Aerobic exercise and Orexin A: role of sympathetic activity and redox system

V. Monda, I. Villano, A. Messina, A. Valenzano, M. Salerno, S.Santo Signorelli, M. Monda, V. Russo, F. Sessa, G. Messina

Article ID: 5412
Vol 33, Issue 2, 2019
DOI: https://doi.org/10.54517/jbrha5412
Received: 12 September 2018; Accepted: 12 September 2018; Available online: 9 May 2019; Issue release: 9 May 2019

Abstract

Aerobic exercise is associated with the sympathetic activation evoking adaptive responses to sustainmuscle engagement. Physical exercise can cause alterations in the cardiovascular activity and cellularstress may occur which could be marked by either heart rate (HR), or galvanic skin response (GSR).Moderate plasma levels of reactive oxygen species (ROS) are considered as health markers, absolving toimportant roles such as adaptive cellular responses to exercise. Orexin A, a hypothalamic peptide, causes awidespread stimulation of the sympathetic nervous system, playing a role in many physiological functions.The aim of this study was to analyze the effects of aerobic exercise on Orexin A plasma levels, evaluatingthe possible association with physical exercise and oxidative stress, both involved in the sympathetic andthermogenic reactivities. Three blood samples were collected at various periods of time from all participants(25 males with mean age of 23.4±2.1 years): resting time (0 min), exercise time (at the start and at endof exercise) and recovery time (30-45 min after training). At the same interval times, heart rate (HR),galvanic skin response (GSR), rectal temperature, and d-ROMs test were monitored. Exercise induceda significant increase in the following parameters: HR (p <0.01); GSR (p<0.05); rectal temperature(p<0.01); and plasma Orexin A (p < 0.01). No significant increase of the d-ROMs values were found.The results of this study confirmed that physical activity is associated with the sympathetic activation, asdemonstrated by HR and GSR increases after training. Changes in the Orexin A plasma levels reveal thepresence of hormonal adaptations in response to exercise, indicating that this peptide might be involved incardiovascular regulation. Further studies could confirm the multitasking role of this neuropeptide.


Keywords

exercise;orexin A;sympathetic activity;reactive oxygen species;UCPs


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