Yasuda T et al. (MAY 2013)
The Journal of Physiology 591 10 2579--2591
K v 3.1 channels stimulate adult neural precursor cell proliferation and neuronal differentiation
Adult neural stem/precursor cells (NPCs) play a pivotal role in neuronal plasticity throughout life. Among ion channels identified in adult NPCs,voltage-gated delayed rectifier K(+) (KDR) channels are dominantly expressed. However,the KDR channel subtype and its physiological role are still undefined. We used real-time quantitative RT-PCR and gene knockdown techniques to identify a major functional KDR channel subtype in adult NPCs. Dominant mRNA expression of Kv3.1,a high voltage-gated KDR channel,was quantitatively confirmed. Kv3.1 gene knockdown with specific small interfering RNAs (siRNA) for Kv3.1 significantly inhibited Kv3.1 mRNA expression by 63.9% (P < 0.001) and KDR channel currents by 52.2% (P < 0.001). This indicates that Kv3.1 is the subtype responsible for producing KDR channel outward currents. Resting membrane properties,such as resting membrane potential,of NPCs were not affected by Kv3.1 expression. Kv3.1 knockdown with 300 nm siRNA inhibited NPC growth (increase in cell numbers) by 52.9% (P < 0.01). This inhibition was attributed to decreased cell proliferation,not increased cell apoptosis. We also established a convenient in vitro imaging assay system to evaluate NPC differentiation using NPCs from doublecortin-green fluorescent protein transgenic mice. Kv3.1 knockdown also significantly reduced neuronal differentiation by 31.4% (P < 0.01). We have demonstrated that Kv3.1 is a dominant functional KDR channel subtype expressed in adult NPCs and plays key roles in NPC proliferation and neuronal lineage commitment during differentiation.
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产品类型:
产品号#:
05701
产品名:
NeuroCult™ 扩增添加物(小鼠和大鼠)
Martin S et al. (MAR 2013)
PLoS ONE 8 3 e60152
Inhibition of PIKfyve by YM-201636 Dysregulates Autophagy and Leads to Apoptosis-Independent Neuronal Cell Death
The lipid phosphatidylinositol 3,5-bisphosphate (PtdIns(3,5)P 2),synthesised by PIKfyve,regulates a number of intracellular membrane trafficking pathways. Genetic alteration of the PIKfyve complex,leading to even a mild reduction in PtdIns(3,5)P 2,results in marked neurodegeneration via an uncharacterised mechanism. In the present study we have shown that selectively inhibiting PIKfyve activity,using YM-201636,significantly reduces the survival of primary mouse hippocampal neurons in culture. YM-201636 treatment promoted vacuolation of endolysosomal membranes followed by apoptosis-independent cell death. Many vacuoles contained intravacuolar membranes and inclusions reminiscent of autolysosomes. Accordingly,YM-201636 treatment increased the level of the autophagosomal marker protein LC3-II,an effect that was potentiated by inhibition of lysosomal proteases,suggesting that alterations in autophagy could be a contributing factor to neuronal cell death.
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产品类型:
产品号#:
05701
产品名:
NeuroCult™ 扩增添加物(小鼠和大鼠)
Holmberg Olausson K et al. ( 2014)
PloS one 9 9 e106694
Prominin-1 (CD133) defines both stem and non-stem cell populations in CNS development and gliomas.
Prominin-1 (CD133) is a commonly used cancer stem cell marker in central nervous system (CNS) tumors including glioblastoma (GBM). Expression of Prom1 in cancer is thought to parallel expression and function in normal stem cells. Using RNA in situ hybridization and antibody tools capable of detecting multiple isoforms of Prom1,we find evidence for two distinct Prom1 cell populations in mouse brain. Prom1 RNA is first expressed in stem/progenitor cells of the ventricular zone in embryonic brain. Conversely,in adult mouse brain Prom1 RNA is low in SVZ/SGZ stem cell zones but high in a rare but widely distributed cell population (Prom1(hi)). Lineage marker analysis reveals Prom1(hi) cells are Olig2+Sox2+ glia but Olig1/2 knockout mice lacking oligodendroglia retain Prom1(hi) cells. Bromodeoxyuridine labeling identifies Prom1(hi) as slow-dividing distributed progenitors distinct from NG2+Olig2+ oligodendrocyte progenitors. In adult human brain,PROM1 cells are rarely positive for OLIG2,but express astroglial markers GFAP and SOX2. Variability of PROM1 expression levels in human GBM and patient-derived xenografts (PDX) - from no expression to strong,uniform expression--highlights that PROM1 may not always be associated with or restricted to cancer stem cells. TCGA and PDX data show that high expression of PROM1 correlates with poor overall survival. Within proneural subclass tumors,high PROM1 expression correlates inversely with IDH1 (R132H) mutation. These findings support PROM1 as a tumor cell-intrinsic marker related to GBM survival,independent of its stem cell properties,and highlight potentially divergent roles for this protein in normal mouse and human glia.
