Implantable tissue-engineered blood vessels from human induced pluripotent stem cells
Derivation of functional vascular smooth muscle cells (VSMCs) from human induced pluripotent stem cells (hiPSCs) to generate tissue-engineered blood vessels (TEBVs) holds great potential in treating patients with vascular diseases. Herein,hiPSCs were differentiated into alpha-smooth muscle actin ($$-SMA) and calponin-positive VSMCs,which were seeded onto polymer scaffolds in bioreactors for vascular tissue growth. A functional TEBV with abundant collagenous matrix and sound mechanics resulted,which contained cells largely positive for $$-SMA and smooth muscle myosin heavy chain (SM-MHC). Moreover,when hiPSC-derived TEBV segments were implanted into nude rats as abdominal aorta interposition grafts,they remained unruptured and patent with active vascular remodeling,and showed no evidence of teratoma formation during a 2-week proof-of-principle study. Our studies represent the development of the first implantable TEBVs based on hiPSCs,and pave the way for developing autologous or allogeneic grafts for clinical use in patients with vascular disease.
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mTeSR™1
mTeSR™1
Ohta R et al. (NOV 2016)
Scientific reports 6 35680
Laminin-guided highly efficient endothelial commitment from human pluripotent stem cells.
Obtaining highly purified differentiated cells via directed differentiation from human pluripotent stem cells (hPSCs) is an essential step for their clinical application. Among the various conditions that should be optimized,the precise role and contribution of the extracellular matrix (ECM) during differentiation are relatively unclear. Here,using a short fragment of laminin 411 (LM411-E8),an ECM predominantly expressed in the vascular endothelial basement membrane,we demonstrate that the directed switching of defined ECMs robustly yields highly-purified (textgreater95%) endothelial progenitor cells (PSC-EPCs) without cell sorting from hPSCs in an integrin-laminin axis-dependent manner. Single-cell RNA-seq analysis revealed that LM411-E8 resolved intercellular transcriptional heterogeneity and escorted the progenitor cells to the appropriate differentiation pathway. The PSC-EPCs gave rise to functional endothelial cells both in vivo and in vitro. We therefore propose that sequential switching of defined matrices is an important concept for guiding cells towards desired fate.
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mTeSR™1
mTeSR™1
Hu B-Y and Zhang S-C (JAN 2009)
Nature protocols 4 9 1295--304
Differentiation of spinal motor neurons from pluripotent human stem cells.
We have devised a reproducible protocol by which human embryonic stem cells (hESCs) or inducible pluripotent stem cells (iPSCs) are efficiently differentiated to functional spinal motor neurons. This protocol comprises four major steps. Pluripotent stem cells are induced to form neuroepithelial (NE) cells that form neural tube-like rosettes in the absence of morphogens in the first 2 weeks. The NE cells are then specified to OLIG2-expressing motoneuron progenitors in the presence of retinoic acid (RA) and sonic hedgehog (SHH) or purmorphamine in the next 2 weeks. These progenitor cells further generate post-mitotic,HB9-expressing motoneurons at the 5th week and mature to functional motor neurons thereafter. It typically takes 5 weeks to generate the post-mitotic motoneurons and 8-10 weeks for the production of functional mature motoneurons. In comparison with other methods,our protocol does not use feeder cells,has a minimum dependence on proteins (purmorphamine replacing SHH),has controllable adherent selection and is adaptable for scalable suspension culture.
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72202
72204
100-1049
产品名:
Purmorphamine
Purmorphamine
Purmorphamine
Lee OK et al. (MAR 2004)
Blood 103 5 1669--75
Isolation of multipotent mesenchymal stem cells from umbilical cord blood.
It is well accepted that umbilical cord blood has been a source for hematopoietic stem cells. However,controversy exists as to whether cord blood can serve as a source of mesenchymal stem cells,which can differentiate into cells of different connective tissue lineages such as bone,cartilage,and fat,and little success has been reported in the literature about the isolation of such cells from cord blood. Here we report a novel method to obtain single cell-derived,clonally expanded mesenchymal stem cells that are of multilineage differentiation potential by negative immunoselection and limiting dilution. The immunophenotype of these clonally expanded cells is consistent with that reported for bone marrow mesenchymal stem cells. Under appropriate induction conditions,these cells can differentiate into bone,cartilage,and fat. Surprisingly,these cells were also able to differentiate into neuroglial- and hepatocyte-like cells under appropriate induction conditions and,thus,these cells may be more than mesenchymal stem cells as evidenced by their ability to differentiate into cell types of all 3 germ layers. In conclusion,umbilical cord blood does contain mesenchymal stem cells and should not be regarded as medical waste. It can serve as an alternative source of mesenchymal stem cells to bone marrow.
