Cancer Stem Cells in Squamous Cell Carcinoma Switch between Two Distinct Phenotypes That Are Preferentially Migratory or Proliferative
Adrian Biddle,Xiao Liang,Luke Gammon,Bilal Fazil,Lisa J. Harper,Helena Emich,Daniela Elena Costea,Ian C. Mackenzie +7 more
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TLDR
A need to define therapeutic targets that can eradicate both EMT and self-renewing CSC variants to achieve effective SCC treatment is suggested.Abstract:
Epithelial-to-mesenchymal transition (EMT) is an important driver of tumor invasion and metastasis, which causes many cancer deaths. Cancer stem cells (CSC) that maintain and initiate tumors have also been implicated in invasion and metastasis, but whether EMT is an important contributor to CSC function is unclear. In this study, we investigated whether a population of CSCs that have undergone EMT (EMT CSCs) exists in squamous cell carcinoma (SCC). We also determined whether a separate population of CSCs that retain epithelial characteristics (non-EMT CSCs) is also present. Our studies revealed that self-renewing CSCs in SCC include two biologically-distinct phenotypes. One phenotype, termed CD44(high)ESA(high), was proliferative and retained epithelial characteristics (non-EMT CSCs), whereas the other phenotype, termed CD44(high)ESA(low), was migratory and had mesenchymal traits characteristic of EMT CSCs. We found that non-EMT and EMT CSCs could switch their epithelial or mesenchymal traits to reconstitute the cellular heterogeneity which was characteristic of CSCs. However, the ability of EMT CSCs to switch to non-EMT character was restricted to cells that were also ALDH1(+), implying that only ALDH1(+) EMT cells had the ability to seed a new epithelial tumor. Taken together, our findings highlight the identification of two distinct CSC phenotypes and suggest a need to define therapeutic targets that can eradicate both of these variants to achieve effective SCC treatment.read more
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Portrait of a CAF: The story of cancer-associated fibroblasts in head and neck cancer.
TL;DR: The current understanding of CAFs in head and neck cancer is summarized and discussed, exploring CAF activation and heterogeneity, and interaction with cancer cells and other cells within the TME.
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Roles of hypoxia, stem cells and epithelial-mesenchymal transition in the spread and treatment resistance of head and neck cancer.
Luke Gammon,Ian C. Mackenzie +1 more
TL;DR: A wide range of studies indicate that hypoxia and the resulting cellular changes that are induced by HIF-1α lead to transcriptional up-regulation of a diversity of genes that play major roles in modifying the cellular behavior of head and neck squamous cell carcinoma (HNSCC).
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Sox2: A Regulatory Factor in Tumorigenesis and Metastasis.
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TL;DR: This review will focus on the different roles for Sox2 in metastasis and tumorigenesis and the mechanism of action underlying the cooperative Sox2- DNA/partner factors binding where Sox2 can be potentially explored for a therapeutic opportunity to treat cancers.
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Cancer Stem Cells in Squamous Cell Carcinoma
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Twist, a Master Regulator of Morphogenesis, Plays an Essential Role in Tumor Metastasis
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