神经元分化的NB - 104细胞中的细胞死亡、钙动员以及磷酸化真核起始因子2 -α(eIF2α)的免疫染色:花生四烯酸和自由基介导的损伤机制。
Cell death, calcium mobilization, and immunostaining for phosphorylated eukaryotic initiation factor 2-alpha (eIF2alpha) in neuronally differentiated NB-104 cells: arachidonate and radical-mediated injury mechanisms.
作者信息
O'Neil B J, McKeown T R, DeGracia D J, Alousi S S, Rafols J A, White B C
机构信息
Department of Emergency Medicine, Wayne State University School of Medicine, MI 48201, USA.
出版信息
Resuscitation. 1999 Jun;41(1):71-83. doi: 10.1016/s0300-9572(99)00028-3.
These experiments examine the effects of arachidonate with respect to cell death, radical-mediated injury, Ca2+ mobilization, and formation of ser-51-phosphorylated eukaryotic initiation factor 2alpha [eIF2alpha(P)]. It is known that during brain ischemia the concentration of free arachidonate can reach 180 microM, and during reperfusion oxidative metabolism of arachidonate leads to generation of superoxide that can reduce stored ferric iron and promote lipid peroxidation. During early brain reperfusion, we have shown an approximately 20-fold increase in eIF2alpha(P) which maps to vulnerable neurons that display inhibition of protein synthesis. Here in neuronally differentiated NB-104 cells, equivalent cell death (assessed by LDH release) was induced by 40 microM arachidonate and 20 microM cumene hydroperoxide (CumOOH, a known alkoxyl radical generator). In these injury models (1) radical inhibitors (BHA, BHT, and the lipophilic iron chelator EMHP) block CumOOH-induced cell death but do not block arachidonate-induced death; (2) 40 microM arachidonate (but not up to 40 microM CumOOH) rapidly induces Ca2+ release from intracellular stores; (3) both 40 microM arachidonate and 20 microM CumOOH induce intense immunostaining for eIF2alpha(P); and (4) the elF2alpha(P) immunostaining induced by CumOOH but not that induced by arachidonate is completely blocked by anti-radical intervention with EMHP. Arachidonate-induced formation of eIF2alpha(P) and cell death do not require iron-mediated radical mechanisms and are associated with Ca2+ release from intracellular stores; however, radical-mediated injury also induces both eIF2alpha(P) and cell death without release of intracellular Ca2+. Our data link eIF2alpha(P) formation during brain reperfusion to two established injury mechanisms that may operate concurrently.
这些实验研究了花生四烯酸在细胞死亡、自由基介导的损伤、Ca2+动员以及丝氨酸51磷酸化的真核起始因子2α[eIF2α(P)]形成方面的作用。已知在脑缺血期间,游离花生四烯酸的浓度可达到180微摩尔,而在再灌注期间,花生四烯酸的氧化代谢会导致超氧化物的产生,超氧化物可还原储存的三价铁并促进脂质过氧化。在早期脑再灌注期间,我们已经表明eIF2α(P)增加了约20倍,其定位于显示蛋白质合成受抑制的易损神经元。在神经元分化的NB - 104细胞中,40微摩尔花生四烯酸和20微摩尔异丙苯过氧化氢(CumOOH,一种已知的烷氧基自由基发生器)诱导了等效的细胞死亡(通过乳酸脱氢酶释放评估)。在这些损伤模型中:(1)自由基抑制剂(丁基羟基茴香醚、二丁基羟基甲苯和亲脂性铁螯合剂EMHP)可阻断CumOOH诱导的细胞死亡,但不能阻断花生四烯酸诱导的死亡;(2) 40微摩尔花生四烯酸(但高达40微摩尔CumOOH则不然)可迅速诱导细胞内储存的Ca2+释放;(3) 40微摩尔花生四烯酸和20微摩尔CumOOH均可诱导eIF2α(P)的强烈免疫染色;(4) CumOOH诱导的eIF2α(P)免疫染色可被EMHP的抗自由基干预完全阻断,而花生四烯酸诱导的则不然。花生四烯酸诱导的eIF2α(P)形成和细胞死亡不需要铁介导的自由基机制,并且与细胞内储存的Ca2+释放有关;然而,自由基介导的损伤也可诱导eIF2α(P)和细胞死亡,而不会释放细胞内Ca2+。我们的数据将脑再灌注期间eIF2α(P)的形成与两种可能同时起作用的既定损伤机制联系起来。
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