Activation of nuclear factor-kappaB in the rabbit spinal cord following ischemia and reperfusion.

S Zhang, T Tobaru, J A Zivin, D A Shackelford
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Abstract

The transcription factor NF-kappaB is a ubiquitously expressed inducible regulator of a broad range of genes. Recent studies have shown that activation of NF-kappaB predominantly is associated with protecting cells from apoptosis, but in some cell models, it is associated with promoting cell death. We used a rabbit spinal cord model of reversible ischemia to determine whether NF-kappaB was activated by ischemic and reperfusion injury. DNA binding activity of NF-kappaB was analyzed by an electrophoretic mobility shift assay in animals subjected to varying durations of ischemia and reperfusion. A low level of constitutive NF-kappaB DNA binding was detected in normal lumbar spinal cord extracts. Animals subjected to a short ischemic insult of 15 min, from which they usually recover neurologic function, had a significant increase in the amount of active NF-kappaB in nuclear extracts after 18 h reperfusion. There was no change in nuclear NF-kappaB DNA binding in animals occluded for 60 min that are permanently paraplegic and exhibit extensive neuropathological damage. The amount of deoxycholate-releasable NF-kappaB sequestered in the cytosol, however, decreased after 18 h reperfusion in rabbits occluded for 60 min. This correlated with a decrease in the amount of RelA(p65) NF-kappaB subunit. The results suggest that activation of NF-kappaB after a limited ischemic injury may participate in a neuroprotective response and not in cell death.

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兔脊髓缺血再灌注后核因子κ b的活化。
转录因子NF-kappaB是一种广泛表达的基因诱导调节因子。最近的研究表明NF-kappaB的激活主要与保护细胞免于凋亡有关,但在某些细胞模型中,它与促进细胞死亡有关。我们采用兔脊髓可逆性缺血模型,观察NF-kappaB是否在缺血和再灌注损伤后被激活。通过电泳迁移位移法分析不同缺血再灌注时间动物NF-kappaB的DNA结合活性。在正常的腰椎脊髓提取物中检测到低水平的构成性NF-kappaB DNA结合。经15分钟短缺血损伤的动物通常会恢复神经功能,再灌注18 h后核提取物中活性NF-kappaB的含量显著增加。在永久性截瘫和广泛神经病理损伤的动物中,核NF-kappaB DNA结合没有变化。然而,在封闭60分钟的家兔中,再灌注18小时后,胞浆中分离的脱氧胆碱释放NF-kappaB的数量减少。这与RelA(p65) NF-kappaB亚基的数量减少有关。结果表明,有限缺血性损伤后NF-kappaB的激活可能参与神经保护反应,而不是参与细胞死亡。
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