gms) were assigned to one of the four groups (i.e., Control, PAH, Exercise and PAH + Exercise). The exercise groups participated in treadmill running at 13.3 m/min, five days a week for five weeks. Demographic and clinical characteristics were monitored regularly. Following the intervention, LC-MS based metabolomics were performed on blood samples from all groups at the end of five weeks. Metabolite profiling, peak identification, alignment and isotope annotation were also performed. Statistical inference was carried out using dimensionality reducing techniques and analysis of variance.

Partial-least-squares discrimination analysis and variable importance in the projection scores showed that the model was reliable, and not over lifting. The analysis demonstrated significant perturbations to lipid and amino acid metabolism, arginine and homocysteine pathways, sphingolipid (p < 0.05), glycerophospholipid (p < 0.05) and nucleotide metabolism in PAH. Exercise, however, was seen to restore arginine (p < 0.05) and homocysteine(p < 0.000 1) levels which were independent effects, irrespective of PAH.

Dysregulated arginine and homocysteine pathways are seen in PAH. Exercise restores these dysregulated pathways and could potentially impact severity and outcome in PAH.

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运动可改善单克隆肾上腺素肺动脉高压模型的全身新陈代谢

肺动脉高压（PAH）运动训练越来越受到人们的青睐，现在的指南建议将其作为药物治疗的重要辅助手段。尽管肺动脉高压患者的功能和生活质量有所改善，但他们对新陈代谢变化及其机制的了解仍有待深入。24 只雄性 Wistar 大鼠（年龄：8-12 周，平均体重：[262.16 ± 24.49] gms）被分为四组（即对照组、PAH 组、运动组和 PAH + 运动组）。运动组参加每周五天、每分钟 13.3 米的跑步机跑步，为期五周。定期监测人口统计学和临床特征。干预结束后，在五周结束时对所有组别的血液样本进行基于 LC-MS 的代谢组学分析。同时还进行了代谢组学分析、峰值识别、配准和同位素注释。利用降维技术和方差分析进行了统计推断。偏最小二乘判别分析和投影分数中变量的重要性表明，该模型是可靠的，没有过度提升。分析表明，PAH 患者的脂质和氨基酸代谢、精氨酸和同型半胱氨酸途径、鞘脂（p < 0.05）、甘油磷脂（p < 0.05）和核苷酸代谢受到了明显干扰。然而，运动可恢复精氨酸（p < 0.05）和同型半胱氨酸（p < 0.000 1）水平，这是独立的效应，与 PAH 无关。运动可恢复这些失调的通路，并有可能影响 PAH 的严重程度和预后。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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