首都医科大学学报 ›› 2005, Vol. 26 ›› Issue (1): 40-40.

• 专题报道 • 上一篇    下一篇

衰老小鼠脑片神经元内钙平衡与线粒体状态研究

熊杰   

  1. 首都医科大学化学生物学与药学院
  • 收稿日期:1900-01-01 修回日期:1900-01-01 出版日期:2005-02-24 发布日期:2005-02-24

The Study of Mitochondrial Status and Calcium Homeostasis in Aged Brain Slices of Mice

Xiong Jie   

  1. School of Chemical Biology and Pharmaceutical Sciences, Capital University of Medical Sciences
  • Received:1900-01-01 Revised:1900-01-01 Online:2005-02-24 Published:2005-02-24

摘要:

细胞内钙稳态的变化被认为是年龄依赖性神经元损伤的重要机制之一, 不太清楚的是在神经元内钙平衡当中, 哪些与年龄相关联的变化是最基本的, 这些内钙平衡的改变在衰老神经元的生理过程中是最初发生的还是继发于其他变化的结果?用最接近生理状态的体外样本, 由不同年龄组动物(11月龄至23月龄)获得的小鼠小脑矢状切片, 对细胞内游离钙和线粒体膜电位同时进行了实时测定。以作用时间为15s的短暂谷氨酸、KA或NMDA刺激来激发细胞内钙信号。对于衰老神经元而言, 其静息态细胞内钙水平没有变化, 而神经元线粒体膜电位明显降低。实验发现大部分内钙平衡的改变发生在衰老神经元接受到较高水平的外来刺激的条件下, 而其中最明显的变化是内钙恢复速度降低, 与此同时有神经元线粒体膜电位复极时间的延长。在神经元线粒体功能状态与内钙水平之间存在的明显相关性表明:神经元内钙平衡的变化继发于线粒体功能的降低。

Abstract:

Change in “calcium homeostasis” is one of the mechanisms that proposed to expl ain the age-dependent injuries of neurons. But what is the most reliable age-a ssociated changes in neuronal Ca2+ homeostasis, and are these changes prim ary or secondary to other changes in the physiology of the aged neurons? Here we used the most physiological in vitro preparation-the parasagittal cerebellar slices, obtained from animals of different ages (11-23 months)-to perform sim ultaneous measurements of both intracellular calcium ([Ca2+]i) and mit ochondrial membrane potential (MMP) in real time. A 15-second pulse of glutamat e, kainic acid (KA) or N-methyl-D-aspartic acid (NMDA) was used to trigger a calcium signal. No changes were found on the mean resting [Ca2+]i values of aged neurons, while the MMP already sho wed a significant decrease. Most of the changes in the calcium homeostasis appea red only when the aged neurons were exposed to higher levels of stimulation and the most significant change was the decreased recovery rate of calcium signal, t ogether with a delayed recovery of MMP. The close and significant (P< 0.00 1) correlation between the status of neuronal mitochondria and [Ca2+]i 1 minute after the remove of stimulation indicated that the changes of calcium ho meostasis were secondary to the impairment of mitochondrial function.