Onset of rosette formation during spontaneous neural differentiation of hESC and hiPSC colonies
In vitro neural differentiation of human embryonic stem cells (hESCs) is an advantageous system for studying early neural development. The process of early neural differentiation in hESCs begins by initiation of primitive neuroectoderm,which is manifested by rosette formation,with consecutive differentiation into neural progenitors and early glial-like cells. In this study,we examined the involvement of early neural markers - OTX2,PAX6,Sox1,Nestin,NR2F1,NR2F2,and IRX2 - in the onset of rosette formation,during spontaneous neural differentiation of hESC and human induced pluripotent stem cell (hiPSC) colonies. This is in contrast to the conventional way of studying rosette formation,which involves induction of neuronal differentiation and the utilization of embryoid bodies. Here we show that OTX2 is highly expressed at the onset of rosette formation,when rosettes comprise no more than 3-5 cells,and that its expression precedes that of established markers of early neuronal differentiation. Importantly,the rise of OTX2 expression in these cells coincides with the down-regulation of the pluripotency marker OCT4. Lastly,we show that cells derived from rosettes that emerge during spontaneous differentiation of hESCs or hiPSCs are capable of differentiating into dopaminergic neurons in vitro,and into mature-appearing pyramidal and serotonergic neurons weeks after being injected into the motor cortex of NOD-SCID mice. ?? 2013 Elsevier B.V.
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抗GFAP抗体,克隆2E1.E9
抗GFAP抗体,clone 2E1.E9
mTeSR™1
mTeSR™1
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
Yamada S et al. (AUG 2016)
Toxicology in vitro : an international journal published in association with BIBRA 34 257--263
Tributyltin induces mitochondrial fission through Mfn1 degradation in human induced pluripotent stem cells.
Organotin compounds,such as tributyltin (TBT),are well-known endocrine disruptors. TBT is also known to cause various forms of cytotoxicity,including neurotoxicity and immunotoxicity. However,TBT toxicity has not been identified in normal stem cells. In the present study,we examined the effects of TBT on cell growth in human induced pluripotent stem cells (iPSCs). We found that exposure to nanomolar concentrations of TBT decreased intracellular ATP levels and inhibited cell viability in iPSCs. Because TBT suppressed energy production,which is a critical function of the mitochondria,we further assessed the effects of TBT on mitochondrial dynamics. Staining with MitoTracker revealed that nanomolar concentrations of TBT induced mitochondrial fragmentation. TBT also reduced the expression of mitochondrial fusion protein mitofusin 1 (Mfn1),and this effect was abolished by knockdown of the E3 ubiquitin ligase membrane-associated RING-CH 5 (MARCH5),suggesting that nanomolar concentrations of TBT could induce mitochondrial dysfunction via MARCH5-mediated Mfn1 degradation in iPSCs. Thus,mitochondrial function in normal stem cells could be used to assess cytotoxicity associated with metal exposure.
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05940
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Robinson M et al. (AUG 2016)
Stem Cell Reviews and Reports 12 4 476--483
Functionalizing Ascl1 with Novel Intracellular Protein Delivery Technology for Promoting Neuronal Differentiation of Human Induced Pluripotent Stem Cells
Pluripotent stem cells can become any cell type found in the body. Accordingly,one of the major challenges when working with pluripotent stem cells is producing a highly homogenous population of differentiated cells,which can then be used for downstream applications such as cell therapies or drug screening. The transcription factor Ascl1 plays a key role in neural development and previous work has shown that Ascl1 overexpression using viral vectors can reprogram fibroblasts directly into neurons. Here we report on how a recombinant version of the Ascl1 protein functionalized with intracellular protein delivery technology (Ascl1-IPTD) can be used to rapidly differentiate human induced pluripotent stem cells (hiPSCs) into neurons. We first evaluated a range of Ascl1-IPTD concentrations to determine the most effective amount for generating neurons from hiPSCs cultured in serum free media. Next,we looked at the frequency of Ascl1-IPTD supplementation in the media on differentiation and found that one time supplementation is sufficient enough to trigger the neural differentiation process. Ascl1-IPTD was efficiently taken up by the hiPSCs and enabled rapid differentiation into TUJ1-positive and NeuN-positive populations with neuronal morphology after 8 days. After 12 days of culture,hiPSC-derived neurons produced by Ascl1-IPTD treatment exhibited greater neurite length and higher numbers of branch points compared to neurons derived using a standard neural progenitor differentiation protocol. This work validates Ascl1-IPTD as a powerful tool for engineering neural tissue from pluripotent stem cells.
