Simultaneous ablation of prmt-1 and prmt-5 abolishes asymmetric and symmetric arginine dimethylations in Caenorhabditis elegans

K. Hirota, Chihiro Shigekawa, Sho Araoi, L. Sha, Takayuki Inagawa, Akihiko Kanou, K. Kako, H. Daitoku, A. Fukamizu
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引用次数: 9

Abstract

Protein arginine methyltransferases (PRMTs) catalyze the transfer of a methyl group from S-adenosylmethionine to arginine residues and are classified into two types: type I producing asymmetric dimethylarginine (ADMA) and type II producing symmetric dimethylarginine (SDMA). PRMTs have been shown to regulate many cellular processes, including signal transduction, transcriptional regulation and RNA processing. Since the loss-of-function mutation of PRMT1 and PRMT5, each of which is the predominant type I and II, respectively, causes embryonic lethality in mice, their physiological significance at the whole-body level remains largely unknown. Here, we show the morphological and functional phenotypes of single or double null alleles of prmt-1 and prmt-5 in Caenorhabditis elegans. The prmt-1;prmt-5 double mutants are viable, and exhibit short body length and small brood size compared to N2 and each of the single mutants. The liquid chromatography-tandem mass spectrometry analysis demonstrated that the levels of ADMA and SDMA were abolished in the prmt-1;prmt-5 double mutants. Both prmt-1 and prmt-5 were required for resistance to heat and oxidative stresses, whereas prmt-5 is not involved in lifespan regulation even when prmt-1 is ablated. This mutant strain would be a useful model animal for investigating the role of asymmetric and symmetric arginine dimethylation in vivo.
同时消融prmt-1和prmt-5可消除秀丽隐杆线虫中不对称和对称精氨酸二甲基化
蛋白质精氨酸甲基转移酶(PRMTs)催化甲基从s -腺苷蛋氨酸转移到精氨酸残基,分为两类:一类产生不对称二甲基精氨酸(ADMA),二类产生对称二甲基精氨酸(SDMA)。PRMTs已被证明可以调节许多细胞过程,包括信号转导、转录调控和RNA加工。由于PRMT1和PRMT5的功能丧失突变(分别是主要的I型和II型)会导致小鼠的胚胎致死,因此它们在全身水平上的生理意义在很大程度上仍然未知。在这里,我们展示了秀丽隐杆线虫prmt-1和prmt-5的单或双零等位基因的形态和功能表型。prmt-1和prmt-5双突变体是可活的,与N2和每一个单突变体相比,prmt-1和prmt-5双突变体体长短,孵化量小。液相色谱-串联质谱分析表明,双突变体prmt-1和prmt-5中ADMA和SDMA水平完全消失。prmt-1和prmt-5都是耐热和氧化胁迫的必需条件,而prmt-5即使在prmt-1被消融后也不参与寿命调节。该突变株将成为研究体内不对称和对称精氨酸二甲基化作用的有用模型动物。
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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