核因子κB信号通路在新生儿缺氧缺血性脑损伤中的双重作用
A dual role of the NF-kappaB pathway in neonatal hypoxic-ischemic brain damage.
作者信息
Nijboer Cora H, Heijnen Cobi J, Groenendaal Floris, May Michael J, van Bel Frank, Kavelaars Annemieke
机构信息
University Medical Center Utrecht, KC03.068.0, Lundlaan 6, 3584 EA Utrecht, The Netherlands.
出版信息
Stroke. 2008 Sep;39(9):2578-86. doi: 10.1161/STROKEAHA.108.516401. Epub 2008 Apr 17.
BACKGROUND AND PURPOSE
NF-kappaB is a transcription factor that regulates inflammatory and apoptotic pathways. We described previously that intraperitoneal administration of the NF-kappaB inhibitor TAT-NBD at 0 and 3 hours after neonatal hypoxia-ischemia (HI) markedly reduced brain damage. We hypothesize that timing and duration of NF-kappaB inhibition will be a major factor in determining outcome.
METHODS
HI was induced in P7 rats by unilateral carotid artery occlusion and hypoxia. In vivo TAT-NBD effects were determined on cerebral damage, NF-kappaB activity, cytokine expression, and pro- and antiapoptotic molecules. In vitro effects of TAT-NBD were determined using primary neurons and cell lines.
RESULTS
HI induced 2 peaks of cerebral NF-kappaB activity at 3 to 6 and 24 hours after HI. Neuroprotective 0/3-hour TAT-NBD treatment only inhibited early NF-kappaB activity. However, inhibition of both early and late NF-kappaB-activity by 0/6/12-hour TAT-NBD or only late NF-kappaB activity by 18/21-hour TAT-NBD aggravated damage. 0/6/12-hour TAT-NBD did not prevent HI-induced upregulation of cytokines at 24 hours after HI. Protective 0/3-hour TAT-NBD treatment prevented nuclear accumulation of p53 at 24 hours after HI. Nuclear p53 was not reduced after 0/6/12-hour TAT-NBD. Prolonged TAT-NBD increased the proapoptotic factor PUMA and reduced the antiapoptotic factors Bcl-2 and Bcl-xL. Also in neuronal cultures prolonged TAT-NBD exposure overruled protective short-term TAT-NBD treatment.
CONCLUSIONS
Early NF-kappaB activation contributes to neonatal HI brain damage. Late NF-kappaB provides endogenous neuroprotection and upregulates antiapoptotic molecules. Inhibition of early NF-kappaB activity is neuroprotective only when late NF-kappaB activity is maintained. Moreover, cerebral cytokine production can occur independently of NF-kappaB.
背景与目的
核因子κB(NF-κB)是一种调节炎症和凋亡途径的转录因子。我们之前曾描述,在新生大鼠缺氧缺血(HI)后0小时和3小时腹腔注射NF-κB抑制剂TAT-NBD可显著减轻脑损伤。我们推测,NF-κB抑制的时机和持续时间将是决定预后的主要因素。
方法
通过单侧颈动脉闭塞和缺氧诱导P7大鼠发生HI。测定体内TAT-NBD对脑损伤、NF-κB活性、细胞因子表达以及促凋亡和抗凋亡分子的影响。使用原代神经元和细胞系测定TAT-NBD的体外作用。
结果
HI在HI后3至6小时和24小时诱导脑NF-κB活性出现2个峰值。神经保护作用的0/3小时TAT-NBD治疗仅抑制早期NF-κB活性。然而,0/6/12小时TAT-NBD对早期和晚期NF-κB活性的抑制或18/21小时TAT-NBD仅对晚期NF-κB活性的抑制都会加重损伤。0/6/12小时TAT-NBD不能阻止HI后24小时HI诱导的细胞因子上调。具有保护作用的0/3小时TAT-NBD治疗可防止HI后24小时p53的核积聚。0/6/12小时TAT-NBD后核p53未减少。延长TAT-NBD处理会增加促凋亡因子PUMA并减少抗凋亡因子Bcl-2和Bcl-xL。同样在神经元培养中,延长TAT-NBD暴露会抵消短期TAT-NBD的保护作用。
结论
早期NF-κB激活导致新生大鼠HI脑损伤。晚期NF-κB提供内源性神经保护并上调抗凋亡分子。仅当维持晚期NF-κB活性时,抑制早期NF-κB活性才具有神经保护作用。此外,脑细胞因子的产生可独立于NF-κB发生。
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