Department of Investigation, Hospital Ramón y Cajal, IRYCIS, Madrid, Spain.
J Cereb Blood Flow Metab. 2013 Aug;33(8):1173-81. doi: 10.1038/jcbfm.2013.60. Epub 2013 Apr 17.
Transient brain ischemia induces an inhibition of translational rates and causes delayed neuronal death in selective regions and cognitive deficits, whereas these effects do not occur in resistant areas. The translational repressor eukaryotic initiation factor (eIF) 4E-binding protein-2 (4E-BP2) specifically binds to eIF4E and is critical in the control of protein synthesis. To link neuronal death to translation inhibition, we study the eIF4E association with 4E-BP2 under ischemia reperfusion in a rat model of transient forebrain ischemia. Upon reperfusion, a selective neuronal apoptosis in the hippocampal cornu ammonis 1 (CA1) region was induced, while it did not occur in the cerebral cortex. Confocal microscopy analysis showed a decrease in 4E-BP2/eIF4E colocalization in resistant cortical neurons after reperfusion. In contrast, in vulnerable CA1 neurons, 4E-BP2 remains associated to eIF4E with a higher degree of 4E-BP2/eIF4E colocalization and translation inhibition. Furthermore, the binding of a 4E-BP2 peptide to eIF4E induced neuronal apoptosis in the CA1 region. Finally, pharmacological-induced protection of CA1 neurons inhibited neuronal apoptosis, decreased 4E-BP2/eIF4E association, and recovered translation. These findings documented specific changes in 4E-BP2/eIF4E association during ischemic reperfusion, linking the translation inhibition to selective neuronal death, and identifying 4E-BP2 as a novel target for protection of vulnerable neurons in ischemic injury.
短暂性脑缺血诱导翻译速率抑制,并导致选择性区域的神经元延迟死亡和认知缺陷,而在抗性区域则不会发生这些效应。翻译抑制剂真核起始因子(eIF)4E 结合蛋白-2(4E-BP2)特异性结合 eIF4E,在控制蛋白质合成中起关键作用。为了将神经元死亡与翻译抑制联系起来,我们在短暂性前脑缺血大鼠模型中研究了缺血再灌注过程中 eIF4E 与 4E-BP2 的关联。再灌注后,海马角 1(CA1)区选择性诱导神经元凋亡,而皮质区则不会发生。共聚焦显微镜分析显示,再灌注后抗性皮质神经元中 4E-BP2/eIF4E 共定位减少。相比之下,在脆弱的 CA1 神经元中,4E-BP2 仍然与 eIF4E 高度结合,并导致翻译抑制。此外,4E-BP2 肽与 eIF4E 的结合诱导 CA1 区神经元凋亡。最后,药物诱导的 CA1 神经元保护抑制了神经元凋亡,减少了 4E-BP2/eIF4E 结合,并恢复了翻译。这些发现记录了缺血再灌注过程中 4E-BP2/eIF4E 结合的特异性变化,将翻译抑制与选择性神经元死亡联系起来,并确定 4E-BP2 是缺血性损伤中易损神经元保护的新靶点。