Galavotti S et al. (FEB 2013)
Oncogene 32 6 699--712
The autophagy-associated factors DRAM1 and p62 regulate cell migration and invasion in glioblastoma stem cells.
The aggressiveness of glioblastoma multiforme (GBM) is defined by local invasion and resistance to therapy. Within established GBM,a subpopulation of tumor-initiating cells with stem-like properties (GBM stem cells,GSCs) is believed to underlie resistance to therapy. The metabolic pathway autophagy has been implicated in the regulation of survival in GBM. However,the status of autophagy in GBM and its role in the cancer stem cell fraction is currently unclear. We found that a number of autophagy regulators are highly expressed in GBM tumors carrying a mesenchymal signature,which defines aggressiveness and invasion,and are associated with components of the MAPK pathway. This autophagy signature included the autophagy-associated genes DRAM1 and SQSTM1,which encode a key regulator of selective autophagy,p62. High levels of DRAM1 were associated with shorter overall survival in GBM patients. In GSCs,DRAM1 and SQSTM1 expression correlated with activation of MAPK and expression of the mesenchymal marker c-MET. DRAM1 knockdown decreased p62 localization to autophagosomes and its autophagy-mediated degradation,thus suggesting a role for DRAM1 in p62-mediated autophagy. In contrast,autophagy induced by starvation or inhibition of mTOR/PI-3K was not affected by either DRAM1 or p62 downregulation. Functionally,DRAM1 and p62 regulate cell motility and invasion in GSCs. This was associated with alterations of energy metabolism,in particular reduced ATP and lactate levels. Taken together,these findings shed new light on the role of autophagy in GBM and reveal a novel function of the autophagy regulators DRAM1 and p62 in control of migration/invasion in cancer stem cells.
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Clanchy FIL and Hamilton JA (JUL 2012)
Cytokine 59 1 31--4
HUVEC co-culture and haematopoietic growth factors modulate human proliferative monocyte activity.
Monocytes and macrophages are often claimed to have limited potential for proliferation in vivo and in vitro although a human monocyte subset with increased potential to proliferate in culture,termed the proliferative monocyte (PM),has previously been identified. The response of the putatively less mature PM to conditions conducive to haematopoietic stem cell culture was determined. Co-culture of monocytes on a HUVEC monolayer induced up to four cell divisions in a 9 day period. The PM response to haematopoietic growth factors (Flt3L,SCF,IL-6,IL-3 and M-CSF) was determined. M-CSF induced the greatest proliferative response in PM; IL-3 and Flt3L reduced basal and M-CSF-induced proliferation. The inhibition of M-CSFR kinase activity by GW2580 indicated that the ligand(s) for this receptor was a potent inducer of proliferation of this subset; inhibitors of intracellular signalling pathways also reduced PM proliferation.
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Olmer R et al. (OCT 2012)
Tissue engineering. Part C,Methods 18 10 772--784
Suspension culture of human pluripotent stem cells in controlled, stirred bioreactors
Therapeutic and industrial applications of pluripotent stem cells and their derivatives require large cell quantities generated in defined conditions. To this end,we have translated single cell-inoculated suspension cultures of human pluripotent stem cells (hPSCs; including human induced pluripotent stem cells [hiPS] and human embryonic stem cells [hESC]) to stirred tank bioreactors. These systems that are widely used in biopharmaceutical industry allow straightforward scale up and detailed online monitoring of key process parameters. To ensure minimum medium consumption,but in parallel functional integration of all probes mandatory for process monitoring,that is,for pO₂ and pH,experiments were performed in 100 mL culture volume in a mini reactor platform" consisting of four independently controlled vessels. By establishing defined parameters for tightly controlled cell inoculation and aggregate formation up to 2×10�?� hiPSCs/100 mL were generated in a single process run in 7 days. Expression of pluripotency markers and ability of cells to differentiate into derivates of all three germ layers in vitro was maintained�
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Sandt C et al. (JAN 2012)
PLoS ONE 7 4 e30743
Identification of spectral modifications occurring during reprogramming of somatic cells.
Recent technological advances in cell reprogramming by generation of induced pluripotent stem cells (iPSC) offer major perspectives in disease modelling and future hopes for providing novel stem cells sources in regenerative medicine. However,research on iPSC still requires refining the criteria of the pluripotency stage of these cells and exploration of their equivalent functionality to human embryonic stem cells (ESC). We report here on the use of infrared microspectroscopy to follow the spectral modification of somatic cells during the reprogramming process. We show that induced pluripotent stem cells (iPSC) adopt a chemical composition leading to a spectral signature indistinguishable from that of embryonic stem cells (ESC) and entirely different from that of the original somatic cells. Similarly,this technique allows a distinction to be made between partially and fully reprogrammed cells. We conclude that infrared microspectroscopy signature is a novel methodology to evaluate induced pluripotency and can be added to the tests currently used for this purpose.
