Effects of spontaneous and forced running on activation of hypothalamic corticotropin-releasing hormone neurons in rats

Abstract

Corticotropin-releasing hormone (CRH)-containing neurons in the hypothalamic paraventricular nucleus (PVN) are known to be activated during physical or psychological stress, and play an important role as one of the central activators of integrated stress response. Physical exercise has also been suggested as one of the stressors activating CRH neurons in the PVN. Spontaneous wheel running (SWR) has recently been reported to result in improved mental health or mood, unlike treadmill running that commonly forces the animal to run. Thus, forced running may strongly induce an activation of CRH neurons compared with spontaneous running, and spontaneous running may not represent a strong stressor. However, whether the effects of spontaneous running on activation of CRH neurons in the PVN differ from those of forced running is unknown. The present study examined the activity of CRH neurons in 1-h forced wheel running (FWR) and SWR using c-Fos/CRH immunohistochemistry in male Wistar rats. No significant differences in 1-h running distance were observed between FWR and SWR, indicating that amount of work was almost equal between exercises. Number of double-labeled neurons for c-Fos and CRH in the PVN was markedly higher in FWR than in SWR. In addition, no significant differences in Fos expression in the LC, which is related to various stress responses, were found between FWR and SWR. These results indicate that FWR strongly activates CRH neurons in the PVN compared with SWR, suggesting that spontaneous running is not an intense stressor even though running distance does not differ significantly from forced running.