Sarnico Ilenia, Lanzillotta Annamaria, Boroni Flora, Benarese Marina, Alghisi Manuela, Schwaninger Markus, Inta Ioana, Battistin Leontino, Spano PierFranco, Pizzi Marina
Division of Pharmacology and Experimental Therapeutics, Department of Biomedical Sciences & Biotechnologies, School of Medicine, University of Brescia, Viale Europa 11, Brescia, Italy.
J Neurochem. 2009 Jan;108(2):475-85. doi: 10.1111/j.1471-4159.2008.05783.x.
Diverse nuclear factor-kappaB subunits mediate opposite effects of extracellular signals on neuron survival. While RelA is activated by neurotoxic agents, c-Rel drives neuroprotective effects. In brain ischaemia RelA and p50 factors rapidly activate, but how they associate with c-Rel to form active dimers and contribute to the changes in diverse dimer activation for neuron susceptibility is unknown. We show that in both cortical neurons exposed to oxygen glucose deprivation (OGD) and mice subjected to brain ischaemia, activation of p50/RelA was associated with inhibition of c-Rel/RelA dimer and no change p50/c-Rel. Targeting c-Rel and RelA expression revealed that c-Rel dimers reduced while p50/RelA enhanced neuronal susceptibility to anoxia. Activation of p50/RelA complex is known to induce the pro-apoptotic Bim and Noxa genes. We now show that c-Rel-containing dimers, p50/c-Rel and RelA/c-Rel, but not p50/RelA, promoted Bcl-xL transcription. Accordingly, the OGD exposure induced Bim, but reduced Bcl-xL promoter activity and decreased the content of endogenous Bcl-xL protein. These findings demonstrate that within the same neuronal cell, the balance between activation of p50/RelA and c-Rel-containing complexes fine tunes the threshold of neuron vulnerability to the ischaemic insult. Selective targeting of different dimers will unravel new approaches to limit ischaemia-associated apoptosis.
多种核因子-κB亚基介导细胞外信号对神经元存活的相反作用。RelA被神经毒性剂激活,而c-Rel发挥神经保护作用。在脑缺血中,RelA和p50因子迅速激活,但它们如何与c-Rel结合形成活性二聚体并导致神经元易感性中不同二聚体激活的变化尚不清楚。我们发现,在暴露于氧糖剥夺(OGD)的皮质神经元和脑缺血的小鼠中,p50/RelA的激活与c-Rel/RelA二聚体的抑制相关,而p50/c-Rel无变化。靶向c-Rel和RelA的表达显示,c-Rel二聚体减少,而p50/RelA增强神经元对缺氧的易感性。已知p50/RelA复合物的激活会诱导促凋亡基因Bim和Noxa。我们现在表明,含c-Rel的二聚体,p50/c-Rel和RelA/c-Rel,但不是p50/RelA,促进了Bcl-xL的转录。因此,OGD暴露诱导了Bim,但降低了Bcl-xL启动子活性并降低了内源性Bcl-xL蛋白的含量。这些发现表明,在同一神经元细胞内,p50/RelA和含c-Rel复合物激活之间的平衡微调了神经元对缺血性损伤易感性的阈值。选择性靶向不同的二聚体将揭示限制缺血相关细胞凋亡的新方法。
