Zhao L et al. (SEP 2014)
Stem Cell Research 13 2 342--354
Heterelogous expression of mutated HLA-G decreases immunogenicity of human embryonic stem cells and their epidermal derivatives.
Human embryonic stem cells (hESCs) are capable of extensive self-renewal and expansion and can differentiate into any somatic tissue,making them useful for regenerative medicine applications. Allogeneic transplantation of hESC-derived tissues from results in immunological rejection absent adjunctive immunosuppression. The goal of our study was to generate a universal pluripotent stem cell source by nucleofecting a mutated human leukocyte antigen G (mHLA-G) gene into hESCs using the PiggyBac transposon. We successfully generated stable mHLA-G(EF1$\$)-hESC lines using chEF1$\$ system that stably expressed mHLA-G protein during prolonged undifferentiated proliferation andin differentiated embryoid bodies as well as teratomas. Morphology,karyotype,and telomerase activity of mHLA-G expressing hESC were normal. Immunofluorescence staining and flow cytometry analysis revealed persistent expression of pluripotent markers,OCT-3/4 and SSEA-4,in undifferentiated mHLA-G(EF1$\$)-hESC. Nucleofected hESC formed teratomas and when directed to differentiate into epidermal precursors,expressed high levels of mHLA-G and keratinocyte markers K14 and CD29. Natural killer cell cytotoxicity assays demonstrated a significant decrease in lysis of mHLA-G(EF1a)-hESC targets relative to control cells. Similar results were obtained with mHLA-G(EF1$\$)-hESC-derived epidermal progenitors (hEEP). One way mixed T lymphocyte reactions unveiled that mHLA-G(EF1a)-hESC and -hEEP restrained the proliferative activity of mixed T lymphocytes. We conclude that heterologous expression of mHLA-G decreases immunogenicity of hESCs and their epidermal differentiated derivatives.
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Dispase(5 U/mL)
mTeSR™1
mTeSR™1
Fuerstenau-Sharp M et al. (MAY 2015)
PloS one 10 5 e0126596
Generation of highly purified human cardiomyocytes from peripheral blood mononuclear cell-derived induced pluripotent stem cells.
Induced pluripotent stem (iPS) cells have an enormous potential for physiological studies. A novel protocol was developed combining the derivation of iPS from peripheral blood with an optimized directed differentiation to cardiomyocytes and a subsequent metabolic selection. The human iPS cells were retrovirally dedifferentiated from activated T cells. The subsequent optimized directed differentiation protocol yielded 30-45% cardiomyocytes at day 16 of differentiation. The derived cardiomyocytes expressed appropriate structural markers like cardiac troponin T,$\$-actinin and myosin light chain 2 (MLC2V). In a subsequent metabolic selection with lactate,the cardiomyocytes content could be increased to more than 90%. Loss of cardiomyocytes during metabolic selection were less than 50%,whereas alternative surface antibody-based selection procedures resulted in loss of up to 80% of cardiomyocytes. Electrophysiological characterization confirmed the typical cardiac features and the presence of ventricular,atrial and nodal-like action potentials within the derived cardiomyocyte population. Our combined and optimized protocol is highly robust and applicable for scalable cardiac differentiation. It provides a simple and cost-efficient method without expensive equipment for generating large numbers of highly purified,functional cardiomyocytes. It will further enhance the applicability of iPS cell-derived cardiomyocytes for disease modeling,drug discovery,and regenerative medicine.
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mTeSR™1
mTeSR™1
Richie Ehrlich LI et al. (MAR 2011)
Blood 117 9 2618--24
In vitro assays misrepresent in vivo lineage potentials of murine lymphoid progenitors.
The identity of T-cell progenitors that seed the thymus has remained controversial,largely because many studies differ over whether these progenitors retain myeloid potential. Contradictory reports diverge in their use of various in vitro and in vivo assays. To consolidate these discordant findings,we compared the myeloid potential of 2 putative thymus seeding populations,common lymphoid progenitors (CLPs) and multipotent progenitors (MPPs),and the earliest intrathymic progenitor (DN1),using 2 in vitro assays and in vivo readouts. These assays gave contradictory results: CLP and DN1 displayed surprisingly robust myeloid potential on OP9-DL1 in vitro stromal cocultures but displayed little myeloid potential in vivo,as well as in methylcellulose cultures. MPP,on the other hand,displayed robust myeloid potential in all settings. We conclude that stromal cocultures reveal cryptic,but nonphysiologic,myeloid potentials of lymphoid progenitors,providing an explanation for contradictory findings in the field and underscoring the importance of using in vivo assays for the determination of physiologic lineage potentials.
