Hwang B J, Toering S, Francke U, Chu G
Departments of Medicine and Biochemistry, Stanford University School of Medicine, Stanford, California 94305, USA.
Mol Cell Biol. 1998 Jul;18(7):4391-9. doi: 10.1128/MCB.18.7.4391.
A subset of xeroderma pigmentosum (XP) group E cells lack a factor that binds to DNA damaged by UV radiation. This factor can be purified to homogeneity as p125, a 125-kDa polypeptide. However, when cDNA encoding p125 is translated in vitro, only a small fraction binds to UV-damaged DNA, suggesting that a second factor is required for the activation of p125. We discovered that most hamster cell lines expressed inactive p125, which was activated in somatic cell hybrids containing human chromosome region 11p11.2-11cen. This region excluded p125 but included p48, which encodes a 48-kDa polypeptide known to copurify with p125 under some conditions. Expression of human p48 activated p125 binding in hamster cells and increased p125 binding in human cells. No such effects were observed from expression of p48 containing single amino acid substitutions from XP group E cells that lacked binding activity, demonstrating that the p48 gene is defective in those cells. Activation of p125 occurred by a "hit-and-run" mechanism, since the presence of p48 was not required for subsequent binding. Nevertheless, p48 was capable of forming a complex with p125 either bound to UV-damaged DNA or in free solution. It is notable that hamster cells fail to efficiently repair cyclobutane pyrimidine dimers in nontranscribed DNA and fail to express p48, which contains a WD motif with homology to proteins that reorganize chromatin. We propose that p48 plays a role in repairing lesions that would otherwise remain inaccessible in nontranscribed chromatin.
着色性干皮病E组(XP-E)细胞的一个亚群缺乏一种能与紫外线辐射损伤的DNA结合的因子。该因子可被纯化至同质状态,为一种125 kDa的多肽p125。然而,当编码p125的cDNA在体外进行翻译时,只有一小部分能与紫外线损伤的DNA结合,这表明p125的激活需要第二种因子。我们发现,大多数仓鼠细胞系表达无活性的p125,而在含有人类染色体区域11p11.2 - 11cen的体细胞杂种中,p125被激活。该区域不包含p125,但包含p48,p48编码一种48 kDa的多肽,在某些条件下已知可与p125共同纯化。人类p48的表达激活了仓鼠细胞中p125的结合,并增加了人类细胞中p125的结合。从缺乏结合活性的XP-E组细胞中表达含有单个氨基酸替换的p48未观察到此类效应,这表明这些细胞中的p48基因存在缺陷。p125的激活是通过“打了就跑”机制发生的,因为后续结合不需要p48的存在。然而,p48能够与结合到紫外线损伤DNA上的p125或游离溶液中的p125形成复合物。值得注意的是,仓鼠细胞不能有效地修复非转录DNA中的环丁烷嘧啶二聚体,并且不表达p48,p48含有一个与重组染色质的蛋白质具有同源性的WD基序。我们提出,p48在修复否则在非转录染色质中无法接近的损伤中发挥作用。