Peroxiredoxin II Regulates Cancer Stem Cells and Stemness-Associated Properties of Cancers

Chandimali, Nisansala; Jeong, Dong Kee; Kwon, Taeho

doi:10.3390/cancers10090305

Cited by 32 publications

(16 citation statements)

References 116 publications

(207 reference statements)

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“…Recently, a growing number of studies have found that Prxs regulate their expression and activity, acting as oncogenes that promote carcinogenesis in various cancer types. In addition, Prxs are known to promote the cancer cell stemness [69–71]. Nevertheless, as Prxs have also been shown to suppress tumorigenesis, more studies are required to verify the potential of Prxs as therapeutic targets in each cancer type.…”

Section: Resultsmentioning

confidence: 99%

The Role of Peroxiredoxin Family in Cancer Signaling

Kim

Jang

2019

J Cancer Prev

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Peroxiredoxins (Prxs) are antioxidant enzymes that protect cells from oxidative stress by reducing intracellular accumulation of reactive oxygen species (ROS). In mammalian cells, the six Prx isoforms are ubiquitously expressed in diverse intracellular locations. They are involved in the regulation of various physiological processes including cell growth, differentiation, apoptosis, immune response and metabolism as well as intracellular ROS homeostasis. Although there are increasing evidences that Prxs are involved in carcinogenesis of many cancers, their role in cancer is controversial. The ROS levels in cancer cells are increased compared to normal cells, thus promoting cancer development. Nevertheless, for various cancer types, an overexpression of Prxs has been found to be associated with poor patient prognosis, and an increasing number of studies have reported that tumorigenesis is either facilitated or inhibited by regulation of cancer-associated signaling pathways. This review summarizes Prx isoforms and their basic functions, the relationship between the expression level and the physiological role of Prxs in cancer cells, and their roles in regulating cancer-associated signaling pathways.

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Section: Resultsmentioning

confidence: 99%

The Role of Peroxiredoxin Family in Cancer Signaling

Kim

Jang

2019

J Cancer Prev

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“…The expression of SRY-related high-mobility-group-box protein-2 and octamer-binding transcription factor-4 was down-regulated in PRDX2-silenced Huh7-H-Ras G12V hepatoma cells, and sphere formation efficiency and epithelial-mesenchymal transition were significantly inhibited (6). Mechanistic studies showed that PRDX2 can regulate stemness of cancer stem cells through a variety of signaling pathways, which contribute to the maintenance of the cancer stem cell properties of hepatocellular carcinoma via VEGF/EGFR/STAT3 signaling and RAS/FOXM1 signaling (33)(34)(35). In the process of isolation and expansion of DMSCs, in vivo 34: 133-141 (2020) we found that knockout of PRDX2 can significantly inhibit the proliferation of stem cells with the increasing cell passage.…”

Section: Discussionmentioning

confidence: 99%

Deletion of Peroxiredoxin II Inhibits the Growth of Mouse Primary Mesenchymal Stem Cells Through Induction of the G₀/G₁ Cell-cycle Arrest and Activation of AKT/GSK3β/β-Catenin Signaling

Han

Jin

et al. 2019

In Vivo

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Background/Aim: Dermal mesenchymal stem cells (DMSCs) are pluripotent stem cells found in the skin which maintain the thickness of the dermal layer and participate in skin wound healing. Materials and Methods: The MTT assay was performed to detect cell proliferation and cell-cycle progression and cell-surface markers were assessed by flow cytometry. The levels of proteins in related signaling pathways were detected by western blotting assay and the translocation of β-catenin into the nucleus were detected by immunofluorescence. Red oil O staining was performed to examine the differentiational ability of DMSCs. Results: Knockout of PRDX2 inhibited DMSC cell growth, and cell-cycle arrest at G 0 /G 1 phase; p16, p21 and cyclin D1 expression levels in Prdx2 knockout DMSCs were significantly increased. Furthermore, AKT phosphorylation were significantly increased in Prdx2 knockout DMSCs, GSK3β activity were inhibited, result in β-Catenin accumulated in the nucleus. Conclusion: In conclusion, these results demonstrated that PRDX2 plays a pivotal role in regulating the proliferation of DMSCs, and this is closely related to the AKT/glycogen synthase kinase 3 beta/β-catenin signaling pathway. Skin has a strong capacity for repair and regeneration due to the fact that it contains various stem cells, such as epidermal stem cells, skin-derived precursors and dermal mesenchymal stem cells (DMSCs) (1, 2). DMSCs play two major roles, one is as a direct source of fibroblasts, and the other is to secrete a variety of cytokines which promote fibroblasts to produce collagen and elastin (3). Therefore, the function of DMSCs plays decisive role in skin development and wound repair (4). Peroxiredoxin 2 (PRDX2) is wildly distributed in various tissues and cells, and functions as a scavenger of reactive oxygen species (ROS) (5, 6). Our previous study showed that 133 This article is freely accessible online.