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产品类型:
产品号#:
05750
05751
产品名:
NeuroCult™ NS-A 基础培养基(人)
NeuroCult™ NS-A 扩增试剂盒(人)
Zhang Y et al. (APR 2015)
Oncotarget 6 12 9999--10015
Aspirin counteracts cancer stem cell features, desmoplasia and gemcitabine resistance in pancreatic cancer.
Pancreatic ductal adenocarcinoma (PDA) is characterized by an extremely poor prognosis. An inflammatory microenvironment triggers the pronounced desmoplasia,the selection of cancer stem-like cells (CSCs) and therapy resistance. The anti-inflammatory drug aspirin is suggested to lower the risk for PDA and to improve the treatment,although available results are conflicting and the effect of aspirin to CSC characteristics and desmoplasia in PDA has not yet been investigated. We characterized the influence of aspirin on CSC features,stromal reactions and gemcitabine resistance. Four established and 3 primary PDA cell lines,non-malignant cells,3 patient tumor-derived CSC-enriched spheroidal cultures and tissues from patients who did or did not receive aspirin before surgery were analyzed using MTT assays,flow cytometry,colony and spheroid formation assays,Western blot analysis,antibody protein arrays,electrophoretic mobility shift assays (EMSAs),immunohistochemistry and in vivo xenotransplantation. Aspirin significantly induced apoptosis and reduced the viability,self-renewal potential,and expression of proteins involved in inflammation and stem cell signaling. Aspirin also reduced the growth and invasion of tumors in vivo,and it significantly prolonged the survival of mice with orthotopic pancreatic xenografts in combination with gemcitabine. This was associated with a decreased expression of markers for progression,inflammation and desmoplasia. These findings were confirmed in tissue samples obtained from patients who had or had not taken aspirin before surgery. Importantly,aspirin sensitized cells that were resistant to gemcitabine and thereby enhanced the therapeutic efficacy. Aspirin showed no obvious toxic effects on normal cells,chick embryos or mice. These results highlight aspirin as an effective,inexpensive and well-tolerated co-treatment to target inflammation,desmoplasia and CSC features PDA.
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产品类型:
产品号#:
05750
05751
产品名:
NeuroCult™ NS-A 基础培养基(人)
NeuroCult™ NS-A 扩增试剂盒(人)
Dai W et al. (JUL 2015)
Nature communications 6 7576
A post-transcriptional mechanism pacing expression of neural genes with precursor cell differentiation status.
Nervous system (NS) development relies on coherent upregulation of extensive sets of genes in a precise spatiotemporal manner. How such transcriptome-wide effects are orchestrated at the molecular level remains an open question. Here we show that 3'-untranslated regions (3' UTRs) of multiple neural transcripts contain AU-rich cis-elements (AREs) recognized by tristetraprolin (TTP/Zfp36),an RNA-binding protein previously implicated in regulation of mRNA stability. We further demonstrate that the efficiency of ARE-dependent mRNA degradation declines in the neural lineage because of a decrease in the TTP protein expression mediated by the NS-enriched microRNA miR-9. Importantly,TTP downregulation in this context is essential for proper neuronal differentiation. On the other hand,inactivation of TTP in non-neuronal cells leads to dramatic upregulation of multiple NS-specific genes. We conclude that the newly identified miR-9/TTP circuitry limits unscheduled accumulation of neuronal mRNAs in non-neuronal cells and ensures coordinated upregulation of these transcripts in neurons.
