高压下龙虾神经肌肉接头处突触前Ca2+内流减少的证据。
Evidence for reduced presynaptic Ca2+ entry in a lobster neuromuscular junction at high pressure.
作者信息
Grossman Y, Kendig J J
机构信息
Unit of Physiology, Faculty for Health Sciences, Ben-Gurion University of the Negev, Beer-Sheva, Israel.
出版信息
J Physiol. 1990 Jan;420:355-64. doi: 10.1113/jphysiol.1990.sp017917.
Abstract
- Previous studies have shown that hyperbaric pressure depresses synaptic transmission and have suggested that the effect is primarily on transmitter release. The present study analysed the effects of pressure at a crustacean neuromuscular junction. Changes in pressure were compared to changes in extracellular calcium concentration [Ca2+]o with respect to effects on excitatory junction potential (EJP) amplitude, time course, facilitation and potentiation. 2. The effects of 10.1 MPa pressure on EJP amplitude, facilitation and potentiation, but not time course, were mimicked by reducing [Ca2+]o to approximately one-half the normal level. 3. The effects of pressure and the interaction between compression and calcium concentration were analysed in terms of a model of transmitter release. The model assumes that release is dependent on internal calcium concentration, as modulated by both influx and removal processes; that calcium influx is a saturating function of [Ca2+]o; and that release and removal are saturating functions of [Ca2+]i. 4. The results were consistent with the hypothesis that increased pressure acts primarily to reduce calcium influx into the nerve terminal.
摘要
- 先前的研究表明,高压会抑制突触传递,并认为这种作用主要影响神经递质的释放。本研究分析了压力对甲壳类动物神经肌肉接头的影响。将压力变化与细胞外钙浓度[Ca2+]o的变化进行比较,观察其对兴奋性接头电位(EJP)幅度、时程、易化和增强的影响。2. 将[Ca2+]o降低至正常水平的约一半时,可模拟10.1 MPa压力对EJP幅度、易化和增强的影响,但对时程无影响。3. 根据神经递质释放模型分析了压力的影响以及压力与钙浓度之间的相互作用。该模型假定释放取决于内部钙浓度,其受到内流和清除过程的调节;钙内流是[Ca2+]o的饱和函数;释放和清除是[Ca2+]i的饱和函数。4. 结果与以下假设一致:压力增加主要通过减少钙流入神经末梢来起作用。
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