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100-0483
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100-1061
07952
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STEMdiff™ 神经花环选择试剂
STEMdiff™神经前体细胞培养基
STEMdiff™神经祖细胞冻存液
Vitronectin XF™
CellAdhere™ 稀释缓冲液
DMEM/F-12 with 15 mM HEPES
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
STEMdiff™ 神经诱导培养基
STEMdiff™ 神经诱导培养基
STEMdiff™SMADi神经诱导试剂盒
STEMdiff™SMADi神经诱导试剂盒,2套
Hausser Scientificᵀᴹ 明线血球计数板
ReLeSR™
CryoStor® CS10
CryoStor® CS10
Vitronectin XF™
温和细胞解离试剂
ReLeSR™
Peters DT et al. (MAY 2016)
Development (Cambridge,England) 143 9 1475--81
Asialoglycoprotein receptor 1 is a specific cell-surface marker for isolating hepatocytes derived from human pluripotent stem cells.
Hepatocyte-like cells (HLCs) are derived from human pluripotent stem cells (hPSCs) in vitro,but differentiation protocols commonly give rise to a heterogeneous mixture of cells. This variability confounds the evaluation of in vitro functional assays performed using HLCs. Increased differentiation efficiency and more accurate approximation of the in vivo hepatocyte gene expression profile would improve the utility of hPSCs. Towards this goal,we demonstrate the purification of a subpopulation of functional HLCs using the hepatocyte surface marker asialoglycoprotein receptor 1 (ASGR1). We analyzed the expression profile of ASGR1-positive cells by microarray,and tested their ability to perform mature hepatocyte functions (albumin and urea secretion,cytochrome activity). By these measures,ASGR1-positive HLCs are enriched for the gene expression profile and functional characteristics of primary hepatocytes compared with unsorted HLCs. We have demonstrated that ASGR1-positive sorting isolates a functional subpopulation of HLCs from among the heterogeneous cellular population produced by directed differentiation.
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Self-organization of the human embryo in the absence of maternal tissues.
Remodelling of the human embryo at implantation is indispensable for successful pregnancy. Yet it has remained mysterious because of the experimental hurdles that beset the study of this developmental phase. Here,we establish an in vitro system to culture human embryos through implantation stages in the absence of maternal tissues and reveal the key events of early human morphogenesis. These include segregation of the pluripotent embryonic and extra-embryonic lineages,and morphogenetic rearrangements leading to generation of a bilaminar disc,formation of a pro-amniotic cavity within the embryonic lineage,appearance of the prospective yolk sac,and trophoblast differentiation. Using human embryos and human pluripotent stem cells,we show that the reorganization of the embryonic lineage is mediated by cellular polarization leading to cavity formation. Together,our results indicate that the critical remodelling events at this stage of human development are embryo-autonomous,highlighting the remarkable and unanticipated self-organizing properties of human embryos.
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mTeSR™1
mTeSR™1
Tsolis KC et al. (JUN 2016)
Journal of Proteome Research 15 6 1995--2007
Proteome changes during transition from human embryonic to vascular progenitor cells
Human embryonic stem cells (hESCs) are promising in regenerative medicine (RM) due to their differentiation plasticity and proliferation potential. However,a major challenge in RM is the generation of a vascular system to support nutrient flow to newly synthesized tissues. Here we refined an existing method to generate tight vessels by differentiating hESCs in CD34(+) vascular progenitor cells using chemically defined media and growth conditions. We selectively purified these cells from CD34(-) outgrowth populations also formed. To analyze these differentiation processes,we compared the proteomes of the hESCs with those of the CD34(+) and CD34(-) populations using high resolution mass spectrometry,label-free quantification,and multivariate analysis. Eighteen protein markers validate the differentiated phenotypes in immunological assays; nine of these were also detected by proteomics and show statistically significant differential abundance. Another 225 proteins show differential abundance between the three cell types. Sixty-three of these have known functions in CD34(+) and CD34(-) cells. CD34(+) cells synthesize proteins implicated in endothelial cell differentiation and smooth muscle formation,which support the bipotent phenotype of these progenitor cells. CD34(-) cells are more heterogeneous synthesizing muscular/osteogenic/chondrogenic/adipogenic lineage markers. The remaining textgreater150 differentially abundant proteins in CD34(+) or CD34(-) cells raise testable hypotheses for future studies to probe vascular morphogenesis.
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mTeSR™1
mTeSR™1
Tasnim F et al. (MAY 2016)
Molecular Pharmaceutics 13 6 1947--1957
Functionally Enhanced Human Stem Cell Derived Hepatocytes in Galactosylated Cellulosic Sponges for Hepatotoxicity Testing.
