癌症治疗中的 RNA 生物标记物:个性化肿瘤学的前景。

Advances in clinical chemistry Pub Date : 2024-01-01 Epub Date: 2024-06-21 DOI:10.1016/bs.acc.2024.06.003
Hector Katifelis, Maria Gazouli
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引用次数: 0

摘要

癌症治疗是一个快速发展和不断扩展的领域。目前的治疗方法包括手术、传统化疗和免疫疗法中的新型生物制剂,它们共同组成了一个庞大的治疗体系。然而,过多的选择可能会给临床带来挑战,难以为特定患者开出最合适的治疗处方。幸运的是,生物标志物可以极大地帮助人们做出最合适的选择。近年来,基于 RNA 的生物标志物被证明是最有前途的。从小型非编码 RNA 到蛋白编码基因转录本,这些分子在癌症管理,特别是癌症治疗中都很有价值。与在整个治疗过程中保持稳定的 DNA 类似物相比,RNA 生物标记物是动态的。这样就可以在治疗开始前预测治疗的成功与否,并能识别反映反应的表达变化。此外,经过改进的核酸技术可以从几乎所有生物流体/基质中提取 RNA,并以极高的分析灵敏度进行评估。此外,大部分样本都是通过微创手术获得的,因此可连续用于实时评估治疗反应。本章将向读者深入介绍目前已知的 RNA 生物标记物、采用人工智能识别此类分子的最新研究以及推动个性化肿瘤学时代到来的临床决策。
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RNA biomarkers in cancer therapeutics: The promise of personalized oncology.

Cancer therapy is a rapidly evolving and constantly expanding field. Current approaches include surgery, conventional chemotherapy and novel biologic agents as in immunotherapy, that together compose a wide armamentarium. The plethora of choices can, however, be clinically challenging in prescribing the most suitable treatment for any given patient. Fortunately, biomarkers can greatly facilitate the most appropriate selection. In recent years, RNA-based biomarkers have proven most promising. These molecules that range from small noncoding RNAs to protein coding gene transcripts can be valuable in cancer management and especially in cancer therapeutics. Compared to their DNA counterparts which are stable throughout treatment, RNA-biomarkers are dynamic. This allows prediction of success prior to treatment start and can identify alterations in expression that could reflect response. Moreover, improved nucleic acid technology allows RNA to be extracted from practically every biofluid/matrix and evaluated with exceedingly high analytic sensitivity. In addition, samples are largely obtained by minimally invasive procedures and as such can be used serially to assess treatment response real-time. This chapter provides the reader insight on currently known RNA biomarkers, the latest research employing Artificial Intelligence in the identification of such molecules and in clinical decisions driving forward the era of personalized oncology.

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