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产品号#:
15128
15168
产品名:
RosetteSep™人间充质干细胞富集抗体混合物
RosetteSep™人间充质干细胞富集抗体混合物
Cheng L et al. (JUN 2014)
Cell Research 24 6 665--679
Generation of neural progenitor cells by chemical cocktails and hypoxia
Neural progenitor cells (NPCs) can be induced from somatic cells by defined factors. Here we report that NPCs can be generated from mouse embryonic fibroblasts by a chemical cocktail,namely VCR (V,VPA,an inhibitor of HDACs; C,CHIR99021,an inhibitor of GSK-3 kinases and R,Repsox,an inhibitor of TGF-β pathways),under a physiological hypoxic condition. These chemical-induced NPCs (ciNPCs) resemble mouse brain-derived NPCs re- garding their proliferative and self-renewing abilities,gene expression profiles,and multipotency for different neu- roectodermal lineages in vitro and in vivo. Further experiments reveal that alternative cocktails with inhibitors of histone deacetylation,glycogen synthase kinase,and TGF-β pathways show similar efficacies for ciNPC induction. Moreover,ciNPCs can also be induced from mouse tail-tip fibroblasts and human urinary cells with the same chemi- cal cocktail VCR. Thus our study demonstrates that lineage-specific conversion of somatic cells to NPCs could be achieved by chemical cocktails without introducing exogenous factors.
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mTeSR™1
mTeSR™1
Chen X et al. (SEP 2006)
Stem cells (Dayton,Ohio) 24 9 2052--9
Bioreactor expansion of human adult bone marrow-derived mesenchymal stem cells.
Supplementation of mesenchymal stem cells (MSCs) during hematopoietic stem cell (HSC) transplantation alleviates complications such as graft-versus-host disease,leading to a speedy recovery of hematopoiesis. To meet this clinical demand,a fast MSC expansion method is required. In the present study,we examined the feasibility of using a rotary bioreactor system to expand MSCs from isolated bone marrow mononuclear cells. The cells were cultured in a rotary bioreactor with Myelocult medium containing a combination of supplementary factors,including stem cell factor and interleukin-3 and -6. After 8 days of culture,total cell numbers,Stro-1(+)CD44(+)CD34(-) MSCs,and CD34(+)CD44(+)Stro-1(-) HSCs were increased 9-,29-,and 8-fold,respectively. Colony-forming efficiency-fibroblast per day of the bioreactor-treated cells was 1.44-fold higher than that of the cells without bioreactor treatment. The bioreactor-expanded MSCs showed expression of primitive MSC markers endoglin (SH2) and vimentin,whereas markers associated with lineage differentiation,including osteocalcin (osteogenesis),type II collagen (chondrogenesis),and C/EBP-alpha (CCAAT/enhancer-binding protein-alpha) (adipogenesis),were not detected. Upon induction,the bioreactor-expanded MSCs were able to differentiate into osteoblasts,chondrocytes,and adipocytes. We conclude that the rotary bioreactor with the modified Myelocult medium reported in this study may be used to rapidly expand MSCs.
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产品类型:
产品号#:
05150
产品名:
MyeloCult™ H5100
J. U. Hermansen et al. (dec 2018)
Scientific reports 8 1 17651
Cryopreservation of primary B cells minimally influences their signaling responses.
