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莱茵衣藻胞质硫氧还蛋白h1在响应烷基化诱导的DNA损伤中的功能特化

Functional specialization of Chlamydomonas reinhardtii cytosolic thioredoxin h1 in the response to alkylation-induced DNA damage.

作者信息

Sarkar Nandita, Lemaire Stéphane, Wu-Scharf Danxia, Issakidis-Bourguet Emmanuelle, Cerutti Heriberto

机构信息

School of Biological Sciences and Plant Science Initiative, University Of Nebraska-Lincoln, Lincoln, NE 68588-0666, USA.

出版信息

Eukaryot Cell. 2005 Feb;4(2):262-73. doi: 10.1128/EC.4.2.262-273.2005.

Abstract

DNA damage occurs as a by-product of intrinsic cellular processes, like DNA replication, or as a consequence of exposure to genotoxic agents. Organisms have evolved multiple mechanisms to avoid, tolerate, or repair DNA lesions. To gain insight into these processes, we have isolated mutants hypersensitive to DNA-damaging agents in the green alga Chlamydomonas reinhardtii. One mutant, Ble-1, showed decreased survival when it was treated with methyl methanesulfonate (MMS), bleomycin, or hydrogen peroxide (H2O2) but behaved like the wild type when it was exposed to UVC irradiation. Ble-1 carries an extensive chromosomal deletion that includes the gene encoding cytosolic thioredoxin h1 (Trxh1). Transformation of Ble-1 with a wild-type copy of Trxh1 fully corrected the MMS hypersensitivity and partly restored the tolerance to bleomycin. Trxh1 also complemented a defect in the repair of MMS-induced DNA strand breaks and alkali-labile sites. In addition, a Trxh1-beta-glucuronidase fusion protein translocated to the nucleus in response to treatment with MMS. However, somewhat surprisingly, Trxh1 failed to correct the Ble-1 hypersensitivity to H2O2. Moreover, Trxh1 suppression by RNA interference in a wild-type strain resulted in enhanced sensitivity to MMS and DNA repair defects but no increased cytotoxicity to H2O2. Thioredoxins have been implicated in oxidative-stress responses in many organisms. Yet our results indicate a specific role of Chlamydomonas Trxh1 in the repair of MMS-induced DNA damage, whereas it is dispensable for the response to H2O2. These observations also suggest functional specialization among cytosolic thioredoxins since another Chlamydomonas isoform (Trxh2) does not compensate for the lack of Trxh1.

摘要

DNA损伤作为细胞内固有过程的副产物而发生,如DNA复制过程中,或因暴露于基因毒性试剂而产生。生物体已进化出多种机制来避免、耐受或修复DNA损伤。为深入了解这些过程,我们在莱茵衣藻中分离出了对DNA损伤试剂敏感的突变体。其中一个突变体Ble-1,在用甲磺酸甲酯(MMS)、博来霉素或过氧化氢(H2O2)处理时存活率降低,但在暴露于紫外线C(UVC)照射时表现得与野生型一样。Ble-1存在广泛的染色体缺失,包括编码胞质硫氧还蛋白h1(Trxh1)的基因。用野生型Trxh1拷贝转化Ble-1完全纠正了对MMS的超敏感性,并部分恢复了对博来霉素的耐受性。Trxh1还弥补了MMS诱导的DNA链断裂和碱不稳定位点修复中的缺陷。此外,MMS处理后,Trxh1-β-葡萄糖醛酸酶融合蛋白易位至细胞核。然而,有点令人惊讶的是,Trxh1未能纠正Ble-1对H2O2的超敏感性。此外,在野生型菌株中通过RNA干扰抑制Trxh1导致对MMS的敏感性增强和DNA修复缺陷,但对H_{​​2}O_{2}的细胞毒性并未增加。硫氧还蛋白在许多生物体的氧化应激反应中发挥作用。然而,我们的结果表明衣藻Trxh1在修复MMS诱导的DNA损伤中具有特定作用,而对H2O2的反应则无需该蛋白。这些观察结果还表明胞质硫氧还蛋白之间存在功能特化,因为衣藻的另一种异构体(Trxh2)不能弥补Trxh1的缺失。

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