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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Activation of the stem cell transcriptional circuitry is an important event in cancer development. Although cancer cells demonstrate a stem cell-like gene expression signature, the epigenetic regulation of pluripotency-associated genes in cancers remains poorly understood. In this study, we characterized the epigenetic regulation of the pluripotency-associated genes
NANOG
, OCT4, c-MYC, KLF4, and SOX2 in a variety of cancer cell lines and in
primary tumor
samples, and investigated the re-activation of pluripotency regulatory circuits in cancer progression. Differential patterns of DNA methylation, histone modifications, and gene expression of pluripotent genes were demonstrated in different types of cancers, which may reflect their tissue origins.
NANOG
promoter hypomethylation and gene upregulation were found in metastatic human liver cancer cells and human hepatocellular carcinoma (HCC)
primary tumor
tissues. The upregulation of
NANOG
, together with p53 depletion, was significantly associated with clinical late stage of HCC. A pro-metastatic role of
NANOG
in colon cancer cells was also demonstrated, using a
NANOG
-overexpressing orthotopic tumor implantation mouse model. Demethylation of
NANOG
promoter was observed in CD133+(high) cancer cells. In accordance, overexpression of
NANOG
resulted in an increase in the population of CD133+(high) cells. In addition, we demonstrated a cross-regulation between OCT4 and
NANOG
in cancer cells via reprogramming of promoter methylation. Taken together, epigenetic reprogramming of
NANOG
can lead to the acquisition of stem cell-like properties. These results underscore the restoration of pluripotency circuits in cancer cells as a potential mechanism for cancer progression.
...
PMID:Epigenetic regulation of pluripotent genes mediates stem cell features in human hepatocellular carcinoma and cancer cell lines. 2402 39
High aldehyde dehydrogenase (ALDH) activity characterizes a subpopulation of cells with cancer stem cell (CSC) properties in several malignancies. To clarify whether ALDH can be used as a marker of cervical cancer stem cells (CCSCs), ALDH high and ALDH low cells were sorted from 4 cervical cancer cell lines and 5
primary tumor
xenografts and examined for CSC characteristics. Here, we demonstrate that cervical cancer cells with high ALDH activity fulfill the functional criteria for CSCs: (1) ALDH high cells, unlike ALDH low cells, are highly tumorigenic in vivo; (2) ALDH high cells can give rise to both ALDH high and ALDH low cells in vitro and in vivo, thereby establishing a cellular hierarchy; and (3) ALDH high cells have enhanced self-renewal and differentiation potentials. Additionally, ALDH high cervical cancer cells are more resistant to cisplatin treatment than ALDH low cells. Finally, expression of the stem cell self-renewal-associated transcription factors OCT4,
NANOG
, KLF4 and BMI1 is elevated in ALDH high cervical cancer cells. Taken together, our data indicated that high ALDH activity may represent both a functional marker for CCSCs and a target for novel cervical cancer therapies.
...
PMID:High aldehyde dehydrogenase activity identifies cancer stem cells in human cervical cancer. 2431 70
Although testicular germ cell tumors are generally quite responsive to treatment with cisplatin, a small fraction of them acquire resistance during therapy. Even when cisplatin treatment is successful the patient is often left with a residual teratoma at the site of the
primary tumor
suggesting that cisplatin may trigger differentiation in some tumors. Using the human embryonal carcinoma cell line NTera2/D1, we confirmed that exposure to the differentiating agent retinoic acid produced a reduction in pluripotency markers
NANOG
and POU5F1 (Oct3/4) and an acute concentration-dependent increase in resistance to both cisplatin and paclitaxel that reached as high as 18-fold for cisplatin and 61-fold for paclitaxel within four days. A two day exposure to cisplatin also produced a concentration-dependent decrease in the expression of the
NANOG
and POU5F1 and increased expression of three markers whose levels increase with differentiation including Nestin, SCG10 and Fibronectin. In parallel, exposure to cisplatin induced up to 6.2-fold resistance to itself and 104-fold resistance to paclitaxel. Paclitaxel did not induce differentiation or resistance to either itself or cisplatin. Neither retinoic acid nor cisplatin induced resistance in cervical or prostate cancer cell lines or other germ cell tumor lines in which they failed to alter the expression of
NANOG
and POU5F1. Forced expression of
NANOG
prevented the induction of resistance to cisplatin by retinoic acid. We conclude that cisplatin can acutely induce resistance to itself and paclitaxel by triggering a differentiation response in pluripotent germ cell tumor cells.
...
PMID:Cisplatin induces resistance by triggering differentiation of testicular embryonal carcinoma cells. 2447 88
How metastases develop is not well understood and no genetic mutations have been reported as specific metastatic drivers. Here we have addressed the idea that epigenetic reprogramming by GLI-regulated pluripotent stemness factors promotes metastases. Using primary human colon cancer cells engrafted in mice, we find that transient expression of OCT4, SOX2, KLF4 +/- cMYC establishes an enhanced pro-metastatic state in the
primary tumor
that is stable through sequential engraftments and is transmitted through clonogenic cancer stem cells. Metastatic reprogramming alters
NANOG
methylation and stably boosts
NANOG
and NANOGP8 expression. Metastases and reprogrammed EMT-like phenotypes require endogenous
NANOG
, but enhanced
NANOG
is not sufficient to induce these phenotypes. Finally, reprogrammed tumors enhance GLI2, and we show that GLI2(high) and AXIN2(low), which are markers of the metastatic transition of colon cancers, are prognostic of poor disease outcome in patients. We propose that metastases arise through epigenetic reprogramming of cancer stem cells within primary tumors.
...
PMID:In vivo epigenetic reprogramming of primary human colon cancer cells enhances metastases. 2603 52
: Circulating tumor cells (CTC) are known to be present in the blood of patients with glioblastoma (GBM). Here we report that GBM-derived CTC possess a cancer stem cell (CSC)-like phenotype and contribute to local tumorigenesis and recurrence by the process of self-seeding. Genetic probes showed that mouse GBM-derived CTC exhibited Sox2/ETn transcriptional activation and expressed glioma CSC markers, consistent with robust expression of stemness-associated genes including SOX2, OCT4, and
NANOG
in human GBM patient-derived samples containing CTC. A transgenic mouse model demonstrated that CTC returned to the
primary tumor
and generated new tumors with enhanced tumorigenic capacity. These CTCs were resistant to radiotherapy and chemotherapy and to circulation stress-induced cell apoptosis. Single-cell RNA-seq analysis revealed that Wnt activation induced stemness and chemoresistance in CTC. Collectively, these findings identify GBM-derived CTC as CSC-like cells and suggest that targeting Wnt may offer therapeutic opportunities for eliminating these treatment-refractory cells in GBM. SIGNIFICANCE: These findings identify CTCs as an alternative source for
in situ
tumor invasion and recurrence through local micrometastasis, warranting eradication of systemic "out-of-tumor" CTCs as a promising new therapeutic opportunity for GBM.
...
PMID:Circulating Glioma Cells Exhibit Stem Cell-like Properties. 3032 63
