Sung L, Shibata M, Eskew J D, Shipulina N, Morales P J, Smith A
Division of Molecular Biology and Biochemistry, School of Biological Sciences, University of Missouri-Kansas City, Kansas City, MO 64110-2499, USA.
Antioxid Redox Signal. 2000 Winter;2(4):753-65. doi: 10.1089/ars.2000.2.4-753.
A model has been developed for the hemopexin receptor-mediated heme transport system based on iron uptake in yeast. Two steps are required: reduction followed by oxidation by a multi-copper-oxidase. Furthermore, in the hemopexin system, the surface redox events have been linked with gene regulation. The impermeable Cu(I) chelator bathocuproinedisulfonate (BCDS) is shown here to abrogate heme oxygenase-1 (HO-1) mRNA induction by heme-hemopexin. A role for Cu(I) in the regulation of HO-1 and MT-1 (Sung et al., 1999) by hemopexin supports the participation of electron transport processes at the cell surface as does competition by the reductase activator, ferric citrate, which inhibits the induction of MT-1 and HO-1 mRNA by heme-hemopexin. There is a key role for the hemopexin receptor because neither ferric citrate nor iron-transferrin alone regulates MT-1 or HO-1. Cell-surface copper is the first molecule to link the concomitant regulation of HO-1 and MT-1 by the hemopexin receptor. In addition, cytochrome b5 and cytochrome b5 reductase are implicated here in the response of cells to heme-hemopexin. Reduction of one or more electron donors of the reductase and oxidation of the electron acceptor, b5 heme, leads to gene regulation, but only when heme-hemopexin is bound to its receptor. Protein kinase cascades, including JNK, are activated by the hemopexin receptor itself upon ligand binding but are modulated by a Cu(I)-dependent process likely to be heme uptake.
基于酵母中的铁摄取,已经开发出一种血红素结合蛋白受体介导的血红素转运系统模型。这需要两个步骤:还原,随后由多铜氧化酶进行氧化。此外,在血红素结合蛋白系统中,表面氧化还原事件与基因调控相关联。在此显示,不可渗透的铜(I)螯合剂 bathocuproinedisulfonate(BCDS)可消除血红素 - 血红素结合蛋白对血红素加氧酶 -1(HO-1)mRNA 的诱导。血红素结合蛋白在 HO-1 和 MT-1 调控中铜(I)的作用(Sung 等人,1999 年)支持细胞表面电子传递过程的参与,还原酶激活剂柠檬酸铁的竞争也是如此,它抑制血红素 - 血红素结合蛋白对 MT-1 和 HO-1 mRNA 的诱导。血红素结合蛋白受体起着关键作用,因为单独的柠檬酸铁或转铁蛋白都不调节 MT-1 或 HO-1。细胞表面铜是第一个将血红素结合蛋白受体对 HO-1 和 MT-1 的协同调控联系起来的分子。此外,细胞色素 b5 和细胞色素 b5 还原酶在此与细胞对血红素 - 血红素结合蛋白的反应有关。还原酶的一个或多个电子供体的还原以及电子受体 b5 血红素的氧化导致基因调控,但仅当血红素 - 血红素结合蛋白与其受体结合时才会发生。包括 JNK 在内的蛋白激酶级联反应在配体结合后由血红素结合蛋白受体自身激活,但由可能是血红素摄取的铜(I)依赖性过程调节。
