Hawksworth OA et al. (DEC 2014)
Stem Cells 32 12 3278--3284
Brief report: Complement C5a promotes human embryonic stem cell pluripotency in the absence of FGF2
The complement activation product,C5a,is a pivotal member of the innate immune response; however,a diverse number of nonimmune functions are now being ascribed to C5a signaling,including roles during embryonic development. Here,we identify the expression of the C5a precursor protein,C5,as well as the C5a receptors,C5aR and C5L2,in both human embryonic stem cells and human-induced pluripotent stem cells. We show that administration of a physiologically relevant dose of purified human C5a (1 nM) stimulates activation of ERK1/2 and AKT signaling pathways,and is able to promote maintenance of the pluripotent state in the absence of FGF2. C5a also reduced cell loss following dissociation of human pluripotent stem cells. Our results reveal that complement C5a signaling supports human stem cell pluripotency and survival,and thus may play a key role in shaping early human embryonic development. Stem Cells 2014;32:3278-3284.
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mTeSR™1
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Zhang F-Q et al. ( 2015)
Oncotarget
JAK2 inhibitor TG101348 overcomes erlotinib-resistance in non-small cell lung carcinoma cells with mutated EGF receptor.
Non-small cell lung cancer (NSCLC) patients with epidermal growth factor receptor (EGFR) mutations are responsive to EGFR-tyrosine kinase inhibitor (EGFR-TKI). However,NSCLC patients with secondary somatic EGFR mutations are resistant to EGFR-TKI treatment. In this study,we investigated the effect of TG101348 (a JAK2 inhibitor) on the tumor growth of erlotinib-resistant NSCLC cells. Cell proliferation,apoptosis,gene expression and tumor growth were evaluated by diphenyltetrazolium bromide (MTT) assay,flow cytometry,terminal deoxynucleotidyl transferase biotin-dUTP nick end labeling (TUNEL) staining,Western Blot and a xenograft mouse model,respectively. Results showed that erlotinib had a stronger impact on the induction of apoptosis in erlotinib-sensitive PC-9 cells but had a weaker effect on erlotinib-resistant H1975 and H1650 cells than TG101348. TG101348 significantly enhanced the cytotoxicity of erlotinib to erlotinib-resistant NSCLC cells,stimulated erlotinib-induced apoptosis and downregulated the expressions of EGFR,p-EGFR,p-STAT3,Bcl-xL and survivin in erlotinib-resistant NSCLC cells. Moreover,the combined treatment of TG101348 and erlotinib induced apoptosis,inhibited the activation of p-EGFR and p-STAT3,and inhibited tumor growth of erlotinib-resistant NSCLC cells in vivo. Our results indicate that TG101348 is a potential adjuvant for NSCLC patients during erlotinib treatment.
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产品号#:
73472
73474
产品名:
TG101348
TG101348
Kumar A et al. (JAN 2011)
PloS one 6 6 e20701
Evidence that aberrant expression of tissue transglutaminase promotes stem cell characteristics in mammary epithelial cells.
Cancer stem cells (CSCs) or tumor initiating cells (TICs) make up only a small fraction of total tumor cell population,but recent evidence suggests that they are responsible for tumor initiation and the maintenance of tumor growth. Whether CSCs/TICs originate from normal stem cells or result from the dedifferentiation of terminally differentiated cells remains unknown. Here we provide evidence that sustained expression of the proinflammatory protein tissue transglutaminase (TG2) confers stem cell like properties in non-transformed and transformed mammary epithelial cells. Sustained expression of TG2 was associated with increase in CD44(high)/CD24(low/-) subpopulation,increased ability of cells to form mammospheres,and acquisition of self-renewal ability. Mammospheres derived from TG2-transfected mammary epithelial cells (MCF10A) differentiated into complex secondary structures when grown in Matrigel cultures. Cells in these secondary structures differentiated into Muc1-positive (luminal marker) and integrin α6-positive (basal marker) cells in response to prolactin treatment. Highly aggressive MDA-231 and drug-resistant MCF-7/RT breast cancer cells,which express high basal levels of TG2,shared many traits with TG2-transfected MCF10A stem cells but unlike MCF10A-derived stem cells they failed to form the secondary structures and to differentiate into Muc1-positive luminal cells when grown in Matrigel culture. Downregulation of TG2 attenuated stem cell properties in both non-transformed and transformed mammary epithelial cells. Taken together,these results suggested a new function for TG2 and revealed a novel mechanism responsible for promoting the stem cell characteristics in adult mammary epithelial cells.