Phospho flow is a powerful approach to detect cell signaling aberrations,identify biomarkers and assess pharmacodynamics,and can be performed using cryopreserved samples. The effects of cryopreservation on signaling responses and the reproducibility of phospho flow measurements are however unknown in many cell systems. Here,B lymphocytes were isolated from healthy donors and patients with the B cell malignancy chronic lymphocytic leukemia and analyzed by phospho flow using phospho-specific antibodies targeting 20 different protein epitopes. Cells were analyzed both at basal conditions and after activation of cluster of differentiation 40 (CD40) or the B cell receptor. Pharmacodynamics of the novel pathway inhibitor ibrutinib was also assessed. At all conditions,fresh cells were compared to cryopreserved cells. Minimal variation between fresh and frozen samples was detected. Reproducibility was tested by running samples from the same donors in different experiments. The results demonstrate reproducibility across different phospho flow runs and support the use of cryopreserved samples in future phospho flow studies of B lymphocytes.
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产品类型:
产品号#:
15024
15064
产品名:
RosetteSep™人B细胞富集抗体混合物
RosetteSep™人B细胞富集抗体混合物
Elabd C et al. (OCT 2013)
The Journal of Cell Biology 203 1 73--85
DNA methyltransferase-3–dependent nonrandom template segregation in differentiating embryonic stem cells
Asymmetry of cell fate is one fundamental property of stem cells,in which one daughter cell self-renews,whereas the other differentiates. Evidence of nonrandom template segregation (NRTS) of chromosomes during asymmetric cell divisions in phylogenetically divergent organisms,such as plants,fungi,and mammals,has already been shown. However,before this current work,asymmetric inheritance of chromatids has never been demonstrated in differentiating embryonic stem cells (ESCs),and its molecular mechanism has remained unknown. Our results unambiguously demonstrate NRTS in asymmetrically dividing,differentiating human and mouse ESCs. Moreover,we show that NRTS is dependent on DNA methylation and on Dnmt3 (DNA methyltransferase-3),indicating a molecular mechanism that regulates this phenomenon. Furthermore,our data support the hypothesis that retention of chromatids with the old" template DNA preserves the epigenetic memory of cell fate�
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07923
36254
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Dispase (1 U/mL)
DMEM/F-12 with 15 mM HEPES
mTeSR™1
mTeSR™1
Gafni O et al. (DEC 2013)
Nature 504 7479 282--6
Derivation of novel human ground state naive pluripotent stem cells.
Mouse embryonic stem (ES) cells are isolated from the inner cell mass of blastocysts,and can be preserved in vitro in a naive inner-cell-mass-like configuration by providing exogenous stimulation with leukaemia inhibitory factor (LIF) and small molecule inhibition of ERK1/ERK2 and GSK3β signalling (termed 2i/LIF conditions). Hallmarks of naive pluripotency include driving Oct4 (also known as Pou5f1) transcription by its distal enhancer,retaining a pre-inactivation X chromosome state,and global reduction in DNA methylation and in H3K27me3 repressive chromatin mark deposition on developmental regulatory gene promoters. Upon withdrawal of 2i/LIF,naive mouse ES cells can drift towards a primed pluripotent state resembling that of the post-implantation epiblast. Although human ES cells share several molecular features with naive mouse ES cells,they also share a variety of epigenetic properties with primed murine epiblast stem cells (EpiSCs). These include predominant use of the proximal enhancer element to maintain OCT4 expression,pronounced tendency for X chromosome inactivation in most female human ES cells,increase in DNA methylation and prominent deposition of H3K27me3 and bivalent domain acquisition on lineage regulatory genes. The feasibility of establishing human ground state naive pluripotency in vitro with equivalent molecular and functional features to those characterized in mouse ES cells remains to be defined. Here we establish defined conditions that facilitate the derivation of genetically unmodified human naive pluripotent stem cells from already established primed human ES cells,from somatic cells through induced pluripotent stem (iPS) cell reprogramming or directly from blastocysts. The novel naive pluripotent cells validated herein retain molecular characteristics and functional properties that are highly similar to mouse naive ES cells,and distinct from conventional primed human pluripotent cells. This includes competence in the generation of cross-species chimaeric mouse embryos that underwent organogenesis following microinjection of human naive iPS cells into mouse morulas. Collectively,our findings establish new avenues for regenerative medicine,patient-specific iPS cell disease modelling and the study of early human development in vitro and in vivo.
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Telomerase protects werner syndrome lineage-specific stem cells from premature aging.
