Genetic and Epigenetic Alterations of Genomes, de Duve Institute, UCLouvain, Brussels, Belgium.
Bioessays. 2021 Oct;43(10):e2100099. doi: 10.1002/bies.202100099. Epub 2021 Jul 28.
Human telomerase progressively emerged as a multifaceted ribonucleoprotein complex with additional functions beyond telomeric repeat synthesis. Both the hTERT catalytic subunit and the hTR long non-coding RNA (lncRNA) subunit are engaged in highly regulated cellular pathways that, together, contribute to cell fitness and protection against apoptosis. We recently described a new role for hTR in regulating the abundance of replication protein A at telomeres, adding to the growing repertoire of hTR's functions. Here, we focus on the non-canonical roles of hTR and discuss them in the context of the structural elements of the lncRNA. We propose that some functions of hTR may compete amongst each other through distinct interactions with its partners, proteins or mRNAs. We postulate that hTR's non-canonical functions may be highly relevant in the context of normal somatic cells that naturally silence hTERT gene, while keeping hTR expression.
人类端粒酶逐渐成为一种具有多种功能的核糖核蛋白复合物,其功能不仅限于端粒重复合成。端粒酶的 hTERT 催化亚基和 hTR 长链非编码 RNA(lncRNA)亚基都参与高度调控的细胞途径,这些途径共同促进细胞适应性和防止细胞凋亡。我们最近描述了 hTR 在调节端粒上复制蛋白 A 丰度方面的新作用,这增加了 hTR 功能的不断扩展。在这里,我们重点介绍 hTR 的非规范作用,并结合 lncRNA 的结构元件对其进行讨论。我们提出,hTR 的某些功能可能通过与其伴侣(蛋白质或 mRNA)的不同相互作用而相互竞争。我们假设,在正常的体细胞中,hTR 的非规范功能可能非常重要,这些体细胞自然沉默 hTERT 基因,但保持 hTR 的表达。
