Zhao Yong, Sfeir Agnel J, Zou Ying, Buseman Christen M, Chow Tracy T, Shay Jerry W, Wright Woodring E
Department of Cell Biology, UT Southwestern Medical Center, Dallas, TX 75390, USA.
Cell. 2009 Aug 7;138(3):463-75. doi: 10.1016/j.cell.2009.05.026.
Telomeres are thought to be maintained by the preferential recruitment of telomerase to the shortest telomeres. The extension of the G-rich telomeric strand by telomerase is also believed to be coordinated with the complementary synthesis of the C strand by the conventional replication machinery. However, we show that under telomere length-maintenance conditions in cancer cells, human telomerase extends most chromosome ends during each S phase and is not preferentially recruited to the shortest telomeres. Telomerase rapidly extends the G-rich strand following telomere replication but fill-in of the C strand is delayed into late S phase. This late C-strand fill-in is not executed by conventional Okazaki fragment synthesis but by a mechanism using a series of small incremental steps. These findings highlight differences between telomerase actions during steady state versus nonequilibrium conditions and reveal steps in the human telomere maintenance pathway that may provide additional targets for the development of anti-telomerase therapeutics.
端粒被认为是通过端粒酶优先募集到最短的端粒而得以维持。人们还认为,端粒酶对富含鸟嘌呤的端粒链的延伸与传统复制机制对互补C链的合成是协调进行的。然而,我们发现,在癌细胞中端粒长度维持的条件下,人类端粒酶在每个S期都会延伸大多数染色体末端,而不是优先募集到最短的端粒。端粒酶在端粒复制后迅速延伸富含鸟嘌呤的链,但C链的填充延迟到S期后期。这种后期C链的填充不是通过传统的冈崎片段合成来完成的,而是通过一种使用一系列小的增量步骤的机制来完成的。这些发现突出了稳态与非平衡条件下端粒酶作用的差异,并揭示了人类端粒维持途径中的步骤,这些步骤可能为抗端粒酶疗法的开发提供额外的靶点。