Abdulkarim Tutakhail1, Qand Agha Nazary2, Delila Lebsir1, Saadia Kerdine-Romer3, François Coudore4. 1. CESP/National Institute of Health and Medical Research INSERM UMR-S 1178, Paris-Sud University, Faculty of Pharmacy, Paris-Saclay University, France. 2. Pharmacology Department, Faculty of Pharmacy, Kabul University, Afghanistan. 3. National Institute of Health and Medical Research INSERM UMR-S 996, Paris-Sud University, Faculty of Pharmacy, Paris-Saclay University, France. 4. CESP/National Institute of Health and Medical Research INSERM UMR-S 1178, Paris-Sud University, Faculty of Pharmacy, Paris-Saclay University, France. Electronic address: francois.coudore@u-psud.fr.
Abstract
AIM: Activation of the Nrf2-antioxidant response element signaling pathway is a major mechanism in the cellular defense against oxidative or electrophilic stress through conjugative reactions and by enhancing cellular antioxidant capacity. Although exercise training up-regulates antioxidant defenses system, while information regarding the intensity levels of physical exercise that acts on the cellular protection systems is limited. MAIN METHODS: The present study evaluated the effects of different durations and intensities of physical exercise on the hippocampus, cortex and hypothalamus Nrf2 and HO-1 gene expression and related protein content and the nociception thresholds in adult C57Bl male mice. Exercise training consisted of daily running on a 10-lane rodent motor-driven treadmill for either 3 or 7 weeks at three different intensities. Pain responses were evaluated after exercise and in untrained mice by Von Frey hair test and cold plate test. KEY FINDINGS: This study confirmed that only vigorous and longer duration aerobic exercise increased Nrf2 protein level in the hippocampus and HO-1 protein level in the cortex and reduced pain perception. Mechanical and thermal hypoalgesia were only observed in exercise groups after 7 weeks of physical training. SIGNIFICANCE: The overall findings in this study confirm that only the long duration intensive forced exercise reduced inflammatory pain by induction of Nrf2/HO-1 antioxidant signaling pathway.
AIM: Activation of the Nrf2-antioxidant response element signaling pathway is a major mechanism in the cellular defense against oxidative or electrophilic stress through conjugative reactions and by enhancing cellular antioxidant capacity. Although exercise training up-regulates antioxidant defenses system, while information regarding the intensity levels of physical exercise that acts on the cellular protection systems is limited. MAIN METHODS: The present study evaluated the effects of different durations and intensities of physical exercise on the hippocampus, cortex and hypothalamusNrf2 and HO-1 gene expression and related protein content and the nociception thresholds in adult C57Bl male mice. Exercise training consisted of daily running on a 10-lane rodent motor-driven treadmill for either 3 or 7 weeks at three different intensities. Pain responses were evaluated after exercise and in untrained mice by Von Frey hair test and cold plate test. KEY FINDINGS: This study confirmed that only vigorous and longer duration aerobic exercise increased Nrf2 protein level in the hippocampus and HO-1 protein level in the cortex and reduced pain perception. Mechanical and thermal hypoalgesia were only observed in exercise groups after 7 weeks of physical training. SIGNIFICANCE: The overall findings in this study confirm that only the long duration intensive forced exercise reduced inflammatory pain by induction of Nrf2/HO-1 antioxidant signaling pathway.