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产品类型:
产品号#:
05700
05701
05702
产品名:
NeuroCult™ 基础培养基(小鼠和大鼠)
NeuroCult™ 扩增添加物(小鼠和大鼠)
NeuroCult™扩增试剂盒(小鼠和大鼠)
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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Bilican B et al. (APR 2012)
Proceedings of the National Academy of Sciences of the United States of America 109 15 5803--8
Mutant induced pluripotent stem cell lines recapitulate aspects of TDP-43 proteinopathies and reveal cell-specific vulnerability.
Transactive response DNA-binding (TDP-43) protein is the dominant disease protein in amyotrophic lateral sclerosis (ALS) and a subgroup of frontotemporal lobar degeneration (FTLD-TDP). Identification of mutations in the gene encoding TDP-43 (TARDBP) in familial ALS confirms a mechanistic link between misaccumulation of TDP-43 and neurodegeneration and provides an opportunity to study TDP-43 proteinopathies in human neurons generated from patient fibroblasts by using induced pluripotent stem cells (iPSCs). Here,we report the generation of iPSCs that carry the TDP-43 M337V mutation and their differentiation into neurons and functional motor neurons. Mutant neurons had elevated levels of soluble and detergent-resistant TDP-43 protein,decreased survival in longitudinal studies,and increased vulnerability to antagonism of the PI3K pathway. We conclude that expression of physiological levels of TDP-43 in human neurons is sufficient to reveal a mutation-specific cell-autonomous phenotype and strongly supports this approach for the study of disease mechanisms and for drug screening.
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产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
Stringari C et al. (JAN 2012)
PloS one 7 11 e48014
Phasor fluorescence lifetime microscopy of free and protein-bound NADH reveals neural stem cell differentiation potential.
In the stem cell field there is a lack of non invasive and fast methods to identify stem cell's metabolic state,differentiation state and cell-lineage commitment. Here we describe a label-free method that uses NADH as an intrinsic biomarker and the Phasor approach to Fluorescence Lifetime microscopy to measure the metabolic fingerprint of cells. We show that different metabolic states are related to different cell differentiation stages and to stem cell bias to neuronal and glial fate,prior the expression of lineage markers. Our data demonstrate that the NADH FLIM signature distinguishes non-invasively neurons from undifferentiated neural progenitor and stem cells (NPSCs) at two different developmental stages (E12 and E16). NPSCs follow a metabolic trajectory from a glycolytic phenotype to an oxidative phosphorylation phenotype through different stages of differentiation. NSPCs are characterized by high free/bound NADH ratio,while differentiated neurons are characterized by low free/bound NADH ratio. We demonstrate that the metabolic signature of NPSCs correlates with their differentiation potential,showing that neuronal progenitors and glial progenitors have a different free/bound NADH ratio. Reducing conditions in NPSCs correlates with their neurogenic potential,while oxidative conditions correlate with glial potential. For the first time we show that FLIM NADH metabolic fingerprint provides a novel,and quantitative measure of stem cell potential and a label-free and non-invasive means to identify neuron- or glial- biased progenitors.
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产品类型:
产品号#:
05707
产品名:
NeuroCult™化学解离试剂盒(小鼠)
Xapelli S et al. (MAY 2013)
PLoS ONE 8 5 e63529
Activation of Type 1 Cannabinoid Receptor (CB1R) Promotes Neurogenesis in Murine Subventricular Zone Cell Cultures
The endocannabinoid system has been implicated in the modulation of adult neurogenesis. Here,we describe the effect of type 1 cannabinoid receptor (CB1R) activation on self-renewal,proliferation and neuronal differentiation in mouse neonatal subventricular zone (SVZ) stem/progenitor cell cultures. Expression of CB1R was detected in SVZ-derived immature cells (Nestin-positive),neurons and astrocytes. Stimulation of the CB1R by (R)-(+)-Methanandamide (R-m-AEA) increased self-renewal of SVZ cells,as assessed by counting the number of secondary neurospheres and the number of Sox2+/+ cell pairs,an effect blocked by Notch pathway inhibition. Moreover,R-m-AEA treatment for 48 h,increased proliferation as assessed by BrdU incorporation assay,an effect mediated by activation of MAPK-ERK and AKT pathways. Surprisingly,stimulation of CB1R by R-m-AEA also promoted neuronal differentiation (without affecting glial differentiation),at 7 days,as shown by counting the number of NeuN-positive neurons in the cultures. Moreover,by monitoring intracellular calcium concentrations ([Ca(2+)]i) in single cells following KCl and histamine stimuli,a method that allows the functional evaluation of neuronal differentiation,we observed an increase in neuronal-like cells. This proneurogenic effect was blocked when SVZ cells were co-incubated with R-m-AEA and the CB1R antagonist AM 251,for 7 days,thus indicating that this effect involves CB1R activation. In accordance with an effect on neuronal differentiation and maturation,R-m-AEA also increased neurite growth,as evaluated by quantifying and measuring the number of MAP2-positive processes. Taken together,these results demonstrate that CB1R activation induces proliferation,self-renewal and neuronal differentiation from mouse neonatal SVZ cell cultures.
