Pruzan Ronald, Pongracz Krisztina, Gietzen Kimberly, Wallweber Gerald, Gryaznov Sergei
Geron Corporation, 230 Constitution Drive, Menlo Park, CA 94025, USA.
Nucleic Acids Res. 2002 Jan 15;30(2):559-68. doi: 10.1093/nar/30.2.559.
Telomerase is a ribonucleoprotein responsible for maintaining telomeres in nearly all eukaryotic cells. The enzyme is able to utilize a short segment of its RNA subunit as the template for the reverse transcription of d(TTAGGG) repeats onto the ends of human chromosomes. Transfection with telomerase was shown to confer immortality on several types of human cells. Moreover, telomerase activation appears to be one of the key events required for malignant transformation of normal cells. Inhibition of telomerase activity in transformed cells results in the cessation of cell proliferation in cultures and provides the rationale for the selection of telomerase as a target for anticancer therapy. Using oligonucleotide N3'-->P5' phosphoramidates (NPs) we have identified a region of the human telomerase RNA subunit (hTR) approximately 100 nt downstream from the template region whose structural integrity appears crucial for telomerase enzymatic activity. The oligonucleotides targeted to this segment of hTR are potent and specific inhibitors of telomerase activity in biochemical assays. Mutant telomerase, in which 3 nt of hTR were not complementary to a 15 nt NP, was found to be refractory to inhibition by that oligonucleotide. We also demonstrated that the binding of NP, oligonucleotides to this hTR allosteric site results in a marked decrease in the affinity of a telomerase substrate (single-stranded DNA primer) for the enzyme.
端粒酶是一种核糖核蛋白,负责维持几乎所有真核细胞中的端粒。该酶能够利用其RNA亚基的一小段作为模板,将d(TTAGGG)重复序列逆转录到人类染色体末端。研究表明,用端粒酶转染可使几种类型的人类细胞永生化。此外,端粒酶激活似乎是正常细胞恶性转化所需的关键事件之一。抑制转化细胞中的端粒酶活性会导致培养物中细胞增殖停止,并为选择端粒酶作为抗癌治疗靶点提供了理论依据。使用寡核苷酸N3'→P5'氨基磷酸酯(NPs),我们确定了人类端粒酶RNA亚基(hTR)模板区域下游约100个核苷酸的一个区域,其结构完整性似乎对端粒酶的酶活性至关重要。在生化分析中,靶向hTR这一片段的寡核苷酸是端粒酶活性的有效且特异性抑制剂。发现hTR的3个核苷酸与15个核苷酸的NP不互补的突变端粒酶对该寡核苷酸的抑制具有抗性。我们还证明,NP寡核苷酸与该hTR变构位点的结合会导致端粒酶底物(单链DNA引物)与该酶的亲和力显著降低。