Werner syndrome (WS) patients exhibit premature aging predominantly in mesenchyme-derived tissues,but not in neural lineages,a consequence of telomere dysfunction and accelerated senescence. The cause of this lineage-specific aging remains unknown. Here,we document that reprogramming of WS fibroblasts to pluripotency elongated telomere length and prevented telomere dysfunction. To obtain mechanistic insight into the origin of tissue-specific aging,we differentiated iPSCs to mesenchymal stem cells (MSCs) and neural stem/progenitor cells (NPCs). We observed recurrence of premature senescence associated with accelerated telomere attrition and defective synthesis of the lagging strand telomeres in MSCs,but not in NPCs. We postulate this aging" discrepancy is regulated by telomerase. Expression of hTERT or p53 knockdown ameliorated the accelerated aging phenotypein MSC�
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mTeSR™1
mTeSR™1
Grow EJ et al. (JUN 2015)
Nature 522 7555 221--5
Intrinsic retroviral reactivation in human preimplantation embryos and pluripotent cells.
Endogenous retroviruses (ERVs) are remnants of ancient retroviral infections,and comprise nearly 8% of the human genome. The most recently acquired human ERV is HERVK(HML-2),which repeatedly infected the primate lineage both before and after the divergence of the human and chimpanzee common ancestor. Unlike most other human ERVs,HERVK retained multiple copies of intact open reading frames encoding retroviral proteins. However,HERVK is transcriptionally silenced by the host,with the exception of in certain pathological contexts such as germ-cell tumours,melanoma or human immunodeficiency virus (HIV) infection. Here we demonstrate that DNA hypomethylation at long terminal repeat elements representing the most recent genomic integrations,together with transactivation by OCT4 (also known as POU5F1),synergistically facilitate HERVK expression. Consequently,HERVK is transcribed during normal human embryogenesis,beginning with embryonic genome activation at the eight-cell stage,continuing through the emergence of epiblast cells in preimplantation blastocysts,and ceasing during human embryonic stem cell derivation from blastocyst outgrowths. Remarkably,we detected HERVK viral-like particles and Gag proteins in human blastocysts,indicating that early human development proceeds in the presence of retroviral products. We further show that overexpression of one such product,the HERVK accessory protein Rec,in a pluripotent cell line is sufficient to increase IFITM1 levels on the cell surface and inhibit viral infection,suggesting at least one mechanism through which HERVK can induce viral restriction pathways in early embryonic cells. Moreover,Rec directly binds a subset of cellular RNAs and modulates their ribosome occupancy,indicating that complex interactions between retroviral proteins and host factors can fine-tune pathways of early human development.
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mTeSR™1
mTeSR™1
Koshkin V et al. (JAN 2016)
Journal of cellular biochemistry 117 1 59--65
Metabolic Suppression of a Drug-Resistant Subpopulation in Cancer Spheroid Cells.
Inhibition of metabolic features which distinguish cancer cells from their non-malignant counterparts is a promising approach to cancer treatment. Energy support for drug extrusion in multidrug resistance (MDR) is a potential target for metabolic inhibition. Two major sources of ATP-based metabolic energy are partial (glycolysis) and complete (mitochondrial oxidative phosphorylation) oxidation of metabolic fuels. In cancer cells,the balance between them tends to be shifted toward glycolysis; this shift is considered to be characteristic of the cancer metabolic phenotype. Numerous earlier studies,conducted with cells cultured in a monolayer (2-D model),suggested inhibition of glycolytic ATP production as an efficient tool to suppress MDR in cancer cells. Yet,more recent work challenged the appropriateness of the 2-D model for such studies and suggested that a more clinically relevant approach would utilize a more advanced cellular model such as a 3-D model. Here,we show that the transition from the 2-D model (cultured monolayer) to a 3-D model (cultured spheroids) introduces essential changes into the concept of energetic suppression of MDR. The 3-D cell organization leads to the formation of a discrete cell subpopulation (not formed in the 2-D model) with elevated MDR transport capacity. This subpopulation has a specific metabolic phenotype (mixed glycolytic/oxidative MDR support) different from that of cells cultured in the 2-D model. Finally,the shift to the oxidative phenotype becomes greater when the spheroids are grown under conditions of lactic acidosis that are typical for solid tumors. The potential clinical significance of these findings is discussed.
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