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Lian RH et al. (MAY 2002)
Journal of immunology (Baltimore,Md. : 1950) 168 10 4980--7
Orderly and nonstochastic acquisition of CD94/NKG2 receptors by developing NK cells derived from embryonic stem cells in vitro.
In mice there are two families of MHC class I-specific receptors,namely the Ly49 and CD94/NKG2 receptors. The latter receptors recognize the nonclassical MHC class I Qa-1(b) and are thought to be responsible for the recognition of missing-self and the maintenance of self-tolerance of fetal and neonatal NK cells that do not express Ly49. Currently,how NK cells acquire individual CD94/NKG2 receptors during their development is not known. In this study,we have established a multistep culture method to induce differentiation of embryonic stem (ES) cells into the NK cell lineage and examined the acquisition of CD94/NKG2 by NK cells as they differentiate from ES cells in vitro. ES-derived NK (ES-NK) cells express NK cell-associated proteins and they kill certain tumor cell lines as well as MHC class I-deficient lymphoblasts. They express CD94/NKG2 heterodimers,but not Ly49 molecules,and their cytotoxicity is inhibited by Qa-1(b) on target cells. Using RT-PCR analysis,we also report that the acquisition of these individual receptor gene expressions during different stages of differentiation from ES cells to NK cells follows a predetermined order,with their order of acquisition being first CD94; subsequently NKG2D,NKG2A,and NKG2E; and finally,NKG2C. Single-cell RT-PCR showed coexpression of CD94 and NKG2 genes in most ES-NK cells,and flow cytometric analysis also detected CD94/NKG2 on most ES-NK cells,suggesting that the acquisition of these receptors by ES-NK cells in vitro is nonstochastic,orderly,and cumulative.
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Quintarelli C et al. (MAR 2011)
Blood 117 12 3353--62
High-avidity cytotoxic T lymphocytes specific for a new PRAME-derived peptide can target leukemic and leukemic-precursor cells.
The cancer testis antigen (CTA) preferentially expressed antigen of melanoma (PRAME) is overexpressed by many hematologic malignancies,but is absent on normal tissues,including hematopoietic progenitor cells,and may therefore be an appropriate candidate for T cell-mediated immunotherapy. Because it is likely that an effective antitumor response will require high-avidity,PRAME-specific cytotoxic T lymphocytes (CTLs),we attempted to generate such CTLs using professional and artificial antigen-presenting cells loaded with a peptide library spanning the entire PRAME protein and consisting of 125 synthetic pentadecapeptides overlapping by 11 amino acids. We successfully generated polyclonal,PRAME-specific CTL lines and elicited high-avidity CTLs,with a high proportion of cells recognizing a previously uninvestigated HLA-A*02-restricted epitope,P435-9mer (NLTHVLYPV). These PRAME-CTLs could be generated both from normal donors and from subjects with PRAME(+) hematologic malignancies. The cytotoxic activity of our PRAME-specific CTLs was directed not only against leukemic blasts,but also against leukemic progenitor cells as assessed by colony-forming-inhibition assays,which have been implicated in leukemia relapse. These PRAME-directed CTLs did not affect normal hematopoietic progenitors,indicating that this approach may be of value for immunotherapy of PRAME(+) hematologic malignancies.
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Hisatomi T et al. (MAR 2011)
Blood 117 13 3575--84
NK314 potentiates antitumor activity with adult T-cell leukemia-lymphoma cells by inhibition of dual targets on topoisomerase IIalpha and DNA-dependent protein kinase.
Adult T-cell leukemia-lymphoma (ATL) is an aggressive disease,incurable by standard chemotherapy. NK314,a new anticancer agent possessing inhibitory activity specific for topoisomerase IIα (Top2α),inhibited the growth of various ATL cell lines (50% inhibitory concentration: 23-70nM) with more potent activity than that of etoposide. In addition to the induction of DNA double-strand breaks by inhibition of Top2α,NK314 induced degradation of the catalytic subunit of DNA-dependent protein kinase (DNA-PKcs),resulting in impaired DNA double-strand break repair. The contribution of DNA-PK to inhibition of cell growth was affirmed by the following results: NK314 inhibited cell growth of M059J (a DNA-PKcs-deficient cell line) and M059K (a cell line with DNA-PKcs present) with the same potency,whereas etoposide exhibited weak inhibition of cell growth with M059K cells. A DNA-PK specific inhibitor,NU7026,enhanced inhibitory activity of etoposide on M059K as well as on ATL cells. These results suggest that NK314 is a dual inhibitor of Top2α and DNA-PK. Because ATL cells express a high amount of DNA-PKcs,NK314 as a dual molecular targeting anticancer agent is a potential therapeutic tool for treatment of ATL.
