Dormant cancer cells: programmed quiescence, senescence, or both?

Truskowski, Kevin; Amend, Sarah R.; Pienta, Kenneth J.

doi:10.1007/s10555-022-10073-z

Cited by 13 publications

(17 citation statements)

References 130 publications

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“…Moreover, based on these facts, senescence has been proposed as a driver of cancer dormancy. The latter is characterised by cells that remain alive in an arrested state and can be reactivated to give rise to tumour relapse and metastatic disease [67,74,144,145]. Interestingly, a cellular state termed quiescence, which is distinct from cellular senescence but shares some common features, has been proposed to play a role in cancer dormancy [3,145].…”

Section: Therapeutic Implicationsmentioning

confidence: 99%

“…The latter is characterised by cells that remain alive in an arrested state and can be reactivated to give rise to tumour relapse and metastatic disease [67,74,144,145]. Interestingly, a cellular state termed quiescence, which is distinct from cellular senescence but shares some common features, has been proposed to play a role in cancer dormancy [3,145]. Quiescent cells are, like senescent cells, cell‐cycle arrested; however, this arrest is reversible and involves another set of molecular pathways (p27 Kip1 activation), while secretory properties and macromolecular damage are absent [3].…”

Section: Therapeutic Implicationsmentioning

confidence: 99%

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Escape from senescence: molecular basis and therapeutic ramifications

Evangelou

Belogiannis

Papaspyropoulos

et al. 2023

The Journal of Pathology

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Cellular senescence constitutes a stress response mechanism in reaction to a plethora of stimuli. Senescent cells exhibit cell‐cycle arrest and altered function. While cell‐cycle withdrawal has been perceived as permanent, recent evidence in cancer research introduced the so‐called escape‐from‐senescence concept. In particular, under certain conditions, senescent cells may resume proliferation, acquiring highly aggressive features. As such, they have been associated with tumour relapse, rendering senescence less effective in inhibiting cancer progression. Thus, conventional cancer treatments, incapable of eliminating senescence, may benefit if revisited to include senolytic agents. To this end, it is anticipated that the assessment of the senescence burden in everyday clinical material by pathologists will play a crucial role in the near future, laying the foundation for more personalised approaches. Here, we provide an overview of the investigations that introduced the escape‐from‐senescence phenomenon, the identified mechanisms, as well as the major implications for pathology and therapy. © 2023 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.

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Section: Therapeutic Implicationsmentioning

confidence: 99%

Section: Therapeutic Implicationsmentioning

confidence: 99%

Escape from senescence: molecular basis and therapeutic ramifications

Evangelou

Belogiannis

Papaspyropoulos

et al. 2023

The Journal of Pathology

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“…In addition, senescent cells display persistent DNA damage responses, altered chromatin structure (senescence-associated heterochromatin foci), elevated β-galactosidase (β-gal) activity, and a hypersecretory ability known as the "senescence-associated secretory phenotype" (SASP) [24,47,48]. Senescence is induced in response to various stressful stimuli such as oncogene expression and chemotherapy [47].…”

Section: Association Of Senescence With Cellular Dormancy In Cancer C...mentioning

confidence: 99%

“…Despite the presence of senescence-associated characteristics in dormant cancer cells [24,47] and the similarities between senescence and dormancy (such as induction by stressful stimuli, growth arrest accompanied by p21 upregulation, and p38 MAPK activation) [24,49], several…”

Section: Association Of Senescence With Cellular Dormancy In Cancer C...mentioning

confidence: 99%

Cellular Dormancy in Cancer: Mechanisms and Potential Targeting Strategies

Min¹,

Lee²

2023

Cancer Res Treat

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Cancer is a leading cause of disease-related mortality worldwide. Drug resistance is one of the primary reasons for the failure of anticancer therapy. There are a number of underlying mechanisms for anticancer drug resistance including genetic/epigenetic modifications, microenvironmental factors, and tumor heterogeneity. In the present scenario, researchers have focused on these novel mechanisms and strategies to tackle them. Recently, researchers have recognized the ability of cancer to become dormant because of anticancer drug resistance, tumor relapse, and progression. Currently, cancer dormancy is classified into "tumor mass dormancy" and "cellular dormancy." Tumor mass dormancy represents the equilibrium between cell proliferation and cell death under the control of blood supply and immune responses. Cellular dormancy denotes the state in which cells undergo quiescence and is characterized by autophagy, stress-tolerance signaling, microenvironmental cues, and epigenetic modifications. Cancer dormancy has been regarded as the stem of primary or distal recurrent tumor formation and poor clinical outcomes in cancer patients. Despite the insufficiency of reliable models of cellular dormancy, the mechanisms underlying the regulation of cellular dormancy have been clarified in numerous studies. A better understanding of the biology of cancer dormancy is critical for the development of effective anticancer therapeutic strategies. In this review, we summarize the characteristics and regulatory mechanisms of cellular dormancy, introduce several potential strategies for targeting cellular dormancy, and discuss future perspectives.

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“…Despite remarkable advances in the field of oncology, cancer continues to be a leading cause of mortality worldwide [1]. Growing evidence points to the emergence of dormant cells as a contributor to the disease's aptitude to evade therapeutic interventions [2,3 ]. Beyond proliferation, the phenotypic switch of cellular dormancy is characterized by a substantial decrease in biosynthetic activity, such as RNA transcription and protein translation [10,11].…”

Section: Introductionmentioning

confidence: 99%

Unveiling the role of cellular dormancy in cancer progression and recurrence

Collignon

2024

Current Opinion in Oncology

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Purpose of review Cellular dormancy is a major contributor to cancer progression and recurrence. This review explores recent findings on the molecular mechanisms implicated in cancer dormancy and investigates potential strategies to improve therapeutic interventions. Recent findings Research on cancer dormancy reveals a complex and multifaceted phenomenon. Providing a latent reservoir of tumor cells with reduced proliferation and enhanced drug-tolerance, dormant cancer cells emerge from a clonally diverse population after therapy or at metastatic sites. These cells exhibit distinct transcriptional and epigenetic profiles, involving the downregulation of Myc and mechanistic target of rapamycin (mTOR) pathways, and the induction of autophagy. Senescence traits, under the control of factors such as p53, also contribute significantly. The tumor microenvironment can either promote or prevent dormancy establishment, notably through the involvement of T and NK cells within the dormant tumor niche. Strategies to combat dormancy-related relapse include direct elimination of dormant tumor cells, sustaining dormancy to prolong survival, or awakening dormant cells to re-sensitize them to antiproliferative drugs. Summary Improving our understanding of cancer dormancy at primary and secondary sites provides valuable insights into patient care and relapse prevention.

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Dormant cancer cells: programmed quiescence, senescence, or both?

Cited by 13 publications

References 130 publications

Escape from senescence: molecular basis and therapeutic ramifications

Escape from senescence: molecular basis and therapeutic ramifications

Cellular Dormancy in Cancer: Mechanisms and Potential Targeting Strategies

Unveiling the role of cellular dormancy in cancer progression and recurrence

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