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产品类型:
产品号#:
05620
产品名:
MammoCult™ 人源培养基套装
Funk WD et al. (MAR 2012)
Stem Cell Research 8 2 154--64
Evaluating the genomic and sequence integrity of human ES cell lines; comparison to normal genomes
Copy number variation (CNV) is a common chromosomal alteration that can occur during in vitro cultivation of human cells and can be accompanied by the accumulation of mutations in coding region sequences. We describe here a systematic application of current molecular technologies to provide a detailed understanding of genomic and sequence profiles of human embryonic stem cell (hESC) lines that were derived under GMP-compliant conditions. We first examined the overall chromosomal integrity using cytogenetic techniques to determine chromosome count,and to detect the presence of cytogenetically aberrant cells in the culture (mosaicism). Assays of copy number variation,using both microarray and sequence-based analyses,provide a detailed view genomic variation in these lines and shows that in early passage cultures of these lines,the size range and distribution of CNVs are entirely consistent with those seen in the genomes of normal individuals. Similarly,genome sequencing shows variation within these lines that is completely within the range seen in normal genomes. Important gene classes,such as tumor suppressors and genetic disease genes,do not display overtly disruptive mutations that could affect the overall safety of cell-based therapeutics. Complete sequence also allows the analysis of important transplantation antigens,such as ABO and HLA types. The combined application of cytogenetic and molecular technologies provides a detailed understanding of genomic and sequence profiles of GMP produced ES lines for potential use as therapeutic agents.
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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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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)
Lu J et al. (FEB 2013)
Cancer cell 23 2 171--185
Endothelial cells promote the colorectal cancer stem cell phenotype through a soluble form of Jagged-1.
We report a paracrine effect whereby endothelial cells (ECs) promote the cancer stem cell (CSC) phenotype of human colorectal cancer (CRC) cells. We showed that,without direct cell-cell contact,ECs secrete factors that promoted the CSC phenotype in CRC cells via Notch activation. In human CRC specimens,CD133 and Notch intracellular domain-positive CRC cells colocalized in perivascular regions. An EC-derived,soluble form of Jagged-1,via ADAM17 proteolytic activity,led to Notch activation in CRC cells in a paracrine manner; these effects were blocked by immunodepletion of Jagged-1 in EC-conditioned medium or blockade of ADAM17 activity. Collectively,ECs play an active role in promoting Notch signaling and the CSC phenotype by secreting soluble Jagged-1.
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产品类型:
产品号#:
01700
01705
01702
产品名:
ALDEFLUOR™ 试剂盒
ALDEFLUOR™ DEAB试剂, 1.5 mM, 1 mL
ALDEFLUOR™检测缓冲液
Sakaki-Yumoto M et al. (JUN 2013)
Journal of Biological Chemistry 288 25 18546--18560
Smad2 Is essential for maintenance of the human and mouse primed pluripotent stem cell state
Human embryonic stem cells and mouse epiblast stem cells represent a primed pluripotent stem cell state that requires TGF-β/activin signaling. TGF-β and/or activin are commonly thought to regulate transcription through both Smad2 and Smad3. However,the different contributions of these two Smads to primed pluripotency and the downstream events that they may regulate remain poorly understood. We addressed the individual roles of Smad2 and Smad3 in the maintenance of primed pluripotency. We found that Smad2,but not Smad3,is required to maintain the undifferentiated pluripotent state. We defined a Smad2 regulatory circuit in human embryonic stem cells and mouse epiblast stem cells,in which Smad2 acts through binding to regulatory promoter sequences to activate Nanog expression while in parallel repressing autocrine bone morphogenetic protein signaling. Increased autocrine bone morphogenetic protein signaling caused by Smad2 down-regulation leads to cell differentiation toward the trophectoderm,mesoderm,and germ cell lineages. Additionally,induction of Cdx2 expression,as a result of decreased Smad2 expression,leads to repression of Oct4 expression,which,together with the decreased Nanog expression,accelerates the loss of pluripotency. These findings reveal that Smad2 is a unique integrator of transcription and signaling events and is essential for the maintenance of the mouse and human primed pluripotent stem cell state.
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Konorov SO et al. (OCT 2013)
Analytical Chemistry 85 19 8996--9002
Label-Free Determination of the Cell Cycle Phase in Human Embryonic Stem Cells by Raman Microspectroscopy
The cell cycle is a series of integrated and coordinated physiological events that results in cell growth and replication. Besides observing the event of cell division it is not feasible to determine the cell cycle phase without fatal and/or perturbing invasive procedures such as cell staining,fixing,and/or dissociation. Raman microspectroscopy (RMS) is a chemical imaging technique that exploits molecular vibrations as a contrast mechanism; it can be applied to single living cells noninvasively to allow unperturbed analysis over time. We used RMS to determine the cell cycle phase based on integrating the composite 783 cm(-1) nucleic acid band intensities across individual cell nuclei. After correcting for RNA contributions using the RNA 811 cm(-1) band,the measured intensities essentially reflected DNA content. When quantifying Raman images from single cells in a population of methanol-fixed human embryonic stem cells,the histogram of corrected 783 cm(-1) band intensities exhibited a profile analogous to that obtained using flow-cytometry with nuclear stains. The two population peaks in the histogram occur at Raman intensities corresponding to a 1-fold and 2-fold diploid DNA complement per cell,consistent with a distribution of cells with a population peak due to cells at the end of G1 phase (1-fold) and a peak due to cells entering M phase (2-fold). When treated with EdU to label the replicating DNA and block cell division,cells with higher EdU-related fluorescence generally had higher integrated Raman intensities. This provides proof-of-principle of an analytical method for label-free RMS determination in situ of cell cycle phase in adherent monolayers or even single adherent cells.
