Generation, expansion, and differentiation of cardiovascular progenitor cells from human pluripotent stem cells.
Cardiovascular progenitor cells (CVPCs) derived from human embryonic stem cells and human induced pluripotent stem cells represent an invaluable potential source for the study of early embryonic cardiovascular development and stem cell-based therapies for congenital and acquired heart diseases. To fully realize their values,it is essential to establish an efficient and stable differentiation system for the induction of these pluripotent stem cells (PSCs) into the CVPCs and robustly expand them in culture,and then further differentiate these CVPCs into multiple cardiovascular cell types. Here we describe the protocols for efficient derivation,expansion,and differentiation of CVPCs from hPSCs in a chemically defined medium under feeder- and serum-free culture conditions.
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ACCUTASE™
mTeSR™1
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ACCUTASE™
Prasain N et al. (NOV 2014)
Nature biotechnology 32 11 1151--1157
Differentiation of human pluripotent stem cells to cells similar to cord-blood endothelial colony-forming cells.
The ability to differentiate human pluripotent stem cells into endothelial cells with properties of cord-blood endothelial colony-forming cells (CB-ECFCs) may enable the derivation of clinically relevant numbers of highly proliferative blood vessel-forming cells to restore endothelial function in patients with vascular disease. We describe a protocol to convert human induced pluripotent stem cells (hiPSCs) or embryonic stem cells (hESCs) into cells similar to CB-ECFCs at an efficiency of textgreater10(8) ECFCs produced from each starting pluripotent stem cell. The CB-ECFC-like cells display a stable endothelial phenotype with high clonal proliferative potential and the capacity to form human vessels in mice and to repair the ischemic mouse retina and limb,and they lack teratoma formation potential. We identify Neuropilin-1 (NRP-1)-mediated activation of KDR signaling through VEGF165 as a critical mechanism for the emergence and maintenance of CB-ECFC-like cells.
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mTeSR™1
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Darabi R and Perlingeiro RCR ( 2016)
1357 423--439
Derivation of Skeletal Myogenic Precursors from Human Pluripotent Stem Cells Using Conditional Expression of PAX7.
Cell-based therapies are considered as one of the most promising approaches for the treatment of degenerating pathologies including muscle disorders and dystrophies. Advances in the approach of reprogramming somatic cells into induced pluripotent stem (iPS) cells allow for the possibility of using the patient's own pluripotent cells to generate specific tissues for autologous transplantation. In addition,patient-specific tissue derivatives have been shown to represent valuable material for disease modeling and drug discovery. Nevertheless,directed differentiation of pluripotent stem cells into a specific lineage is not a trivial task especially in the case of skeletal myogenesis,which is generally poorly recapitulated during the in vitro differentiation of pluripotent stem cells.Here,we describe a practical and efficient method for the derivation of skeletal myogenic precursors from differentiating human pluripotent stem cells using controlled expression of PAX7. Flow cytometry (FACS) purified myogenic precursors can be expanded exponentially and differentiated in vitro into myotubes,enabling researchers to use these cells for disease modeling as well as therapeutic purposes.
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mTeSR™1
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Su RJ et al. ( 2014)
1357 1341 57--69
Generation of iPS Cells from Human Peripheral Blood Mononuclear Cells Using Episomal Vectors
Peripheral blood is the easy-to-access,minimally invasive,and the most abundant cell source to use for cell reprogramming. The episomal vector is among the best approaches for generating integration-free induced pluripotent stem (iPS) cells due to its simplicity and affordability. Here we describe the detailed protocol for the efficient generation of integration-free iPS cells from peripheral blood mononuclear cells. With this optimized protocol,one can readily generate hundreds of iPS cell colonies from 1 ml of peripheral blood.
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缺氧小室
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van den Berg CW et al. ( 2016)
1353 1341 163--80
Differentiation of Human Pluripotent Stem Cells to Cardiomyocytes Under Defined Conditions.
Human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) can differentiate to cardiomyocytes in vitro,offering unique opportunities to investigate cardiac development and disease as well as providing a platform to perform drug and toxicity tests. Initial cardiac differentiation methods were based on either inductive co-culture or aggregation as embryoid bodies,often in the presence of fetal calf serum. More recently,monolayer differentiation protocols have evolved as feasible alternatives and are often performed in completely defined culture medium and substrates. Thus,our ability to efficiently and reproducibly generate cardiomyocytes from multiple different hESC and hiPSC lines has improved significantly.We have developed a directed differentiation monolayer protocol that can be used to generate cultures comprising ˜50% cardiomyocytes,in which both the culture of the undifferentiated human pluripotent stem cells (hPSCs) and the differentiation procedure itself are defined and serum-free. The differentiation method is also effective for hPSCs maintained in other culture systems. In this chapter,we outline the differentiation protocol and describe methods to assess cardiac differentiation efficiency as well as to identify and quantify the yield of cardiomyocytes.
