Masashi Okada scite author profile

Cancer stem cells (CSCs) are capable of continuous proliferation and self-renewal and are proposed to play significant roles in oncogenesis, tumor growth, metastasis and cancer recurrence. CSCs are considered derived from normal stem cells affected by the tumor microenvironment although the mechanism of development is not clear yet. In 2007, Yamanaka's group succeeded in generating Nanog mouse induced pluripotent stem (miPS) cells, in which green fluorescent protein (GFP) has been inserted into the 5′-untranslated region of the Nanog gene. Usually, iPS cells, just like embryonic stem cells, are considered to be induced into progenitor cells, which differentiate into various normal phenotypes depending on the normal niche. We hypothesized that CSCs could be derived from Nanog miPS cells in the conditioned culture medium of cancer cell lines, which is a mimic of carcinoma microenvironment. As a result, the Nanog miPS cells treated with the conditioned medium of mouse Lewis lung carcinoma acquired characteristics of CSCs, in that they formed spheroids expressing GFP in suspension culture, and had a high tumorigenicity in Balb/c nude mice exhibiting angiogenesis in vivo. In addition, these iPS-derived CSCs had a capacity of self-renewal and expressed the marker genes, Nanog, Rex1, Eras, Esg1 and Cripto, associated with stem cell properties and an undifferentiated state. Thus we concluded that a model of CSCs was originally developed from miPS cells and proposed the conditioned culture medium of cancer cell lines might perform as niche for producing CSCs. The model of CSCs and the procedure of their establishment will help study the genetic alterations and the secreted factors in the tumor microenvironment which convert miPS cells to CSCs. Furthermore, the identification of potentially bona fide markers of CSCs, which will help the development of novel anti-cancer therapies, might be possible though the CSC model.

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Targeting the facilitative glucose transporter GLUT1 inhibits the self-renewal and tumor-initiating capacity of cancer stem cells

Shibuya

et al. 2014

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Increased glucose metabolism is now recognized as an emerging hallmark of cancer. Recent studies have shown that glucose metabolism is even more active in cancer stem cells (CSCs), a rare population of cancer cells with the capacity to self-renew and initiate tumors, and that CSCs are dependent on glycolysis for their survival/growth. However, the role of glucose metabolism in the control of their self-renewal and tumor-initiating capacity per se still remains obscure. Moreover, much remains unknown as to which of the numerous molecules involved in the glucose metabolism is suitable as a target to control CSCs. Here we demonstrate that the facilitative glucose transporter GLUT1 is essential for the maintenance of pancreatic, ovarian, and glioblastoma CSCs. Notably, we found that WZB117, a specific GLUT1 inhibitor, could inhibit the self-renewal and tumor-initiating capacity of the CSCs without compromising their proliferative potential in vitro. In vivo, systemic WZB117 administration inhibited tumor initiation after implantation of CSCs without causing significant adverse events in host animals. Our findings indicate GLUT1-dependent glucose metabolism has a pivotal role not only in the growth and survival of CSCs but also in the maintenance of their stemness and suggest GLUT1 as a promising target for CSC-directed cancer therapy.

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Targeting JNK for therapeutic depletion of stem-like glioblastoma cells

Matsuda

Satō

Okada

et al. 2012

Sci Rep

112

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Control of the stem-like tumour cell population is considered key to realizing the long-term survival of patients with glioblastoma, one of the most devastating human malignancies. To date, possible therapeutic targets and targeting methods have been described, but none has yet proven to target stem-like glioblastoma cells in the brain to the extent necessary to provide a survival benefit. Here we show that targeting JNK in vivo, the activity of which is required for the maintenance of stem-like glioblastoma cells, via transient, systemic administration of a small-molecule JNK inhibitor depletes the self-renewing and tumour-initiating populations within established tumours, inhibits tumour formation by stem-like glioblastoma cells in the brain, and provide substantial survival benefit without evidence of adverse events. Our findings not only implicate JNK in the maintenance of stem-like glioblastoma cells but also demonstrate that JNK is a viable, clinically relevant therapeutic target in the control of stem-like glioblastoma cells.