Pluripotent stem cell derived hepatocyte-like cells (hPSC-HLCs) are an attractive alternative to primary human hepatocytes (PHHs) used in applications ranging from therapeutics to drug safety testing studies. It would be critical to improve and maintain mature hepatocyte functions of the hPSC-HLCs,especially for long-term studies. If 3D culture systems were to be used for such purposes,it would be important that the system can support formation and maintenance of optimal-sized spheroids for long periods of time,and can also be directly deployed in liver drug testing assays. We report the use of 3-dimensional (3D) cellulosic scaffold system for the culture of hPSC-HLCs. The scaffold has a macroporous network which helps to control the formation and maintenance of the spheroids for weeks. Our results show that culturing hPSC-HLCs in 3D cellulosic scaffolds increases functionality,as demonstrated by improved urea production and hepatic marker expression. In addition,hPSC-HLCs in the scaffolds exhibit a more mature phenotype,as shown by enhanced cytochrome P450 activity and induction. This enables the system to show a higher sensitivity to hepatotoxicants and a higher degree of similarity to PHHs when compared to conventional 2D systems. These results suggest that 3D cellulosic scaffolds are ideal for the long-term cultures needed to mature hPSC-HLCs. The mature hPSC-HLCs with improved cellular function can be continually maintained in the scaffolds and directly used for hepatotoxicity assays,making this system highly attractive for drug testing applications.
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mTeSR™1
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Banerjee A et al. (JUL 2016)
Oncotarget 7 27 41432--41444
Endoplasmic reticulum stress and IRE-1 signaling cause apoptosis in colon cancer cells in response to andrographolide treatment
Cindric Vranesic A et al. (MAY 2016)
Human Molecular Genetics May 11 ddw140
Characterization of SKAP/kinastrin isoforms: the N-terminus defines tissue specificity and Pontin binding
Small Kinetochore-Associated Protein (SKAP)/Kinastrin is a multifunctional protein with proposed roles in mitosis,apoptosis and cell migration. Exact mechanisms underlying its activities in these cellular processes are not completely understood. SKAP is predicted to have different isoforms,however,previous studies did not differentiate between them. Since distinct molecular architectures of protein isoforms often influence their localization and functions,this study aimed to examine the expression profile and functional differences between SKAP isoforms in human and mouse. Analyses of various human tissues and cells of different origin by RT-PCR,and by Western blotting and immunocytochemistry applying newly generated anti-SKAP monoclonal antibodies revealed that human SKAP exists in two protein isoforms: ubiquitously expressed SKAP16 and testis/sperm-specific SKAP1. In mouse,SKAP1 expression is detectable in testis at 4 weeks postnatally,when the first wave of spermatogenesis in mice is complete and the elongated spermatids are present in the testes. Furthermore,we identified Pontin as a new SKAP1 interaction partner. SKAP1 and Pontin co-localized in the flagellar region of human sperm suggesting a functional relevance for SKAP1-Pontin interaction in sperm motility. Since most previous studies on SKAP were performed with the testis-specific isoform SKAP1,our findings provide a new basis for future studies on the role of SKAP in both human somatic cells and male germ cells,including studies on male fertility.
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ClonaCell™-HY杂交瘤试剂盒
ClonaCell™-HY培养基A
ClonaCell™-HY 培养基 B
ClonaCell™-HY 培养基 C
ClonaCell™-HY 培养基 D
ClonaCell™-HY 培养基 E
ClonaCell™-HY PEG
Wu C et al. (MAY 2016)
Mol Cell Biol 36 14 1977--1987
Novel microRNA regulators of atrial natriuretic peptide production.
Atrial natriuretic peptide (ANP) has a central role in regulating blood pressure in humans. Recently,microRNA-425 (miR-425) was found to regulate ANP production by binding to the mRNA of NPPA,the gene encoding ANP. mRNAs typically contain multiple predicted microRNA (miRNA)-binding sites,and binding of different miRNAs may independently or coordinately regulate the expression of any given mRNA. We used a multifaceted screening strategy that integrates bioinformatics,next-generation sequencing data,human genetic association data,and cellular models to identify additional functional NPPA-targeting miRNAs. Two novel miRNAs,miR-155 and miR-105,were found to modulate ANP production in human cardiomyocytes and target genetic variants whose minor alleles are associated with higher human plasma ANP levels. Both miR-155 and miR-105 repressed NPPA mRNA in an allele-specific manner,with the minor allele of each respective variant conferring resistance to the miRNA either by disruption of miRNA base pairing or creation of wobble base pairing. Moreover,miR-155 enhanced the repressive effects of miR-425 on ANP production in human cardiomyocytes. Our study combines computational,genomic,and cellular tools to identify novel miRNA regulators of ANP production that could be targeted to raise ANP levels,which may have applications for the treatment of hypertension or heart failure.
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mTeSR™1
mTeSR™1
Maldonado M et al. (MAY 2016)
Advanced Healthcare Materials 5 12 1408--1412
Enhanced Lineage-Specific Differentiation Efficiency of Human Induced Pluripotent Stem Cells by Engineering Colony Dimensionality Using Electrospun Scaffolds
Electrospun scaffolds with varied stiffness promote distinct colony morphology of human induced pluripotent stem cells,which affects their subsequent differentiation. On soft scaffolds,induced pluripotent stem cells develop 3D colonies due to the pliability of the electrospun fibrous networks,leading to greater differentiation tendency to ectodermal lineage.
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