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产品类型:
产品号#:
05707
产品名:
NeuroCult™化学解离试剂盒(小鼠)
Lama G et al. (FEB 2016)
Journal of Neuropathology & Experimental Neurology 75 2 134--147
Progenitor/Stem Cell Markers in Brain Adjacent to Glioblastoma: GD3 Ganglioside and NG2 Proteoglycan Expression
Characterization of tissue surrounding glioblastoma (GBM) is a focus for translational research because tumor recurrence invariably occurs in this area. We investigated the expression of the progenitor/stem cell markers GD3 ganglioside and NG2 proteoglycan in GBM,peritumor tissue (brain adjacent to tumor,BAT) and cancer stem-like cells (CSCs) isolated from GBM (GCSCs) and BAT (PCSCs). GD3 and NG2 immunohistochemistry was performed in paired GBM and BAT specimens from 40 patients. Double-immunofluorescence was carried out to characterize NG2-positive cells of vessel walls. GD3 and NG2 expression was investigated in GCSCs and PCSCs whose tumorigenicity was also evaluated in Scid/bg mice. GD3 and NG2 expression was higher in tumor tissue than in BAT. NG2 decreased as the distance from tumor margin increased,regardless of the tumor cell presence,whereas GD3 correlated with neoplastic infiltration. In BAT,NG2 was coexpressed with a-smooth muscle actin (a-SMA) in pericytes and with nestin in the endothelium. Higher levels of NG2 mRNA and protein were found in GCSCs while GD3 synthase was expressed at similar levels in the 2 CSC populations. PCSCs had lower tumorigenicity than GCSCs. These data suggest the possible involvement of GD3 and NG2 in pre/pro-tumorigenic events occurring in the complex microenvironment of the tissue surrounding GBM.
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产品类型:
产品号#:
05750
05751
产品名:
NeuroCult™ NS-A 基础培养基(人)
NeuroCult™ NS-A 扩增试剂盒(人)
Baptista S et al. (SEP 2014)
Stem cell research 13 2 329--41
Methamphetamine decreases dentate gyrus stem cell self-renewal and shifts the differentiation towards neuronal fate.
Methamphetamine (METH) is a highly addictive psychostimulant drug of abuse that negatively interferes with neurogenesis. In fact,we have previously shown that METH triggers stem/progenitor cell death and decreases neuronal differentiation in the dentate gyrus (DG). Still,little is known regarding its effect on DG stem cell properties. Herein,we investigate the impact of METH on mice DG stem/progenitor cell self-renewal functions. METH (10nM) decreased DG stem cell self-renewal,while 1nM delayed cell cycle in the G0/G1-to-S phase transition and increased the number of quiescent cells (G0 phase),which correlated with a decrease in cyclin E,pEGFR and pERK1/2 protein levels. Importantly,both drug concentrations (1 or 10nM) did not induce cell death. In accordance with the impairment of self-renewal capacity,METH (10nM) decreased Sox2(+)/Sox2(+) while increased Sox2(-)/Sox2(-) pairs of daughter cells. This effect relied on N-methyl-d-aspartate (NMDA) signaling,which was prevented by the NMDA receptor antagonist,MK-801 (10μM). Moreover,METH (10nM) increased doublecortin (DCX) protein levels consistent with neuronal differentiation. In conclusion,METH alters DG stem cell properties by delaying cell cycle and decreasing self-renewal capacities,mechanisms that may contribute to DG neurogenesis impairment followed by cognitive deficits verified in METH consumers.
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