National Centre for Biological Sciences, Tata Institute of Fundamental Research, Bangalore, India.
PLoS One. 2012;7(1):e30481. doi: 10.1371/journal.pone.0030481. Epub 2012 Jan 17.
Recent findings on stress induced structural plasticity in rodents have identified important differences between the hippocampus and amygdala. The same chronic immobilization stress (CIS, 2 h/day) causes growth of dendrites and spines in the basolateral amygdala (BLA), but dendritic atrophy in hippocampal area CA3. CIS induced morphological changes also differ in their temporal longevity--BLA hypertrophy, unlike CA3 atrophy, persists even after 21 days of stress-free recovery. Furthermore, a single session of acute immobilization stress (AIS, 2 h) leads to a significant increase in spine density 10 days, but not 1 day, later in the BLA. However, little is known about the molecular correlates of the differential effects of chronic and acute stress. Because BDNF is known to be a key regulator of dendritic architecture and spines, we investigated if the levels of BDNF expression reflect the divergent effects of stress on the hippocampus and amygdala. CIS reduces BDNF in area CA3, while it increases it in the BLA of male Wistar rats. CIS-induced increase in BDNF expression lasts for at least 21 days after the end of CIS in the BLA. But CIS-induced decrease in area CA3 BDNF levels, reverses to normal levels within the same period. Finally, BDNF is up regulated in the BLA 1 day after AIS and this increase persists even 10 days later. In contrast, AIS fails to elicit any significant change in area CA3 at either time points. Together, these findings demonstrate that both acute and chronic stress trigger opposite effects on BDNF levels in the BLA versus area CA3, and these divergent changes also follow distinct temporal profiles. These results point to a role for BDNF in stress-induced structural plasticity across both hippocampus and amygdala, two brain areas that have also been implicated in the cognitive and affective symptoms of stress-related psychiatric disorders.
最近关于应激诱导的啮齿动物结构可塑性的研究结果表明,海马体和杏仁核之间存在重要差异。同样的慢性束缚应激(CIS,每天 2 小时)导致基底外侧杏仁核(BLA)的树突和棘突生长,但海马体 CA3 区的树突萎缩。CIS 诱导的形态变化在其时间持久性上也有所不同——BLA 肥大,与 CA3 萎缩不同,即使在 21 天的无应激恢复后仍持续存在。此外,单次急性束缚应激(AIS,2 小时)导致 BLA 中的棘突密度在 10 天而不是 1 天后显著增加。然而,关于慢性和急性应激的差异效应的分子相关性知之甚少。因为 BDNF 已知是树突结构和棘突的关键调节因子,我们研究了 BDNF 表达水平是否反映了应激对海马体和杏仁核的不同影响。CIS 降低了 CA3 区的 BDNF,而增加了 BLA 的 BDNF。CIS 诱导的 BDNF 表达增加至少持续 21 天,直到 CIS 在 BLA 结束后。但是,CIS 诱导的 CA3 区 BDNF 水平降低在同一时期内恢复正常水平。最后,AIS 后 1 天 BLA 中的 BDNF 上调,这种增加甚至持续 10 天。相比之下,AIS 在这两个时间点都未能引起 CA3 区的任何显著变化。总之,这些发现表明,急性和慢性应激都会在 BLA 与 CA3 区之间对 BDNF 水平产生相反的影响,而且这些不同的变化也遵循不同的时间模式。这些结果表明 BDNF 在应激诱导的结构可塑性中起作用,包括海马体和杏仁核,这两个脑区也与应激相关精神障碍的认知和情感症状有关。
