Guzder S N, Sung P, Prakash S, Prakash L
Sealy Center for Molecular Science, University of Texas Medical Branch, Galveston 77555-1061, USA.
J Biol Chem. 1995 Jul 28;270(30):17660-3. doi: 10.1074/jbc.270.30.17660.
Mutations in the human XPD gene result in a defect in nucleotide excision repair of ultraviolet damaged DNA and cause the cancer-prone syndrome xeroderma pigmentosum (XP). Besides XP, mutations in XPD can cause another seemingly unrelated syndrome, trichothiodystrophy (TTD), characterized by sulfur-deficient brittle hair, ichthyosis, and physical and mental retardation. To ascertain the underlying defect responsible for TTD, we have expressed the TTD mutant proteins in the yeast Saccharomyces cerevisiae and determined if these mutations can rescue the inviability of a rad3 null mutation. RAD3, the S. cerevisiae counterpart of XPD, is required for nucleotide excision repair and also has an essential role in RNA polymerase II transcription. Expression of the wild type XPD protein or the XPD Arg-48 protein carrying a mutation in the DNA helicase domain restores viability to the rad3 null mutation. Interestingly, the XPD variants containing TTD mutations fail to complement the lethality of the rad3 null mutation, strongly suggesting that TTD mutations impair the ability of XPD protein to function normally in RNA polymerase II transcription. From our studies, we conclude that XPD DNA helicase activity is not essential for transcription and infer that TTD mutations in XPD result in a defect in transcription.
人类XPD基因的突变会导致紫外线损伤DNA的核苷酸切除修复缺陷,并引发易患癌症的着色性干皮病(XP)综合征。除了XP,XPD基因的突变还会导致另一种看似无关的综合征——毛发硫营养不良(TTD),其特征为缺硫的脆发、鱼鳞病以及身心发育迟缓。为了确定导致TTD的潜在缺陷,我们在酿酒酵母中表达了TTD突变蛋白,并确定这些突变是否能够挽救rad3基因缺失突变体的致死性。RAD3是XPD在酿酒酵母中的对应物,是核苷酸切除修复所必需的,并且在RNA聚合酶II转录中也起着至关重要的作用。野生型XPD蛋白或在DNA解旋酶结构域携带突变的XPD Arg-48蛋白的表达可恢复rad3基因缺失突变体的活力。有趣的是,含有TTD突变的XPD变体无法弥补rad3基因缺失突变体的致死性,这强烈表明TTD突变损害了XPD蛋白在RNA聚合酶II转录中正常发挥功能的能力。从我们的研究中,我们得出结论,XPD DNA解旋酶活性对于转录并非必不可少,并推断XPD中的TTD突变会导致转录缺陷。