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Pei Y et al. (MAR 2015)
Scientific reports 5 9205
A platform for rapid generation of single and multiplexed reporters in human iPSC lines.
Induced pluripotent stem cells (iPSC) are important tools for drug discovery assays and toxicology screens. In this manuscript,we design high efficiency TALEN and ZFN to target two safe harbor sites on chromosome 13 and 19 in a widely available and well-characterized integration-free iPSC line. We show that these sites can be targeted in multiple iPSC lines to generate reporter systems while retaining pluripotent characteristics. We extend this concept to making lineage reporters using a C-terminal targeting strategy to endogenous genes that express in a lineage-specific fashion. Furthermore,we demonstrate that we can develop a master cell line strategy and then use a Cre-recombinase induced cassette exchange strategy to rapidly exchange reporter cassettes to develop new reporter lines in the same isogenic background at high efficiency. Equally important we show that this recombination strategy allows targeting at progenitor cell stages,further increasing the utility of the platform system. The results in concert provide a novel platform for rapidly developing custom single or dual reporter systems for screening assays.
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Avior Y et al. (JUL 2015)
Hepatology 62 1 265--278
Microbial-Derived Lithocholic Acid and Vitamin Ktextlessinftextgreater2textless/inftextgreater Drive the Metabolic Maturation of Pluripotent Stem Cells-Derived and Fetal Hepatocytes
The liver is the main organ responsible for the modification,clearance,and transformational toxicity of most xenobiotics owing to its abundance in cytochrome P450 (CYP450) enzymes. However,the scarcity and variability of primary hepatocytes currently limits their utility. Human pluripotent stem cells (hPSCs) represent an excellent source of differentiated hepatocytes; however,current protocols still produce fetal-like hepatocytes with limited mature function. Interestingly,fetal hepatocytes acquire mature CYP450 expression only postpartum,suggesting that nutritional cues may drive hepatic maturation. We show that vitamin K2 and lithocholic acid,a by-product of intestinal flora,activate pregnane X receptor (PXR) and subsequent CYP3A4 and CYP2C9 expression in hPSC-derived and isolated fetal hepatocytes. Differentiated cells produce albumin and apolipoprotein B100 at levels equivalent to primary human hepatocytes,while demonstrating an 8-fold induction of CYP450 activity in response to aryl hydrocarbon receptor (AhR) agonist omeprazole and a 10-fold induction in response to PXR agonist rifampicin. Flow cytometry showed that over 83% of cells were albumin and hepatocyte nuclear factor 4 alpha (HNF4α) positive,permitting high-content screening in a 96-well plate format. Analysis of 12 compounds showed an R(2) correlation of 0.94 between TC50 values obtained in stem cell-derived hepatocytes and primary cells,compared to 0.62 for HepG2 cells. Finally,stem cell-derived hepatocytes demonstrate all toxicological endpoints examined,including steatosis,apoptosis,and cholestasis,when exposed to nine known hepatotoxins. CONCLUSION: Our work provides fresh insights into liver development,suggesting that microbial-derived cues may drive the maturation of CYP450 enzymes postpartum. Addition of these cues results in the first functional,inducible,hPSC-derived hepatocyte for predictive toxicology. (Hepatology 2015).
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Lee J et al. (AUG 2015)
FASEB journal : official publication of the Federation of American Societies for Experimental Biology 29 8 3399--3410
Early induction of a prechondrogenic population allows efficient generation of stable chondrocytes from human induced pluripotent stem cells.
Regeneration of human cartilage is inherently inefficient; an abundant autologous source,such as human induced pluripotent stem cells (hiPSCs),is therefore attractive for engineering cartilage. We report a growth factor-based protocol for differentiating hiPSCs into articular-like chondrocytes (hiChondrocytes) within 2 weeks,with an overall efficiency textgreater90%. The hiChondrocytes are stable and comparable to adult articular chondrocytes in global gene expression,extracellular matrix production,and ability to generate cartilage tissue in vitro and in immune-deficient mice. Molecular characterization identified an early SRY (sex-determining region Y) box (Sox)9(low) cluster of differentiation (CD)44(low)CD140(low) prechondrogenic population during hiPSC differentiation. In addition,2 distinct Sox9-regulated gene networks were identified in the Sox9(low) and Sox9(high) populations providing novel molecular insights into chondrogenic fate commitment and differentiation. Our findings present a favorable method for generating hiPSC-derived articular-like chondrocytes. The hiChondrocytes are an attractive cell source for cartilage engineering because of their abundance,autologous nature,and potential to generate articular-like cartilage rather than fibrocartilage. In addition,hiChondrocytes can be excellent tools for modeling human musculoskeletal diseases in a dish and for rapid drug screening.
