Regulatory miRNAs in cancer cell recovery from therapy exposure and its implications as a novel therapeutic strategy for preventing disease recurrence.

Q3 Biochemistry, Genetics and Molecular Biology
Enzymes Pub Date : 2023-01-01 Epub Date: 2023-08-30 DOI:10.1016/bs.enz.2023.07.007
Joseph Landry, Kathryn Shows, Akash Jagdeesh, Aashka Shah, Mihir Pokhriyal, Vasily Yakovlev
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引用次数: 0

Abstract

The desired outcome of cancer therapies is the eradication of disease. This can be achieved when therapy exposure leads to therapy-induced cancer cell death as the dominant outcome. Theoretically, a permanent therapy-induced growth arrest could also contribute to a complete response, which has the potential to lead to remission. However, preclinical models have shown that therapy-induced growth arrest is not always durable, as recovering cancer cell populations can contribute to the recurrence of cancer. Significant research efforts have been expended to develop strategies focusing on the prevention of recurrence. Recovery of cells from therapy exposure can occur as a result of several cell stress adaptations. These include cytoprotective autophagy, cellular quiescence, a reversable form of senescence, and the suppression of apoptosis and necroptosis. It is well documented that microRNAs regulate the response of cancer cells to anti-cancer therapies, making targeting microRNAs therapeutically a viable strategy to sensitization and the prevention of recovery. We propose that the use of microRNA-targeting therapies in prolonged sequence, that is, a significant period after initial therapy exposure, could reduce toxicity from the standard combination strategy, and could exploit new epigenetic states essential for cancer cells to recover from therapy exposure. In a step toward supporting this strategy, we survey the available scientific literature to identify microRNAs which could be targeted in sequence to eliminate residual cancer cell populations that were arrested as a result of therapy exposure. It is our hope that by successfully identifying microRNAs which could be targeted in sequence we can prevent disease recurrence.

癌症细胞从治疗暴露中恢复的调节性miRNA及其作为预防疾病复发的新治疗策略的意义。
癌症治疗的预期结果是根除疾病。当治疗暴露导致治疗诱导的癌症细胞死亡作为主要结果时,可以实现这一点。理论上,永久性治疗诱导的生长停滞也有助于完全缓解,这有可能导致病情缓解。然而,临床前模型表明,治疗诱导的生长停滞并不总是持久的,因为正在恢复的癌症细胞群可能会导致癌症的复发。已经花费了大量的研究努力来制定以预防复发为重点的战略。细胞从治疗暴露中恢复可能是多种细胞应激适应的结果。这些包括细胞保护性自噬、细胞静止、一种可逆转的衰老形式以及对细胞凋亡和坏死的抑制。有充分证据表明,微小RNA调节癌症细胞对抗癌疗法的反应,使靶向微小RNA在治疗上成为致敏和预防康复的可行策略。我们提出,在延长的序列中,即初始治疗暴露后的一段重要时间内,使用微小RNA靶向治疗,可以降低标准组合策略的毒性,并可以利用癌症细胞从治疗暴露中恢复所必需的新表观遗传学状态。在支持这一策略的一步中,我们调查了现有的科学文献,以确定可以按顺序靶向的微小RNA,以消除因治疗暴露而停滞的残余癌症细胞群。我们希望,通过成功鉴定可以按序列靶向的微小RNA,我们可以防止疾病复发。
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
Enzymes
Enzymes Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
4.30
自引率
0.00%
发文量
10
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