Ke Y, Wu J, Leibold E A, Walden W E, Theil E C
Department of Biochemistry, North Carolina State University, Raleigh, North Carolina 27695-7622, USA.
J Biol Chem. 1998 Sep 11;273(37):23637-40. doi: 10.1074/jbc.273.37.23637.
A family of noncoding mRNA sequences, iron-responsive elements (IREs), coordinately regulate several mRNAs through binding a family of mRNA-specific proteins, iron regulatory proteins (IRPs). IREs are hairpins with a constant terminal loop and base-paired stems interrupted by an internal loop/bulge (in ferritin mRNA) or a C-bulge (in m-aconitase, erythroid aminolevulinate synthase, and transferrin receptor mRNAs). IRP2 binding requires the conserved C-G base pair in the terminal loop, whereas IRP1 binding occurs with the C-G or engineered U-A. Here we show the contribution of the IRE internal loop/bulge to IRP2 binding by comparing natural and engineered IRE variants. Conversion of the internal loop/bulge in the ferritin-IRE to a C-bulge, by deletion of U, decreased IRP2 binding by >95%, whereas IRP1 binding changed only 13%. Moreover, IRP2 binding to natural IREs with the C-bulge was similar to the DeltaU6 ferritin-IRE: >90% lower than the ferritin-IRE. The results predict mRNA-specific variation in IRE-dependent regulation in vivo and may relate to previously observed differences in iron-induced ferritin and m-aconitase synthesis in liver and cultured cells. Variations in IRE structure and cellular IRP1/IRP2 ratios can provide a range of finely tuned, mRNA-specific responses to the same (iron) signal.
一类非编码mRNA序列,即铁反应元件(IREs),通过与一类mRNA特异性蛋白——铁调节蛋白(IRPs)结合,协同调节几种mRNA。IREs是具有恒定末端环和碱基配对茎的发夹结构,茎被内部环/凸起(在铁蛋白mRNA中)或C凸起(在顺乌头酸酶、红细胞δ-氨基-γ-酮戊酸合酶和转铁蛋白受体mRNA中)中断。IRP2的结合需要末端环中保守的C-G碱基对,而IRP1的结合则通过C-G或工程化的U-A发生。在这里,我们通过比较天然和工程化的IRE变体,展示了IRE内部环/凸起对IRP2结合的贡献。通过删除U将铁蛋白-IRE中的内部环/凸起转换为C凸起,使IRP2的结合减少了>95%,而IRP1的结合仅改变了13%。此外,IRP2与具有C凸起的天然IREs的结合类似于缺失U6的铁蛋白-IRE:比铁蛋白-IRE低>90%。这些结果预测了体内IRE依赖性调节中mRNA特异性的变化,并且可能与先前在肝脏和培养细胞中观察到的铁诱导的铁蛋白和顺乌头酸酶合成的差异有关。IRE结构和细胞IRP1/IRP2比率的变化可以对相同(铁)信号提供一系列精细调节的、mRNA特异性的反应。