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mTeSR™1
mTeSR™1
Hansen SK et al. (AUG 2016)
Stem cell research 17 2 306--317
Induced pluripotent stem cell - derived neurons for the study of spinocerebellar ataxia type 3.
The neurodegenerative disease spinocerebellar ataxia type 3 (SCA3) is caused by a CAG-repeat expansion in the ATXN3 gene. In this study,induced pluripotent stem cell (iPSC) lines were established from two SCA3 patients. Dermal fibroblasts were reprogrammed using an integration-free method and the resulting SCA3 iPSCs were differentiated into neurons. These neuronal lines harbored the disease causing mutation,expressed comparable levels of several neuronal markers and responded to the neurotransmitters,glutamate/glycine,GABA and acetylcholine. Additionally,all neuronal cultures formed networks displaying synchronized spontaneous calcium oscillations within 28days of maturation,and expressed the mature neuronal markers NeuN and Synapsin 1 implying a relatively advanced state of maturity,although not comparable to that of the adult human brain. Interestingly,we were not able to recapitulate the glutamate-induced ataxin-3 aggregation shown in a previously published iPSC-derived SCA3 model. In conclusion,we have generated a panel of SCA3 patient iPSCs and a robust protocol to derive neurons of relatively advanced maturity,which could potentially be valuable for the study of SCA3 disease mechanisms.
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mTeSR™1
Matamoros-Angles A et al. (MAY 2017)
Molecular neurobiology
iPS Cell Cultures from a Gerstmann-Sträussler-Scheinker Patient with the Y218N PRNP Mutation Recapitulate tau Pathology.
Gerstmann-Sträussler-Scheinker (GSS) syndrome is a fatal autosomal dominant neurodegenerative prionopathy clinically characterized by ataxia,spastic paraparesis,extrapyramidal signs and dementia. In some GSS familiar cases carrying point mutations in the PRNP gene,patients also showed comorbid tauopathy leading to mixed pathologies. In this study we developed an induced pluripotent stem (iPS) cell model derived from fibroblasts of a GSS patient harboring the Y218N PRNP mutation,as well as an age-matched healthy control. This particular PRNP mutation is unique with very few described cases. One of the cases presented neurofibrillary degeneration with relevant Tau hyperphosphorylation. Y218N iPS-derived cultures showed relevant astrogliosis,increased phospho-Tau,altered microtubule-associated transport and cell death. However,they failed to generate proteinase K-resistant prion. In this study we set out to test,for the first time,whether iPS cell-derived neurons could be used to investigate the appearance of disease-related phenotypes (i.e,tauopathy) identified in the GSS patient.
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mTeSR™1
mTeSR™1
Maltsev VA et al. (NOV 1993)
Mechanisms of development 44 1 41--50
Embryonic stem cells differentiate in vitro into cardiomyocytes representing sinusnodal, atrial and ventricular cell types.
Pluripotent embryonic stem cells (ESC,ES cells) of line D3 were differentiated in vitro and via embryo-like aggregates (embryoid bodies) of defined cell number into spontaneously beating cardiomyocytes. By using RT-PCR technique,alpha- and beta-cardiac myosin heavy chain (MHC) genes were found to be expressed in embryoid bodies of early to terminal differentiation stages. The exclusive expression of the beta-cardiac MHC gene detected in very early differentiated embryoid bodies proved to be dependent on the number of ES cells developing in the embryoid body. Cardiomyocytes enzymatically isolated from embryoid body outgrowths at different stages of development were further characterized by immunocytological and electrophysiological techniques. All cardiomyocytes appeared to be positive in immunofluorescence assays with monoclonal antibodies against cardiac-specific alpha-cardiac MHC,as well as muscle-specific sarcomeric myosin heavy chain and desmin. The patch-clamp technique allowed a more detailed characterization of the in vitro differentiated cardiomyocytes which were found to represent phenotypes corresponding to sinusnode,atrium or ventricle of the heart. The cardiac cells of early differentiated stage expressed pacemaker-like action potentials similar to those described for embryonic cardiomyocytes. The action potentials of terminally differentiated cells revealed shapes,pharmacological characteristics and hormonal regulation inherent to adult sinusnodal,atrial or ventricular cells. In cardiomyocytes of intermediate differentiation state,action potentials of very long duration (0.3-1 s) were found,which may represent developmentally controlled transitions between different types of action potentials. Therefore,the presented ES cell differentiation system permits the investigation of commitment and differentiation of embryonic cells into the cardiomyogenic lineage in vitro.
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