Small molecule telomerase inhibitors are also potent inhibitors of telomeric C-strand synthesis.

IF 4.2 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY RNA Pub Date : 2024-08-16 DOI:10.1261/rna.080043.124

Kaitlin Johnson, Julia M Seidel, Thomas R Cech

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Abstract

Telomere replication is essential for continued proliferation of human cells, such as stem cells and cancer cells. Telomerase lengthens the telomeric G-strand, while C-strand replication is accomplished by CST-polymerase α-primase (CST-PP). Replication of both strands is inhibited by formation of G-quadruplex (GQ) structures in the G-rich single-stranded DNA. TMPyP4 and pyridostatin (PDS), which stabilize GQ structures in both DNA and RNA, inhibit telomerase in vitro, and in human cells they cause telomere shortening that has been attributed to telomerase inhibition. Here, we show that TMPyP4 and PDS also inhibit C-strand synthesis by stabilizing DNA secondary structures and thereby preventing CST-PP from binding to telomeric DNA. We also show that these small molecules inhibit CST-PP binding to a DNA sequence containing no consecutive guanine residues, which is unlikely to form GQs. Thus, while these "telomerase inhibitors" indeed inhibit telomerase, they are also robust inhibitors of telomeric C-strand synthesis. Furthermore, given their binding to GQ RNA and their limited specificity for GQ structures, they may disrupt many other protein-nucleic acid interactions in human cells.

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小分子端粒酶抑制剂也是端粒 C 链合成的有效抑制剂。

端粒复制对干细胞和癌细胞等人类细胞的持续增殖至关重要。端粒酶可延长端粒 G 链，而 C 链的复制则由 CST 聚合酶 α-primase（CST-PP）完成。在富含 G 的单链 DNA 中形成的 G-四联体（GQ）结构会抑制两条链的复制。TMPyP4和哒哒司汀（PDS）能稳定DNA和RNA中的GQ结构，它们在体外能抑制端粒酶，并导致人类细胞中端粒的缩短，这被认为是端粒酶抑制所致。在这里，我们发现 TMPyP4 和 PDS 还能通过稳定 DNA 二级结构来抑制 C 链的合成，从而阻止 CST-PP 与端粒 DNA 结合。我们还发现，这些小分子抑制了 CST-PP 与不含连续鸟嘌呤残基的 DNA 序列的结合，而这种序列不太可能形成 GQ。因此，虽然这些 "端粒酶抑制剂 "确实能抑制端粒酶，但它们也是端粒 C 链合成的强效抑制剂。此外，鉴于它们对GQ结构的特异性有限，它们可能会破坏人体细胞中许多其他蛋白质-核酸之间的相互作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

RNA 生物-生化与分子生物学

CiteScore

8.30

自引率

2.20%

发文量

101

审稿时长

2.6 months

期刊介绍： RNA is a monthly journal which provides rapid publication of significant original research in all areas of RNA structure and function in eukaryotic, prokaryotic, and viral systems. It covers a broad range of subjects in RNA research, including: structural analysis by biochemical or biophysical means; mRNA structure, function and biogenesis; alternative processing: cis-acting elements and trans-acting factors; ribosome structure and function; translational control; RNA catalysis; tRNA structure, function, biogenesis and identity; RNA editing; rRNA structure, function and biogenesis; RNA transport and localization; regulatory RNAs; large and small RNP structure, function and biogenesis; viral RNA metabolism; RNA stability and turnover; in vitro evolution; and RNA chemistry.