Molecular properties of CD133+ glioblastoma stem cells derived from treatment-refractory recurrent brain tumors

Liu, Qinghai; Nguyen, David H.; Dong, Qi; Shitaku, Peter; Chung, Kenneth; Liu, On Ying; Tso, Jonathan L.; Liu, Jason Y.; Konkankit, Veerauo; Cloughesy, Timothy F.; Mischel, Paul S.; Lane, Timothy F.; Liau, Linda M.; Nelson, Stanley F.; Tso, Cho-Lea

doi:10.1007/s11060-009-9919-z

Cited by 111 publications

(134 citation statements)

References 72 publications

(74 reference statements)

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“…41 Recent study showed that FABP7 preferentially expresses in CD133-positive glioblastoma cells. 42,43 Here, we also found that FABP7 is highly expressed in U251 sphere cells and respond to hypoxia-induced activation of Notch signaling. What remains to be explored is whether FABP7 serves as a marker for GSC and its role in the hypoxiamediated maintenance.…”

Section: Discussionsupporting

confidence: 58%

HIF-1α is critical for hypoxia-mediated maintenance of glioblastoma stem cells by activating Notch signaling pathway

et al. 2011

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Section: Discussionsupporting

confidence: 58%

HIF-1α is critical for hypoxia-mediated maintenance of glioblastoma stem cells by activating Notch signaling pathway

et al. 2011

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“…This led to the identification of 12 phosphatases potentially involved in the stem-like phenotype of GSCs (Figures 1c and d). Six of the twelve candidate genes (PPEF1, ENPP1, PTPN9, PPP4C, PPP2R2A and DUSP5) were found to be highly expressed in astrocytic gliomas compared with adult normal brain and/or to be essential for stem cell maintenance (Supplementary Figure S2A) [17][18][19][20][21][22] and hence selected for validation studies. Decreased CD133 level 6 days posttransduction was confirmed in NCH421k (GSCs used in the primary screen) and in additional GSCs (NCH441, NCH644) in two independent experiments using the two shRNAs that showed the strongest CD133 reduction in the primary screen (Figure 1e; Supplementary Figure S2B).…”

Section: Resultsmentioning

confidence: 99%

Stem cell characteristics in glioblastoma are maintained by the ecto-nucleotidase E-NPP1

et al. 2014

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Glioblastomas are highly aggressive brain tumours and are characterised by substantial cellular heterogeneity within a single tumour. A sub-population of glioblastoma stem-like cells (GSCs) that shares properties with neural precursor cells has been described, exhibiting resistance to therapy and therefore being considered responsible for the high recurrence rate in glioblastoma. To elucidate the underlying cellular processes we investigated the role of phosphatases in the GSC phenotype, using an in vitro phosphatome-wide RNA interference screen. We identified a set of genes, the knockdown of which induces a significant decrease in the glioma stem cell marker CD133, indicating a role in the glioblastoma stem-like phenotype. Among these genes, the ecto-nucleotidase ENPP1 (ectonucleotide pyrophosphatase/phosphodiesterase 1) was found to be highly expressed in GSCs compared with normal brain and neural stem cells. Knockdown of ENPP1 in cultured GSCs resulted in an overall downregulation of stem cell-associated genes, induction of differentiation into astrocytic cell lineage, impairment of sphere formation, in addition to increased cell death, accumulation of cells in G1/G0 cell cycle phase and sensitisation to chemotherapeutic treatment. Genome-wide gene expression analysis and nucleoside and nucleotide profiling revealed that knockdown of ENPP1 affects purine and pyrimidine metabolism, suggesting a link between ENPP1 expression and a balanced nucleoside-nucleotide pool in GSCs. The phenotypic changes in E-NPP1-deficient GSCs are assumed to be a consequence of decreased transcriptional function of E2F1. Together, these results reveal that E-NPP1, by acting upstream of E2F1, is indispensable for the maintenance of GSCs in vitro and hence required to keep GSCs in an undifferentiated, proliferative state. Glioblastoma, classified by the WHO (World Health Organization) as grade IV astrocytoma, 1 is the most common primary malignant brain tumour in adults. Despite progress in surgical resection, radiation and chemotherapy, glioblastoma remains a deadly disease with a median survival time of about 1 year. 2 One particular therapeutic challenge for glioblastoma treatment is posed by their remarkable intratumoural cellular heterogeneity. Several studies indicate the existence of a highly tumourigenic, sub-population of cancer cells with stemlike characteristics. [3][4][5] There is substantial evidence that these so-called cancer stem cells have inherent chemotherapy and radiation resistance. 6,7 These findings suggest that cancer cells harbouring stem cell-like characteristics are responsible for ineffective therapy, explaining high recurrence rates despite significant reduction in tumour volume. Glioblastoma stem-like cells (GSCs) share properties with neural precursor cells, such as a capacity for self-renewal, differentiation and maintained proliferation, as well as stem cell marker expression. 4,5,8,9 GSCs were originally defined by expression of CD133 (Prominin-1) and its extracellular AC133 epitope. 4 Although recent...

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“…In our study, the TK gene was delivered into cells with a lentiviral vector that has the ability to infect non-dividing cells, rendering it more suitable than the oncoretroviral vector to target slow-growing CD133 þ glioblastoma stem cells. 33 Except for the Cx43-negative GBM9 cells, all the other cell lines displayed a BE with values within the 10-30% range ( Figure 5). The BE intensities did not correlate with the localization of Cx43, and did not reflect the gap-junctional intercellular communication measured by calcein transfer.…”

Section: Discussionmentioning

confidence: 95%

Gap junctions in human glioblastomas: implications for suicide gene therapy

et al. 2011

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Glioblastoma is a very aggressive astrocytic tumor and most patients have 1-year survival time after diagnosis. A promising therapeutic strategy is the local delivery of the herpes simplex virus thymidine kinase gene in the tumor bed followed by ganciclovir treatment. The presence of functional gap junctions is highly relevant for the success of suicide gene therapy. Connexins are expressed in practically all tissues and form gap junctions that allow intercellular communication. Connexin 43 (Cx43) is the major connexin member being expressed in astrocytes but its status in glioblastoma is not well defined. We have investigated by immunofluorescence the presence of Cx43 in 74 human glioblastoma samples; its expression was detected in 77% of the samples analyzed. We report here that glioblastoma is a heterogenous disease as regards Cx43 expression with presentations, in which Cx43 expression is unaltered, reduced or totally lost. A predominant Cx43 cytoplasmic localization was observed in four out of eight primary glioblastoma cultures that we have established. This aberrant localization reduced gap junctionnal intercellular communication by 50 to 75% as compared with primary cell cultures displaying gap junctional plaques. However, the bystander effect evaluated after lentiviral delivery of the herpes simplex virus thymidine kinase gene and ganciclovir treatment was detected in all Cx43-positive primary cell cultures, and it was independant of the Cx43 localization. These findings may have important clinical implications for the design of anticancer cytotoxic therapies that rely on the gap junction-mediated bystander effect for their success.

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Molecular properties of CD133+ glioblastoma stem cells derived from treatment-refractory recurrent brain tumors

Cited by 111 publications

References 72 publications

HIF-1α is critical for hypoxia-mediated maintenance of glioblastoma stem cells by activating Notch signaling pathway

HIF-1α is critical for hypoxia-mediated maintenance of glioblastoma stem cells by activating Notch signaling pathway

Stem cell characteristics in glioblastoma are maintained by the ecto-nucleotidase E-NPP1

Gap junctions in human glioblastomas: implications for suicide gene therapy

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