体外大鼠海马切片不可逆性缺氧损伤的相关机制。
Mechanisms involved in irreversible anoxic damage to the in vitro rat hippocampal slice.
作者信息
Kass I S, Lipton P
出版信息
J Physiol. 1982 Nov;332:459-72. doi: 10.1113/jphysiol.1982.sp014424.
Abstract
- We have studied the effects of anoxia on the recovery of neural transmission between the perforant path and the dentate granule cells in the in vitro rat hippocampal slice. There is almost no recovery of the evoked population spike following 10 min of anoxia in slices from adult rats.2. A 2 h exposure of slices to creatine markedly improves the recovery of the population spike (80% vs. 5%). The creatine pre-incubation builds up phosphocreatine levels in the slice and prevents the large fall in ATP during anoxia; ATP falls to 7.9 rather than 3.6 nM/mg protein. The intracellular pH of both groups falls to the same level during anoxia.3. If calcium concentration in the medium is reduced to 0 while magnesium concentration is raised to 10 mM during anoxia the evoked response recovers to about 65%.4. The data suggest that an attenuation of the fall in ATP or entry of calcium during anoxia protects the tissue against irreversible transmission damage. Thus both of these factors participate in the generation of this damage. It is not yet clear if they act independently or if one acts by altering the other.5. In the post-anoxic recovery period the intracellular concentration of potassium is reduced by about 25%. However, it is still much higher than in slices that show only partial block of the evoked response when treated with ouabain. Therefore a fall in intracellular potassium 1 h after anoxia cannot explain the lack of recovery of the evoked response in adult tissue.6. ATP levels in the post-anoxic recovery period are reduced from their pre-anoxic levels (9.7 vs. 13.9 nM/mg protein). However when azide or antimycin A are used to directly reduce ATP to the level found 1 h after anoxia the evoked response is reduced by only about 45%. Thus the reduced post-anoxic ATP levels are not sufficient to explain the loss of the evoked response in adult tissue.7. The data show that the irreversible loss of transmission is not due to decreased cell ATP or to decreased cell K/Na levels 1 h after the anoxic period.8. Since creatine pre-incubation protects against irreversible transmission loss this compound or one closely related to it may prove useful in attenuating irreversible brain damage in situ.
摘要
我们研究了缺氧对体外培养的大鼠海马切片中穿通通路与齿状颗粒细胞之间神经传递恢复的影响。成年大鼠切片缺氧10分钟后,诱发群体峰电位几乎没有恢复。
将切片暴露于肌酸2小时可显著改善群体峰电位的恢复情况(80% 对 5%)。肌酸预孵育可提高切片中的磷酸肌酸水平,并防止缺氧期间ATP大幅下降;ATP降至7.9而非3.6 nM/mg蛋白质。缺氧期间两组的细胞内pH值降至相同水平。
如果在缺氧期间将培养基中的钙浓度降至0,同时将镁浓度提高到10 mM,诱发反应可恢复到约65%。
数据表明,缺氧期间ATP下降的减弱或钙的进入受到保护可使组织免受不可逆的传递损伤。因此,这两个因素都参与了这种损伤的产生。目前尚不清楚它们是独立起作用还是一个通过改变另一个起作用。
在缺氧后恢复期,细胞内钾浓度降低约25%。然而,它仍远高于用哇巴因处理后仅显示诱发反应部分阻断的切片中的钾浓度。因此,缺氧1小时后细胞内钾的下降不能解释成年组织中诱发反应缺乏恢复的原因。
缺氧后恢复期的ATP水平比缺氧前水平降低(9.7对13.9 nM/mg蛋白质)。然而,当使用叠氮化物或抗霉素A将ATP直接降至缺氧1小时后发现的水平时,诱发反应仅降低约45%。因此,缺氧后ATP水平的降低不足以解释成年组织中诱发反应的丧失。
数据表明,缺氧期1小时后传递的不可逆丧失不是由于细胞ATP减少或细胞K/Na水平降低。
由于肌酸预孵育可防止不可逆的传递丧失,这种化合物或与其密切相关的一种化合物可能被证明在减轻原位不可逆脑损伤方面有用。
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