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Netrin-1 mediates neuronal survival through PIKE-L interaction with the dependence receptor UNC5B

et al. 2008

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Netrins, a family of secreted molecules, play critical roles in axon guidance and cell migration during neuronal development 1,2. In addition to its role as a chemotropic molecule, netrin-1 also acts as a survival factor 3-7 . Both UNC5 (i.e. UNC5A, B, C or D) and DCC are transmembrane receptors for netrin-1 8 ,9. In the absence of netrin-1, DCC and UNC5 act as dependence receptors and trigger apoptosis 3,6, 10 . However, how netrin-1 suppresses the apoptotic activity of the receptors remains elusive. Here, we show that netrin-1 induces interaction of UNC5B with the brain specific GTPase PIKE-L. This interaction triggers activation of PI 3-kinase signaling, prevents UNC5B's proapoptotic activity and enhances neuronal survival. Moreover, this process tightly relies on Fyn as PIKE-L is tyrosine phosphorylated in response to netrin-1 and the netrin-1-mediated interaction of UNC5B with PIKE-L is inhibited in Fyn null mice. Thus, PIKE-L acts as a downstream survival effector for netrin-1 through UNC5B in the nervous system. PIKE-L is a brain specific GTPase, which binds and stimulates PI 3-kinase in a GTP-dependent manner 11, 12 . PIKE-L binds Homer, an adaptor protein for metabotropic glutamate receptor (mGluR). Activation of mGluRIs enhances formation of an mGluRI-Homer-PIKE-L complex, leading to activation of PI 3-kinase and prevention of neuronal apoptosis 13 . PIKE is also a substrate for caspases. PIKE can be phosphorylated on tyrosine residues by Fyn, leading to its resistance to caspase cleavage 14. To search for PIKE-L-binding proteins, we conducted yeast two-hybrid screening using GTPase domain as bait. Four out of twelve clones are both His and β-gal positive, one of which encodes the C-terminus of UNC5B ( Figure 1A). In HEK293 cells, transfected GFP-PIKE-L selectively binds to 569-946 fragment of UNC5B but not other fragments. Compared to the binding by the C-terminal motif (a.a. 569-946), truncation of death domain (a.a. 854-946) decreases UNC5B affinity to PIKE-L. Reciprocal immunoprecipitation reveals that the interaction occurs no matter PIKE-L or UNC5B is precipitated by its antibody ( Figure 1B, middle panels). Full-length UNC5B and its C-terminal fragment released after caspase cleavage 5 , 7 specifically interact with GTPase domain but not with other regions of PIKE-L, consistent with our yeast two-hybrid findings ( Figure 1B, right panels). We also 5To whom all correspondence should be addressed, Phone: 404-712-2814; Fax: 404-712-2979, kye@emory observed the robust interaction between endogenous PIKE-L and UNC5B in both the cortex and hippocampus of rat brain ( Figure 1C). Immunostaining of hippocampal and cortical primary neurons reveals that PIKE-L and UNC5B colocalize in the cell body and throughout all neuronal processes ( Figure 1D, left panel). The staining is specific as GST-PIKE-L (a.a. 268-384) antigen but not control GST abolishes PIKE-L staining in neurons ( Figure 1D, right panels).To examine whether netrin-1 modulates PIKE-L interaction with UNC5B, we cotransfected UNC5B into...

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Masashi Okada

Glioma-Initiating Cell Elimination by Metformin Activation of FOXO3 via AMPK

A Model of Cancer Stem Cells Derived from Mouse Induced Pluripotent Stem Cells

Targeting the facilitative glucose transporter GLUT1 inhibits the self-renewal and tumor-initiating capacity of cancer stem cells

Targeting JNK for therapeutic depletion of stem-like glioblastoma cells

Netrin-1 mediates neuronal survival through PIKE-L interaction with the dependence receptor UNC5B

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