Department of Chemistry, Hunter College and the Graduate Center City University of New York, 695 Park Ave, New York, NY 10065, USA.
Proc Natl Acad Sci U S A. 2012 May 29;109(22):8417-22. doi: 10.1073/pnas.1120045109. Epub 2012 May 14.
Iron increases synthesis rates of proteins encoded in iron-responsive element (IRE)-mRNAs; metabolic iron ("free," "labile") is Fe(2+). The noncoding IRE-RNA structure, approximately 30 nt, folds into a stem loop to control synthesis of proteins in iron trafficking, cell cycling, and nervous system function. IRE-RNA riboregulators bind specifically to iron-regulatory proteins (IRP) proteins, inhibiting ribosome binding. Deletion of the IRE-RNA from an mRNA decreases both IRP binding and IRP-independent protein synthesis, indicating effects of other "factors." Current models of IRE-mRNA regulation, emphasizing iron-dependent degradation/modification of IRP, lack answers about how iron increases IRE-RNA/IRP protein dissociation or how IRE-RNA, after IRP dissociation, influences protein synthesis rates. However, we observed Fe(2+) (anaerobic) or Mn(2+) selectively increase the IRE-RNA/IRP K(D). Here we show: (i) Fe(2+) binds to the IRE-RNA, altering its conformation (by 2-aminopurine fluorescence and ethidium bromide displacement); (ii) metal ions increase translation of IRE-mRNA in vitro; (iii) eukaryotic initiation factor (eIF)4F binds specifically with high affinity to IRE-RNA; (iv) Fe(2+) increased eIF4F/IRE-RNA binding, which outcompetes IRP binding; (v) exogenous eIF4F rescued metal-dependent IRE-RNA translation in eIF4F-depeleted extracts. The regulation by metabolic iron binding to IRE-RNA to decrease inhibitor protein (IRP) binding and increase activator protein (eIF4F) binding identifies IRE-RNA as a riboregulator.
铁增加铁反应元件 (IRE)-mRNA 编码的蛋白质合成速率;代谢铁(“自由的”、“不稳定的”)是 Fe(2+)。非编码的 IRE-RNA 结构约 30nt,折叠成茎环结构,控制铁转运、细胞周期和神经系统功能中的蛋白质合成。IRE-RNA 核糖调节剂特异性结合铁调节蛋白 (IRP) 蛋白,抑制核糖体结合。从 mRNA 中删除 IRE-RNA 会降低 IRP 结合和 IRP 独立的蛋白质合成,表明其他“因素”的影响。IRE-mRNA 调节的当前模型,强调铁依赖性 IRP 的降解/修饰,缺乏关于铁如何增加 IRE-RNA/IRP 蛋白解离的答案,或 IRE-RNA 在 IRP 解离后如何影响蛋白质合成速率。然而,我们观察到 Fe(2+)(厌氧)或 Mn(2+) 选择性增加 IRE-RNA/IRP K(D)。在这里,我们展示:(i)Fe(2+) 结合到 IRE-RNA 上,改变其构象(通过 2-氨基嘌呤荧光和溴化乙锭置换);(ii)金属离子增加 IRE-mRNA 的体外翻译;(iii)真核起始因子 (eIF)4F 特异性高亲和力结合 IRE-RNA;(iv)Fe(2+) 增加了 eIF4F/IRE-RNA 结合,从而与 IRP 结合竞争;(v)外源性 eIF4F 挽救了 eIF4F 耗尽提取物中金属依赖性 IRE-RNA 翻译。代谢铁与 IRE-RNA 结合以减少抑制剂蛋白 (IRP) 结合并增加激活剂蛋白 (eIF4F) 结合的调节确定 IRE-RNA 为核糖调节剂。