1. Ca2+ sparks and Ca2+ glows in superior cervical ganglion neurons
- Author
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Li-jun, Yao, Gang, Wang, Kun-fu, Ou-Yang, Chao-liang, Wei, Xian-hua, Wang, Shi-rong, Wang, Wei, Yao, Hong-ping, Huang, Jian-hong, Luo, Cai-hong, Wu, Jie, Liu, Zhuan, Zhou, and He-ping, Cheng
- Subjects
Neurons ,Animals, Newborn ,Caffeine ,Animals ,Thapsigargin ,Calcium ,Calcium Signaling ,Superior Cervical Ganglion ,Endoplasmic Reticulum ,Cells, Cultured ,Rats - Abstract
Ca2+ release from the endoplasmic reticulum (ER) is an integral component of neuronal Ca2+ signaling. The present study is to investigate properties of local Ca2+ release events in superior cervical ganglion (SCG) neurons.Primary cultured SCG neurons were prepared from neonatal rats (P3-P7). Low concentration of caffeine was used to induce Ca2+ release from the ER Ca2+ store, and intracellular Ca2+ was recorded by high-resolution line scan confocal imaging and the Ca2+ indicator Fluo-4.Two populations of local Ca2+ release events with distinct temporal characteristics were evoked by 1.5 mmol/L caffeine near the surface membrane in the soma and the neurites of SCG neurons. Brief events similar to classic Ca2+ sparks lasted a few hundreds of milliseconds, whereas long-lasting events displayed duration up to tens of seconds. Typical somatic and neurite sparks were of 0.3- and 0.52-fold increase in local Fluo-4 fluorescence, respectively. Typical Ca2+ glows were brighter (deltaF/F0 approximately 0.6), but were highly confined in space. The half maximum of full duration of neurite sparks was much longer than those in the soma (685 vs 381 ms).Co-existence of Ca2+ sparks and Ca2+ glows in SCG neurons indicates distinctive local regulation of Ca2+ release kinetics. The local Ca2+ signals of variable, site-specific temporal length may bear important implications in encoding a 'memory' of the trigger signal.
- Published
- 2006