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Schitine C et al. (JUN 2012)
The European journal of neuroscience 35 11 1672--83
Ampakine CX546 increases proliferation and neuronal differentiation in subventricular zone stem/progenitor cell cultures.
Ampakines are chemical compounds known to modulate the properties of ionotropic α-amino-3-hydroxyl-5-methyl-4-isoxazole-propionate (AMPA)-subtype glutamate receptors. The functional effects attributed to ampakines involve plasticity and the increase in synaptic efficiency of neuronal circuits,a process that may be intimately associated with differentiation of newborn neurons. The subventricular zone (SVZ) is the main neurogenic niche of the brain,containing neural stem cells with brain repair potential. Accordingly,the identification of new pharmaceutical compounds with neurogenesis-enhancing properties is important as a tool to promote neuronal replacement based on the use of SVZ cells. The purpose of the present paper is to examine the possible proneurogenic effects of ampakine CX546 in cell cultures derived from the SVZ of early postnatal mice. We observed that CX546 (50 μm) treatment triggered an increase in proliferation,evaluated by BrdU incorporation assay,in the neuroblast lineage. Moreover,by using a cell viability assay (TUNEL) we found that,in contrast to AMPA,CX546 did not cause cell death. Also,both AMPA and CX546 stimulated neuronal differentiation as evaluated morphologically through neuronal nuclear protein (NeuN) immunocytochemistry and functionally by single-cell calcium imaging. Accordingly,short exposure to CX546 increased axonogenesis,as determined by the number and length of tau-positive axons co-labelled for the phosphorylated form of SAPK/JNK (P-JNK),and dendritogenesis (MAP2-positive neurites). Altogether,this study shows that ampakine CX546 promotes neurogenesis in SVZ cell cultures and thereby may have potential for future stem cell-based therapies.
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Levinson NM and Boxer SG ( 2012)
PloS one 7 4 e29828
Structural and spectroscopic analysis of the kinase inhibitor bosutinib and an isomer of bosutinib binding to the Abl tyrosine kinase domain.
Chronic myeloid leukemia (CML) is caused by the kinase activity of the BCR-Abl fusion protein. The Abl inhibitors imatinib,nilotinib and dasatinib are currently used to treat CML,but resistance to these inhibitors is a significant clinical problem. The kinase inhibitor bosutinib has shown efficacy in clinical trials for imatinib-resistant CML,but its binding mode is unknown. We present the 2.4 Å structure of bosutinib bound to the kinase domain of Abl,which explains the inhibitor's activity against several imatinib-resistant mutants,and reveals that similar inhibitors that lack a nitrile moiety could be effective against the common T315I mutant. We also report that two distinct chemical compounds are currently being sold under the name bosutinib"�
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Wang Z et al. (APR 2012)
Cell stem cell 10 4 440--454
Distinct lineage specification roles for NANOG, OCT4, and SOX2 in human embryonic stem cells.
Nanog,Oct4,and Sox2 are the core regulators of mouse (m)ESC pluripotency. Although their basic importance in human (h)ESCs has been demonstrated,the mechanistic functions are not well defined. Here,we identify general and cell-line-specific requirements for NANOG,OCT4,and SOX2 in hESCs. We show that OCT4 regulates,and interacts with,the BMP4 pathway to specify four developmental fates. High levels of OCT4 enable self-renewal in the absence of BMP4 but specify mesendoderm in the presence of BMP4. Low levels of OCT4 induce embryonic ectoderm differentiation in the absence of BMP4 but specify extraembryonic lineages in the presence of BMP4. NANOG represses embryonic ectoderm differentiation but has little effect on other lineages,whereas SOX2 and SOX3 are redundant and repress mesendoderm differentiation. Thus,instead of being panrepressors of differentiation,each factor controls specific cell fates. Our study revises the view of how self-renewal is orchestrated in hESCs.
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Silber J et al. (JAN 2012)
PloS one 7 3 e33844
miR-34a repression in proneural malignant gliomas upregulates expression of its target PDGFRA and promotes tumorigenesis.
Glioblastoma (GBM) and other malignant gliomas are aggressive primary neoplasms of the brain that exhibit notable refractivity to standard treatment regimens. Recent large-scale molecular profiling has revealed distinct disease subclasses within malignant gliomas whose defining genomic features highlight dysregulated molecular networks as potential targets for therapeutic development. The proneural" designation represents the largest and most heterogeneous of these subclasses�
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Ning N et al. (APR 2012)
Cancer research 72 7 1853--64
Cancer stem cell vaccination confers significant antitumor immunity.
