TERT 激活靶向 DNA 甲基化和多种衰老标志物。

TERT activation targets DNA methylation and multiple aging hallmarks.

机构信息

Department of Cancer Biology, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA.

Department of Chemistry, The Scripps Research Institute, La Jolla, CA 92037, USA.

出版信息

Cell. 2024 Jul 25;187(15):4030-4042.e13. doi: 10.1016/j.cell.2024.05.048. Epub 2024 Jun 21.

DOI:10.1016/j.cell.2024.05.048

PMID:38908367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11552617/

Abstract

Insufficient telomerase activity, stemming from low telomerase reverse transcriptase (TERT) gene transcription, contributes to telomere dysfunction and aging pathologies. Besides its traditional function in telomere synthesis, TERT acts as a transcriptional co-regulator of genes pivotal in aging and age-associated diseases. Here, we report the identification of a TERT activator compound (TAC) that upregulates TERT transcription via the MEK/ERK/AP-1 cascade. In primary human cells and naturally aged mice, TAC-induced elevation of TERT levels promotes telomere synthesis, blunts tissue aging hallmarks with reduced cellular senescence and inflammatory cytokines, and silences p16 expression via upregulation of DNMT3B-mediated promoter hypermethylation. In the brain, TAC alleviates neuroinflammation, increases neurotrophic factors, stimulates adult neurogenesis, and preserves cognitive function without evident toxicity, including cancer risk. Together, these findings underscore TERT's critical role in aging processes and provide preclinical proof of concept for physiological TERT activation as a strategy to mitigate multiple aging hallmarks and associated pathologies.

摘要

端粒酶活性不足，源于端粒酶逆转录酶（TERT）基因转录水平低，导致端粒功能障碍和衰老相关病理。除了在端粒合成中的传统功能外，TERT 还作为衰老和与年龄相关疾病关键基因的转录共调节因子发挥作用。在这里，我们报告了一种 TERT 激活化合物（TAC）的鉴定，该化合物通过 MEK/ERK/AP-1 级联上调 TERT 转录。在原代人细胞和自然衰老的小鼠中，TAC 诱导的 TERT 水平升高促进端粒合成，通过上调 DNMT3B 介导的启动子超甲基化沉默 p16 表达，减少细胞衰老和炎症细胞因子，从而减轻组织衰老的特征。在大脑中，TAC 减轻神经炎症，增加神经营养因子，刺激成年神经发生，并保持认知功能，而没有明显的毒性，包括癌症风险。总之，这些发现强调了 TERT 在衰老过程中的关键作用，并为生理 TERT 激活作为减轻多种衰老特征和相关病理的策略提供了临床前概念验证。

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