Heme oxygenase: recent advances in understanding its regulation and role.

K K Elbirt, H L Bonkovsky
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Abstract

Heme oxygenase (HO) is responsible for the physiological breakdown of heme into equimolar amounts of biliverdin, carbon monoxide, and iron. Three isoforms (HO-1, HO-2, and HO-3) have been identified. HO-1 is ubiquitous and its mRNA and activity can be increased several-fold by heme, other metalloporphyrins, transition metals, and stimuli that induce cellular stress. HO-1 is recognized as a major heat shock/stress response protein. Recent work from our laboratory has demonstrated several potential consensus regulatory elements in the 5'-untranslated region (UTR) of HO-1, including activator protein 1 (AP-1), metal responsive element (MRE), oncogene c-myc/max heterodimer binding site (Myc/Max), antioxidant response element (ARE), and GC box binding (Sp1) sites. Using deletion-reporter gene constructs, we have mapped sites that mediate the arsenite-dependent induction of HO-1, and we have shown that components of the extracellular signal-regulated kinase (ERK) and p38 (a homologue of the yeast HOG1 kinase), but not c-jun N-terminal kinase (JNK), mitogen-activated protein (MAP) kinase pathways are involved in arsenite-dependent upregulation. In contrast, HO-2 is present chiefly in the brain and testes and is virtually uninducible. HO-3 has very low activity; its physiological function probably involves heme binding. Products of the HO reaction have important effects: carbon monoxide is a potent vasodilator, which is thought to play a key role in the modulation of vascular tone, especially in the liver under physiological conditions, and in many organs under "stressful" conditions associated with HO-1 induction. Biliverdin and its product bilirubin, formed in most mammals, are potent antioxidants. In contrast, "free" iron increases oxidative stress and regulates the expression of many mRNAs (e.g., DCT-1, ferritin, and transferrin receptor) by affecting the conformation of iron regulatory protein (IRP)-1 and its binding to iron regulatory elements (IREs) in the 5'- or 3'-UTRs of the mRNAs.

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血红素加氧酶的调控及其作用的研究进展。
血红素加氧酶(HO)负责将血红素生理分解成等摩尔量的胆绿素、一氧化碳和铁。已鉴定出三种亚型(HO-1、HO-2和HO-3)。HO-1是普遍存在的,其mRNA和活性可通过血红素、其他金属卟啉、过渡金属和诱导细胞应激的刺激增加数倍。HO-1被认为是主要的热休克/应激反应蛋白。我们实验室最近的工作已经证明了HO-1的5'-非翻译区(UTR)中有几个潜在的共识调控元件,包括激活蛋白1 (AP-1)、金属响应元件(MRE)、癌基因c-myc/max异二聚体结合位点(Myc/ max)、抗氧化反应元件(ARE)和GC盒结合位点(Sp1)。使用缺失报告基因构建,我们绘制了介导亚砷酸盐依赖性HO-1诱导的位点,并且我们已经证明细胞外信号调节激酶(ERK)和p38(酵母HOG1激酶的同源物)的成分,而不是c-jun n末端激酶(JNK),丝裂原活化蛋白(MAP)激酶途径参与亚砷酸盐依赖性上调。相反,HO-2主要存在于大脑和睾丸中,实际上是不可诱导的。HO-3活性很低;其生理功能可能与血红素结合有关。HO反应的产物具有重要的作用:一氧化碳是一种有效的血管扩张剂,被认为在血管张力的调节中起关键作用,特别是在生理条件下的肝脏,以及在与HO-1诱导相关的“应激”条件下的许多器官。胆绿素及其产物胆红素在大多数哺乳动物体内形成,是有效的抗氧化剂。相反,“游离”铁通过影响铁调节蛋白(IRP)-1的构象及其在mrna的5′-或3′- utr中与铁调节元件(IREs)的结合,增加氧化应激并调节许多mrna的表达(如DCT-1、铁蛋白和转铁蛋白受体)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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