Christopher R Wood, Wen-Tao Wu, Yao-Shun Yang, Jin-Shu Yang, Yongmei Xi, Wei-Jun Yang
{"title":"From ecology to oncology: To understand cancer stem cell dormancy, ask a Brine shrimp (Artemia).","authors":"Christopher R Wood, Wen-Tao Wu, Yao-Shun Yang, Jin-Shu Yang, Yongmei Xi, Wei-Jun Yang","doi":"10.1016/bs.acr.2022.12.004","DOIUrl":null,"url":null,"abstract":"<p><p>The brine shrimp (Artemia), releases embryos that can remain dormant for up to a decade. Molecular and cellular level controlling factors of dormancy in Artemia are now being recognized or applied as active controllers of dormancy (quiescence) in cancers. Most notably, the epigenetic regulation by SET domain-containing protein 4 (SETD4), is revealed as highly conserved and the primary control factor governing the maintenance of cellular dormancy from Artemia embryonic cells to cancer stem cells (CSCs). Conversely, DEK, has recently emerged as the primary factor in the control of dormancy exit/reactivation, in both cases. The latter has been now successfully applied to the reactivation of quiescent CSCs, negating their resistance to therapy and leading to their subsequent destruction in mouse models of breast cancer, without recurrence or metastasis potential. In this review, we introduce the many mechanisms of dormancy from Artemia ecology that have been translated into cancer biology, and herald Artemia's arrival on the model organism stage. We show how Artemia studies have unlocked the mechanisms of the maintenance and termination of cellular dormancy. We then discuss how the antagonistic balance of SETD4 and DEK fundamentally controls chromatin structure and consequently governs CSCs function, chemo/radiotherapy resistance, and dormancy in cancers. Many key stages from transcription factors to small RNAs, tRNA trafficking, molecular chaperones, ion channels, and links with various pathways and aspects of signaling are also noted, all of which link studies in Artemia to those of cancer on a molecular and/or cellular level. We particularly emphasize that the application of such emerging factors as SETD4 and DEK may open new and clear avenues for the treatment for various human cancers.</p>","PeriodicalId":50875,"journal":{"name":"Advances in Cancer Research","volume":"158 ","pages":"199-231"},"PeriodicalIF":0.0000,"publicationDate":"2023-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Advances in Cancer Research","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1016/bs.acr.2022.12.004","RegionNum":2,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2023/1/10 0:00:00","PubModel":"Epub","JCR":"Q1","JCRName":"Medicine","Score":null,"Total":0}
引用次数: 0
Abstract
The brine shrimp (Artemia), releases embryos that can remain dormant for up to a decade. Molecular and cellular level controlling factors of dormancy in Artemia are now being recognized or applied as active controllers of dormancy (quiescence) in cancers. Most notably, the epigenetic regulation by SET domain-containing protein 4 (SETD4), is revealed as highly conserved and the primary control factor governing the maintenance of cellular dormancy from Artemia embryonic cells to cancer stem cells (CSCs). Conversely, DEK, has recently emerged as the primary factor in the control of dormancy exit/reactivation, in both cases. The latter has been now successfully applied to the reactivation of quiescent CSCs, negating their resistance to therapy and leading to their subsequent destruction in mouse models of breast cancer, without recurrence or metastasis potential. In this review, we introduce the many mechanisms of dormancy from Artemia ecology that have been translated into cancer biology, and herald Artemia's arrival on the model organism stage. We show how Artemia studies have unlocked the mechanisms of the maintenance and termination of cellular dormancy. We then discuss how the antagonistic balance of SETD4 and DEK fundamentally controls chromatin structure and consequently governs CSCs function, chemo/radiotherapy resistance, and dormancy in cancers. Many key stages from transcription factors to small RNAs, tRNA trafficking, molecular chaperones, ion channels, and links with various pathways and aspects of signaling are also noted, all of which link studies in Artemia to those of cancer on a molecular and/or cellular level. We particularly emphasize that the application of such emerging factors as SETD4 and DEK may open new and clear avenues for the treatment for various human cancers.
盐水虾(Artemia)释放的胚胎可保持休眠状态长达十年之久。卤虫休眠的分子和细胞水平控制因子现已被确认或应用为癌症休眠(静止)的活性控制因子。最值得注意的是,含 SET 域蛋白 4(SETD4)的表观遗传调控被认为是高度保守的,也是维持从阿氏鲟胚胎细胞到癌症干细胞(CSCs)的细胞休眠的主要控制因子。相反,最近发现 DEK 在这两种情况下都是控制休眠退出/重激活的主要因子。后者目前已被成功应用于重新激活静止的癌干细胞,在乳腺癌小鼠模型中消除其对治疗的抵抗力,并导致其随后被摧毁,且不会复发或转移。在这篇综述中,我们介绍了蒿属生态学中许多已被转化为癌症生物学的休眠机制,并预示着蒿属生物登上了模式生物的舞台。我们将展示蒿属研究如何揭示细胞休眠的维持和终止机制。然后,我们将讨论 SETD4 和 DEK 的拮抗平衡如何从根本上控制染色质结构,进而影响 CSCs 功能、化疗/放疗抗性以及癌症休眠。我们还指出了从转录因子到小 RNA、tRNA 转运、分子伴侣、离子通道的许多关键阶段,以及与信号传导的各种途径和方面的联系,所有这些都在分子和/或细胞水平上将对阿特米亚的研究与对癌症的研究联系起来。我们特别强调,SETD4 和 DEK 等新兴因子的应用可能会为各种人类癌症的治疗开辟新的明确途径。
期刊介绍:
Advances in Cancer Research (ACR) has covered a remarkable period of discovery that encompasses the beginning of the revolution in biology.
Advances in Cancer Research (ACR) has covered a remarkable period of discovery that encompasses the beginning of the revolution in biology. The first ACR volume came out in the year that Watson and Crick reported on the central dogma of biology, the DNA double helix. In the first 100 volumes are found many contributions by some of those who helped shape the revolution and who made many of the remarkable discoveries in cancer research that have developed from it.