PHD2突变在红细胞增多症发病机制中的作用

B. Gardie, M. Percy, D. Hoogewijs, R. Chowdhury, C. Bento, P. Arsenault, S. Richard, H. Almeida, J. Ewing, F. Lambert, M. McMullin, C. Schofield, F. Lee
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引用次数: 38

摘要

促红细胞生成素(EPO)基因的转录受到缺氧反应途径的严格调控,以维持氧稳态。血清EPO水平的升高可能反映在红细胞团的增加,从而引起红细胞增多。对红细胞的研究使我们对氧感应通路的功能和参与EPO转录调控的关键蛋白有了更深入的了解。低氧诱导转录因子的α亚基被三个脯氨酸羟化酶结构域(PHD)酶羟基化,这三个酶属于铁和2-氧戊二酸依赖的加氧酶超家族。对红细胞增多症患者编码博士基因的序列分析显示,杂合性种系突变仅发生在编码PHD2的egl9同源基因1 (EGLN1,也称为PHD2)中。迄今为止,已经描述了24种不同的EGLN1突变,包括错义突变、移码突变和无义突变。与携带这些突变的患者相关的表型是相当均匀的,通常限于红细胞增多,EPO正常或升高。然而,例外是存在的;例如,有一例并发副神经节瘤(PHD2-H374R)。分析与红细胞增多症相关的PHD2错义突变显示了不同的结果。结构研究表明,突变可以影响PHD2的不同结构域。有些接近缺氧诱导的转录因子α/2-氧葡萄糖酸酯或PHD2的铁结合位点。计算机研究表明,突变并不总是影响完全保守的残基。在体外和细胞内的研究显示了突变的不同影响,从轻微的影响到严重的功能丧失。PHD2潜在肿瘤抑制作用的确切机制仍有待阐明。表达首次报道的PHD2- p317r突变的敲入小鼠模型再现了在人类中观察到的表型(红细胞增生与血清EPO水平不适当正常),并表明PHD2单倍体功能不全和部分失调足以引起红细胞增生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The role of PHD2 mutations in the pathogenesis of erythrocytosis
The transcription of the erythropoietin (EPO) gene is tightly regulated by the hypoxia response pathway to maintain oxygen homeostasis. Elevations in serum EPO level may be reflected in an augmentation in the red cell mass, thereby causing erythrocytosis. Studies on erythrocytosis have provided insights into the function of the oxygen-sensing pathway and the critical proteins involved in the regulation of EPO transcription. The α subunits of the hypoxia-inducible transcription factor are hydroxylated by three prolyl hydroxylase domain (PHD) enzymes, which belong to the iron and 2-oxoglutarate-dependent oxygenase superfamily. Sequence analysis of the genes encoding the PHDs in patients with erythrocytosis has revealed heterozygous germline mutations only occurring in Egl nine homolog 1 (EGLN1, also known as PHD2), the gene that encodes PHD2. To date, 24 different EGLN1 mutations comprising missense, frameshift, and nonsense mutations have been described. The phenotypes associated with the patients carrying these mutations are fairly homogeneous and typically limited to erythrocytosis with normal to elevated EPO. However, exceptions exist; for example, there is one case with development of concurrent paraganglioma (PHD2-H374R). Analysis of the erythrocytosis-associated PHD2 missense mutations has shown heterogeneous results. Structural studies reveal that mutations can affect different domains of PHD2. Some are close to the hypoxia-inducible transcription factor α/2-oxoglutarate or the iron binding sites for PHD2. In silico studies demonstrate that the mutations do not always affect fully conserved residues. In vitro and in cellulo studies showed varying effects of the mutations, ranging from mild effects to severe loss of function. The exact mechanism of a potential tumor-suppressor role for PHD2 still needs to be elucidated. A knockin mouse model expressing the first reported PHD2-P317R mutation recapitulates the phenotype observed in humans (erythrocytosis with inappropriately normal serum EPO levels) and demonstrates that haploinsufficiency and partial deregulation of PHD2 is sufficient to cause erythrocytosis.
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