Advancements in Telomerase-Targeted Therapies for Glioblastoma: A Systematic Review

IF 4.9 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY International Journal of Molecular Sciences Pub Date : 2024-08-09 DOI:10.3390/ijms25168700
Giovanni Pennisi, P. Bruzzaniti, Benedetta Burattini, Giacomo Piaser Guerrato, G. D. Della Pepa, C. Sturiale, P. Lapolla, Pietro Familiari, Biagia La Pira, Giancarlo D’Andrea, Alessandro Olivi, Q. D’Alessandris, Nicola Montano
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Abstract

Glioblastoma (GBM) is a primary CNS tumor that is highly lethal in adults and has limited treatment options. Despite advancements in understanding the GBM biology, the standard treatment for GBM has remained unchanged for more than a decade. Only 6.8% of patients survive beyond five years. Telomerase, particularly the hTERT promoter mutations present in up to 80% of GBM cases, represents a promising therapeutic target due to its role in sustaining telomere length and cancer cell proliferation. This review examines the biology of telomerase in GBM and explores potential telomerase-targeted therapies. We conducted a systematic review following the PRISMA-P guidelines in the MEDLINE/PubMed and Scopus databases, from January 1995 to April 2024. We searched for suitable articles by utilizing the terms “GBM”, “high-grade gliomas”, “hTERT” and “telomerase”. We incorporated studies addressing telomerase-targeted therapies into GBM studies, excluding non-English articles, reviews, and meta-analyses. We evaluated a total of 777 records and 46 full texts, including 36 studies in the final review. Several compounds aimed at inhibiting hTERT transcription demonstrated promising preclinical outcomes; however, they were unsuccessful in clinical trials owing to intricate regulatory pathways and inadequate pharmacokinetics. Direct hTERT inhibitors encountered numerous obstacles, including a prolonged latency for telomere shortening and the activation of the alternative lengthening of telomeres (ALT). The G-quadruplex DNA stabilizers appeared to be potential indirect inhibitors, but further clinical studies are required. Imetelstat, the only telomerase inhibitor that has undergone clinical trials, has demonstrated efficacy in various cancers, but its efficacy in GBM has been limited. Telomerase-targeted therapies in GBM is challenging due to complex hTERT regulation and inadequate inhibitor pharmacokinetics. Our study demonstrates that, despite promising preclinical results, no Telomerase inhibitors have been approved for GBM, and clinical trials have been largely unsuccessful. Future strategies may include Telomerase-based vaccines and multi-target inhibitors, which may provide more effective treatments when combined with a better understanding of telomere dynamics and tumor biology. These treatments have the potential to be integrated with existing ones and to improve the outcomes for patients with GBM.
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端粒酶靶向治疗胶质母细胞瘤的进展:系统综述
胶质母细胞瘤(GBM)是一种原发性中枢神经系统肿瘤,对成年人的致死率很高,但治疗方案有限。尽管人们对 GBM 的生物学特性有了进一步的了解,但十多年来,GBM 的标准治疗方法一直未变。只有 6.8% 的患者能存活五年以上。端粒酶,尤其是高达 80% 的 GBM 病例中存在的 hTERT 启动子突变,由于其在维持端粒长度和癌细胞增殖方面的作用,是一个很有前景的治疗靶点。本综述研究了端粒酶在 GBM 中的生物学作用,并探讨了潜在的端粒酶靶向疗法。我们按照PRISMA-P指南在MEDLINE/PubMed和Scopus数据库中进行了一项系统性综述,时间跨度为1995年1月至2024年4月。我们使用 "GBM"、"高级别胶质瘤"、"hTERT "和 "端粒酶 "等术语搜索合适的文章。我们将针对端粒酶靶向疗法的研究纳入 GBM 研究,排除了非英文文章、综述和荟萃分析。我们共评估了 777 条记录和 46 篇全文,其中 36 项研究被纳入最终综述。一些旨在抑制 hTERT 转录的化合物在临床前研究中表现出了良好的效果,但由于复杂的调节途径和药代动力学不足,它们在临床试验中并不成功。直接的 hTERT 抑制剂遇到了许多障碍,包括端粒缩短的潜伏期延长和端粒替代性延长(ALT)的激活。G-四联DNA稳定剂似乎是潜在的间接抑制剂,但还需要进一步的临床研究。Imetelstat是唯一一种进行过临床试验的端粒酶抑制剂,对多种癌症都有疗效,但对GBM的疗效有限。由于复杂的 hTERT 调节和抑制剂药代动力学不足,端粒酶靶向疗法在 GBM 中具有挑战性。我们的研究表明,尽管临床前研究结果令人鼓舞,但目前还没有针对 GBM 的端粒酶抑制剂获得批准,临床试验在很大程度上也不成功。未来的策略可能包括基于端粒酶的疫苗和多靶点抑制剂,如果结合对端粒动态和肿瘤生物学的更好理解,它们可能会提供更有效的治疗。这些治疗方法有可能与现有的治疗方法相结合,改善 GBM 患者的治疗效果。
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
International Journal of Molecular Sciences
International Journal of Molecular Sciences Chemistry-Organic Chemistry
CiteScore
8.10
自引率
10.70%
发文量
13472
审稿时长
17.49 days
期刊介绍: The International Journal of Molecular Sciences (ISSN 1422-0067) provides an advanced forum for chemistry, molecular physics (chemical physics and physical chemistry) and molecular biology. It publishes research articles, reviews, communications and short notes. Our aim is to encourage scientists to publish their theoretical and experimental results in as much detail as possible. Therefore, there is no restriction on the length of the papers or the number of electronics supplementary files. For articles with computational results, the full experimental details must be provided so that the results can be reproduced. Electronic files regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material (including animated pictures, videos, interactive Excel sheets, software executables and others).
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