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Dispase (1 U/mL)
mTeSR™1
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Mou H et al. (APR 2012)
Cell stem cell 10 4 385--397
Generation of multipotent lung and airway progenitors from mouse ESCs and patient-specific cystic fibrosis iPSCs
Deriving lung progenitors from patient-specific pluripotent cells is a key step in producing differentiated lung epithelium for disease modeling and transplantation. By mimicking the signaling events that occur during mouse lung development,we generated murine lung progenitors in a series of discrete steps. Definitive endoderm derived from mouse embryonic stem cells (ESCs) was converted into foregut endoderm,then into replicating Nkx2.1+ lung endoderm,and finally into multipotent embryonic lung progenitor and airway progenitor cells. We demonstrated that precisely-timed BMP,FGF,and WNT signaling are required for NKX2.1 induction. Mouse ESC-derived Nkx2.1+ progenitor cells formed respiratory epithelium (tracheospheres) when transplanted subcutaneously into mice. We then adapted this strategy to produce disease-specific lung progenitor cells from human Cystic Fibrosis induced pluripotent stem cells (iPSCs),creating a platform for dissecting human lung disease. These disease-specific human lung progenitors formed respiratory epithelium when subcutaneously engrafted into immunodeficient mice.
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Vanden Bempt M et al. (MAR 2016)
Leukemia March 8 Epub ahead of print
Generation of the Fip1l1–Pdgfra fusion gene using CRISPR/Cas genome editing
York D et al. (DEC 2016)
BMC Biotechnology 16 1 23
Generating aldehyde-tagged antibodies with high titers and high formylglycine yields by supplementing culture media with copper(II)
BACKGROUND The ability to site-specifically conjugate a protein to a payload of interest (e.g.,a fluorophore,small molecule pharmacophore,oligonucleotide,or other protein) has found widespread application in basic research and drug development. For example,antibody-drug conjugates represent a class of biotherapeutics that couple the targeting specificity of an antibody with the chemotherapeutic potency of a small molecule drug. While first generation antibody-drug conjugates (ADCs) used random conjugation approaches,next-generation ADCs are employing site-specific conjugation. A facile way to generate site-specific protein conjugates is via the aldehyde tag technology,where a five amino acid consensus sequence (CXPXR) is genetically encoded into the protein of interest at the desired location. During protein expression,the Cys residue within this consensus sequence can be recognized by ectopically-expressed formylglycine generating enzyme (FGE),which converts the Cys to a formylglycine (fGly) residue. The latter bears an aldehyde functional group that serves as a chemical handle for subsequent conjugation. RESULTS The yield of Cys conversion to fGly during protein production can be variable and is highly dependent on culture conditions. We set out to achieve consistently high yields by modulating culture conditions to maximize FGE activity within the cell. We recently showed that FGE is a copper-dependent oxidase that binds copper in a stoichiometric fashion and uses it to activate oxygen,driving enzymatic turnover. Building upon that work,here we show that by supplementing cell culture media with copper we can routinely reach high yields of highly converted protein. We demonstrate that cells incorporate copper from the media into FGE,which results in increased specific activity of the enzyme. The amount of copper required is compatible with large scale cell culture,as demonstrated in fed-batch cell cultures with antibody titers of 5 g textperiodcentered L(-1),specific cellular production rates of 75 pg textperiodcentered cell(-1) textperiodcentered d(-1),and fGly conversion yields of 95-98 %. CONCLUSIONS We describe a process with a high yield of site-specific formylglycine (fGly) generation during monoclonal antibody production in CHO cells. The conversion of Cys to fGly depends upon the activity of FGE,which can be ensured by supplementing the culture media with 50 uM copper(II) sulfate.
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产品号#:
03814
产品名:
ClonaCell™-TCS 培养基
Wang X et al. (JUL 2013)
mAbs 5 4 540--4
Generation and characterization of a unique reagent that recognizes a panel of recombinant human monoclonal antibody therapeutics in the presence of endogenous human IgG
Pharmacokinetic (PK) and immunohistochemistry (IHC) assays are essential to the evaluation of the safety and efficacy of therapeutic monoclonal antibodies (mAb) during drug development. These methods require reagents with a high degree of specificity because low concentrations of therapeutic antibody need to be detected in samples containing high concentrations of endogenous human immunoglobulins. Current assay reagent generation practices are labor-intensive and time-consuming. Moreover,these practices are molecule-specific and so only support one assay for one program at a time. Here,we describe a strategy to generate a unique assay reagent,10C4,that preferentially recognizes a panel of recombinant human mAbs over endogenous human immunoglobulins. This panel-specific" feature enables the reagent to be used in PK and IHC assays for multiple structurally-related therapeutic mAbs. Characterization revealed that the 10C4 epitope is conformational�
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