Most studies of cancer stem cells (CSC) involve the inoculation of cells from human tumors into immunosuppressed mice,preventing an assessment on the immunologic interactions and effects of CSCs. In this study,we examined the vaccination effects produced by CSC-enriched populations from histologically distinct murine tumors after their inoculation into different syngeneic immunocompetent hosts. Enriched CSCs were immunogenic and more effective as an antigen source than unselected tumor cells in inducing protective antitumor immunity. Immune sera from CSC-vaccinated hosts contained high levels of IgG which bound to CSCs,resulting in CSC lysis in the presence of complement. CTLs generated from peripheral blood mononuclear cells or splenocytes harvested from CSC-vaccinated hosts were capable of killing CSCs in vitro. Mechanistic investigations established that CSC-primed antibodies and T cells were capable of selective targeting CSCs and conferring antitumor immunity. Together,these proof-of-concept results provide a rationale for a new type of cancer immunotherapy based on the development of CSC vaccines that can specifically target CSCs.
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Kovarova M and Koller B (APR 2012)
Current protocols in immunology / edited by John E. Coligan ... [et al.] Chapter 22 Unit 22F.10.1--16
Differentiation of mast cells from embryonic stem cells.
In this unit,we describe a simple coculture-free method for obtaining mast cells from mouse and human embryonic stem (ES) cells. Much of our knowledge regarding the mechanisms by which mast cells are activated comes from studies of mouse bone marrow-derived mast cells. Studies of human mast cells have been hampered by the limited sources from which they can be cultured,the difficulty in introducing specific genetic changes into these cells,and differences between established cultures that reflect the unique genetic makeup of the tissue donor. Derivation of mast cells from embryonic stem cells addresses these limitations. ES-derived mast cells can be generated in numbers sufficient for studies of the pathways involved in mast cell effector functions. These ES cell-derived mast cells respond to antigens and other stimuli by releasing histamine,cytokines,lipids,and other bioactive mediators. The derivation of human mast cells from ES cells carrying mutations introduced by homologous recombination should provide a novel means of testing the function of genes in both the development and the effector functions of mast cells.
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Zielinski CE et al. (APR 2012)
Nature 484 7395 514--8
Pathogen-induced human TH17 cells produce IFN-γ or IL-10 and are regulated by IL-1β.
IL-17-producing CD4+ T helper cells (TH17) have been extensively investigated in mouse models of autoimmunity. However,the requirements for differentiation and the properties of pathogen-induced human TH17 cells remain poorly defined. Using an approach that combines the in vitro priming of naive T cells with the ex vivo analysis of memory T cells,we describe here two types of human TH17 cells with distinct effector function and differentiation requirements. Candida albicans-specific TH17 cells produced IL-17 and IFN-γ,but no IL-10,whereas Staphylococcus aureus-specific TH17 cells produced IL-17 and could produce IL-10 upon restimulation. IL-6,IL-23 and IL-1β contributed to TH17 differentiation induced by both pathogens,but IL-1β was essential in C. albicans-induced TH17 differentiation to counteract the inhibitory activity of IL-12 and to prime IL-17/IFN-γ double-producing cells. In addition,IL-1β inhibited IL-10 production in differentiating and in memory TH17 cells,whereas blockade of IL-1β in vivo led to increased IL-10 production by memory TH17 cells. We also show that,after restimulation,TH17 cells transiently downregulated IL-17 production through a mechanism that involved IL-2-induced activation of STAT5 and decreased expression of ROR-γt. Taken together these findings demonstrate that by eliciting different cytokines C. albicans and S. aureus prime TH17 cells that produce either IFN-γ or IL-10,and identify IL-1β and IL-2 as pro- and anti-inflammatory regulators of TH17 cells both at priming and in the effector phase.
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Gü et al. (MAY 2012)
International immunopharmacology 13 1 61--8
Cryopreservation of adenovirus-transfected dendritic cells (DCs) for clinical use.
In this study,we examined the effects of cryoprotectant,freezing and thawing,and adenovirus (Adv) transduction on the viability,transgene expression,phenotype,and function of human dendritic cells (DCs). DCs were differentiated from cultured peripheral blood (PB) monocytes following Elutra isolation using granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4) for 6 days and then transduced using an Adv vector with an IL-12 transgene. Fresh,cryopreserved,and thawed transduced immature DCs were examined for their: 1) cellular concentration and viability; 2) antigenicity using an allogeneic mixed lymphocyte reaction (MLR); 3) phenotype (HLA-DR and CD11c) and activation (CD83); and 4) transgene expression based on IL-12 secretion. Stability studies revealed that transduced DCs could be held in cryoprotectant for as long as 75 min at 2-8°C prior to freezing with little effect on their viability and cellularity. Further,cryopreservation,storage,and thawing reduced the viability of the transduced DCs by an average of 7.7%; and had no significant impact on DC phenotype and activation. In summary,cryopreservation,storage,and thawing had no significant effect on DC viability,function,and transgene expression by Adv-transduced DCs.
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