Institut für Biochemie und Molekularbiologie, Rheinischen Friedrich-Wilhelms-Universität, Nussallee 11, 53115 Bonn Germany.
Free Radic Biol Med. 2018 Nov 1;127:206-214. doi: 10.1016/j.freeradbiomed.2018.04.572. Epub 2018 Apr 27.
In its 200 years of history, selenium has been defined first as a toxic element and finally as a micronutrient. Selenium is incorporated into selenoproteins as selenocysteine (Sec), the 21st proteinogenic amino acid codified by a stop codon. Specific biosynthetic factors recode UGA stop codon as Sec. The significance of selenoproteins in human health is manifested through the identification of patients with inborn errors in selenoproteins or their biosynthetic factors. Selenoprotein N-related myopathy was the first disease identified due to mutations in a selenoprotein gene. Mutations in GPX4 were linked to Sedaghatian disease, characterized by bone and brain anomalies and cardiorespiratory failure. Mutations in TXNRD2 produced familial glucocorticoid deficiency (FGD) and dilated cardiomyopathy (DCM). Genetic generalized epilepsy was associated with mutations in TXNRD1 gene. Mutations in biosynthetic factors as SEPSECS, SECISBP2 and even tRNA, have been also related to diseases. Thus, SEPSECS mutations produce a neurodegenerative disease called now pontocerebellar hypoplasia type 2D (PCH2D). SECISBP2 syndrome, caused by SECISBP2 mutations, is a multifactorial disease affecting mainly thyroid metabolism, bone, inner ear and muscle. Similar symptoms were reproduced in a patient carrying a mutation in tRNA gene, TRU-TCA1-1. This review describes human genetic disorders caused by selenoprotein deficiency. Human phenotypes will be compared with mouse models to explain the pathologic mechanisms of lack of selenoproteins.
在 200 年的历史中,硒最初被定义为有毒元素,最终被定义为微量元素。硒作为硒代半胱氨酸(Sec)掺入到硒蛋白中,Sec 是由终止密码子编码的第 21 种蛋白质氨基酸。特定的生物合成因子将 UGA 终止密码子重新编码为 Sec。硒蛋白在人类健康中的意义体现在鉴定出具有硒蛋白或其生物合成因子先天错误的患者。硒蛋白 N 相关肌病是由于硒蛋白基因发生突变而首次发现的疾病。GPX4 突变与 Sedaghatian 病有关,其特征是骨骼和大脑异常以及心肺衰竭。TXNRD2 突变导致家族性糖皮质激素缺乏症(FGD)和扩张型心肌病(DCM)。遗传全身性癫痫与 TXNRD1 基因突变有关。生物合成因子如 SEPSECS、SECISBP2 甚至 tRNA 的突变也与疾病有关。因此,SEPSECS 突变产生了一种称为现在的桥小脑发育不良 2D 型(PCH2D)的神经退行性疾病。由于 SECISBP2 突变引起的 SECISBP2 综合征是一种多因素疾病,主要影响甲状腺代谢、骨骼、内耳和肌肉。携带 tRNA 基因 TRU-TCA1-1 突变的患者也出现了类似的症状。这篇综述描述了由硒蛋白缺乏引起的人类遗传疾病。人类表型将与小鼠模型进行比较,以解释缺乏硒蛋白的病理机制。