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“…The accumulation of ROS causes damage to proteins, lipids and DNA and therefore irrecoverable damage to the cell [27]. Notably, cells have protection mechanisms from oxidative stress, including enzymatic antioxidants such as superoxide dismutase (SOD), catalases, TXN, peroxiredoxins, glutathione (GSH) peroxidases, p38-MAPK and sirtuins [57][58][59] and non-enzymatic molecules such as GSH, vitamin C (ascorbate), vitamin E (tocopherols) and polyphenols [60]. Interestingly, the administration of SOD-1 inhibitor, disulfiram, strongly counteracted breast CSCs expansion by modulating MAPK, NF-kB and STAT3 pathways [61,62].…”

Section: The Mitostemness: Fiction or Reality?mentioning

confidence: 99%

Metabolic Escape Routes of Cancer Stem Cells and Therapeutic Opportunities

Turdo

Porcelli

D'Accardo

et al. 2020

Cancers

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Although improvement in early diagnosis and treatment ameliorated life expectancy of cancer patients, metastatic disease still lacks effective therapeutic approaches. Resistance to anticancer therapies stems from the refractoriness of a subpopulation of cancer cells—termed cancer stem cells (CSCs)—which is endowed with tumor initiation and metastasis formation potential. CSCs are heterogeneous and diverge by phenotypic, functional and metabolic perspectives. Intrinsic as well as extrinsic stimuli dictated by the tumor microenvironment (TME)have critical roles in determining cell metabolic reprogramming from glycolytic toward an oxidative phenotype and vice versa, allowing cancer cells to thrive in adverse milieus. Crosstalk between cancer cells and the surrounding microenvironment occurs through the interchange of metabolites, miRNAs and exosomes that drive cancer cells metabolic adaptation. Herein, we identify the metabolic nodes of CSCs and discuss the latest advances in targeting metabolic demands of both CSCs and stromal cells with the scope of improving current therapies and preventing cancer progression.

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Peroxiredoxin II Regulates Cancer Stem Cells and Stemness-Associated Properties of Cancers

Cited by 32 publications

References 116 publications

The Role of Peroxiredoxin Family in Cancer Signaling

The Role of Peroxiredoxin Family in Cancer Signaling

Deletion of Peroxiredoxin II Inhibits the Growth of Mouse Primary Mesenchymal Stem Cells Through Induction of the G₀/G₁ Cell-cycle Arrest and Activation of AKT/GSK3β/β-Catenin Signaling

Metabolic Escape Routes of Cancer Stem Cells and Therapeutic Opportunities

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Peroxiredoxin II Regulates Cancer Stem Cells and Stemness-Associated Properties of Cancers

Cited by 32 publications

References 116 publications

The Role of Peroxiredoxin Family in Cancer Signaling

The Role of Peroxiredoxin Family in Cancer Signaling

Deletion of Peroxiredoxin II Inhibits the Growth of Mouse Primary Mesenchymal Stem Cells Through Induction of the G0/G1 Cell-cycle Arrest and Activation of AKT/GSK3β/β-Catenin Signaling

Metabolic Escape Routes of Cancer Stem Cells and Therapeutic Opportunities

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Deletion of Peroxiredoxin II Inhibits the Growth of Mouse Primary Mesenchymal Stem Cells Through Induction of the G₀/G₁ Cell-cycle Arrest and Activation of AKT/GSK3β/β-Catenin Signaling