在体外培养的豚鼠海马体中,ATP浓度降低是缺氧期间突触传递失败的基础。
Reduced ATP concentration as a basis for synaptic transmission failure during hypoxia in the in vitro guinea-pig hippocampus.
作者信息
Lipton P, Whittingham T S
出版信息
J Physiol. 1982 Apr;325:51-65. doi: 10.1113/jphysiol.1982.sp014135.
Abstract
- Experiments were performed to determine whether a decrease in tissue ATP contributes to the rapid failure of cerebral synaptic transmission during hypoxia. Transmission between the perforant path and the dentate granule cells in the in vitro hippocampus was studied.2. Hippocampal slice ATP is decreased by approximately 15% at the time that the evoked response begins to diminish in standard Krebs bicarbonate buffer. This is about 2 min after the onset of hypoxia.3. When transmission failure is accelerated by increasing extracellular K(+) from 4.4 to 13.4 mM, the evoked response begins to decay about 30 sec after exposure to hypoxia. There is no decrease in hippocampal slice ATP at this time.4. However, ATP in the molecular layer (the synaptic region of the tissue) is decreased by approximately 15% at the time the evoked response begins to decay in the slices exposed to elevated K(+) concentration.5. Exposing the hippocampal slice to 25 mM-creatine for 3 hr elevates molecular layer phosphocreatine fourfold. Synaptic transmission during hypoxia survives three times as long as it does in the absence of creatine.6. In the creatine fortified medium, molecular layer ATP no longer declines within 30 sec of hypoxia. However the molecular layer ATP does decline within 90 sec of hypoxia, the time at which the evoked response begins to decay in this creatine-fortified buffer.7. The results establish that ATP in the region of the active synapses is lowered when the first signs of electrophysiological failure appear during hypoxia. They also show that maintaining ATP for longer than normal during hypoxia is associated with a prolonged maintenance of the evoked response. They thus suggest that a decline in ATP is one factor causing hypoxic block of synaptic transmission.8. It is further suggested that the very rapid failure of the electroencephalogram during anoxia may also result from a decline in ATP.
摘要
进行实验以确定组织ATP的减少是否导致缺氧期间脑突触传递的快速衰竭。研究了体外海马体中穿通通路与齿状颗粒细胞之间的传递。
在标准碳酸氢盐缓冲液中,当诱发反应开始减弱时,海马切片ATP降低约15%。这大约在缺氧开始后2分钟。
当通过将细胞外K⁺从4.4 mM增加到13.4 mM来加速传递衰竭时,暴露于缺氧后约30秒诱发反应开始衰减。此时海马切片ATP没有降低。
然而,在暴露于高K⁺浓度的切片中,当诱发反应开始衰减时,分子层(组织的突触区域)中的ATP降低约15%。
将海马切片暴露于25 mM - 肌酸中3小时,分子层磷酸肌酸增加四倍。缺氧期间的突触传递存活时间是没有肌酸时的三倍。
在肌酸强化培养基中,缺氧30秒内分子层ATP不再下降。然而,在缺氧90秒内分子层ATP确实下降,此时在这种肌酸强化缓冲液中诱发反应开始衰减。
结果表明,当缺氧期间出现电生理衰竭的最初迹象时,活跃突触区域的ATP会降低。它们还表明,缺氧期间ATP维持时间比正常时长与诱发反应的延长维持有关。因此,它们表明ATP的下降是导致缺氧性突触传递阻断的一个因素。
进一步表明,缺氧期间脑电图的非常快速的衰竭也可能是由于ATP的下降。
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