Institute of Neurosciences, Autonomous University of Barcelona, Bellaterra 08193, Barcelona, Spain.
Physiol Behav. 2011 May 3;103(2):125-33. doi: 10.1016/j.physbeh.2011.02.022. Epub 2011 Feb 22.
Factors involved in adaptation to repeated stress are not well-characterized. For instance, acute footshock (FS) of high intensity appears to be less severe than immobilization (IMO) in light of the speed of post-stress recovery of the hypothalamic-pituitary-adrenal (HPA) axis and other physiological variables. However, repeated exposure to IMO consistently resulted in reduction of the HPA response to the same stressor (adaptation), whereas failure to adapt has been usually reported after FS. Thus, in the present work we directly compared the activation of HPA axis and other physiological changes in response to both acute and repeated exposure to IMO and two intensities of FS (medium and high) in adult male rats. Control rats were exposed to the FS boxes but they did not receive shocks. Daily repeated exposure to IMO resulted in significant adaptation of the overall ACTH and corticosterone responses to the stressor. Such a reduction was also observed with repeated exposure to FS boxes and FS-medium, whereas repeated exposure to FS-high only resulted in a small reduction of the corticosterone response during the post-stress period. This suggests that some properties of FS-high make adaptation to it difficult. Interestingly, overall changes in food intake and body weight gain throughout the week of exposure to the stressors reveal a greater impact of IMO than FS-high, indicating that factors other than the intensity of a stressor, at least when evaluated in function of the above physiological variables, can influence HPA adaptation. Since FS exposure is likely to cause more pain than IMO, activation of nociceptive signals above a certain level may negatively affect HPA adaptation to repeated stressors.
反复应激适应涉及的因素尚未得到很好的描述。例如,鉴于下丘脑-垂体-肾上腺 (HPA) 轴和其他生理变量在应激后恢复的速度,高强度急性足底电击 (FS) 似乎不如固定(IMO)严重。然而,反复暴露于 IMO 始终导致 HPA 对同一应激源的反应减少(适应),而 FS 后通常报道无法适应。因此,在本工作中,我们直接比较了急性和重复暴露于 IMO 以及两种 FS 强度(中强度和高强度)对成年雄性大鼠 HPA 轴和其他生理变化的激活。对照大鼠暴露于 FS 箱中,但未接受电击。IMO 的每日重复暴露导致 ACTH 和皮质酮对应激源的整体反应显著适应。这种减少也观察到与重复暴露于 FS 箱和 FS-中强度,而重复暴露于 FS-高强度仅导致皮质酮反应在应激后期间略有减少。这表明 FS-高强度的某些特性使其难以适应。有趣的是,暴露于应激源的整个一周内的总摄食量和体重增加的变化表明 IMO 的影响大于 FS-高强度,表明除了应激源的强度之外的其他因素,至少在根据上述生理变量进行评估时,会影响 HPA 适应。由于 FS 暴露可能比 IMO 引起更多的疼痛,因此痛觉信号的激活超过一定水平可能会对反复应激的 HPA 适应产生负面影响。