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产品号#:
04437
04447
产品名:
MethoCult™ Express
MethoCult™ Express
Webb CF et al. (MAR 2011)
Molecular and cellular biology 31 5 1041--53
The ARID family transcription factor bright is required for both hematopoietic stem cell and B lineage development.
Bright/Arid3a has been characterized both as an activator of immunoglobulin heavy-chain transcription and as a proto-oncogene. Although Bright expression is highly B lineage stage restricted in adult mice,its expression in the earliest identifiable hematopoietic stem cell (HSC) population suggests that Bright might have additional functions. We showed that textgreater99% of Bright(-/-) embryos die at midgestation from failed hematopoiesis. Bright(-/-) embryonic day 12.5 (E12.5) fetal livers showed an increase in the expression of immature markers. Colony-forming assays indicated that the hematopoietic potential of Bright(-/-) mice is markedly reduced. Rare survivors of lethality,which were not compensated by the closely related paralogue Bright-derived protein (Bdp)/Arid3b,suffered HSC deficits in their bone marrow as well as B lineage-intrinsic developmental and functional deficiencies in their peripheries. These include a reduction in a natural antibody,B-1 responses to phosphocholine,and selective T-dependent impairment of IgG1 class switching. Our results place Bright/Arid3a on a select list of transcriptional regulators required to program both HSC and lineage-specific differentiation.
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产品号#:
03434
03444
产品名:
MethoCult™ GF M3434
MethoCult™ GF M3434
Kishino Y et al. (MAY 2014)
PLoS ONE 9 5 e97397
Derivation of transgene-free human induced pluripotent stem cells from human peripheral T cells in defined culture conditions
Recently,induced pluripotent stem cells (iPSCs) were established as promising cell sources for revolutionary regenerative therapies. The initial culture system used for iPSC generation needed fetal calf serum in the culture medium and mouse embryonic fibroblast as a feeder layer,both of which could possibly transfer unknown exogenous antigens and pathogens into the iPSC population. Therefore,the development of culture systems designed to minimize such potential risks has become increasingly vital for future applications of iPSCs for clinical use. On another front,although donor cell types for generating iPSCs are wide-ranging,T cells have attracted attention as unique cell sources for iPSCs generation because T cell-derived iPSCs (TiPSCs) have a unique monoclonal T cell receptor genomic rearrangement that enables their differentiation into antigen-specific T cells,which can be applied to novel immunotherapies. In the present study,we generated transgene-free human TiPSCs using a combination of activated human T cells and Sendai virus under defined culture conditions. These TiPSCs expressed pluripotent markers by quantitative PCR and immunostaining,had a normal karyotype,and were capable of differentiating into cells from all three germ layers. This method of TiPSCs generation is more suitable for the therapeutic application of iPSC technology because it lowers the risks associated with the presence of undefined,animal-derived feeder cells and serum. Therefore this work will lead to establishment of safer iPSCs and extended clinical application.
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mTeSR™1
mTeSR™1
Marshall LJ et al. (DEC 2010)
The Journal of general virology 91 Pt 12 3042--52
Transcription factor Spi-B binds unique sequences present in the tandem repeat promoter/enhancer of JC virus and supports viral activity.
Progressive multifocal leukoencephalopathy (PML) is an often fatal demyelinating disease caused by lytic infection of oligodendrocytes with JC virus (JCV). The development of PML in non-immunosuppressed individuals is a growing concern with reports of mortality in patients treated with mAb therapies. JCV can persist in the kidneys,lymphoid tissue and bone marrow. JCV gene expression is restricted by non-coding viral regulatory region sequence variation and cellular transcription factors. Because JCV latency has been associated with cells undergoing haematopoietic development,transcription factors previously reported as lymphoid specific may regulate JCV gene expression. This study demonstrates that one such transcription factor,Spi-B,binds to sequences present in the JCV promoter/enhancer and may affect early virus gene expression in cells obtained from human brain tissue. We identified four potential Spi-B-binding sites present in the promoter/enhancer elements of JCV sequences from PML variants and the non-pathogenic archetype. Spi-B sites present in the promoter/enhancers of PML variants alone bound protein expressed in JCV susceptible brain and lymphoid-derived cell lines by electromobility shift assays. Expression of exogenous Spi-B in semi- and non-permissive cells increased early viral gene expression. Strikingly,mutation of the Spi-B core in a binding site unique to the Mad-4 variant was sufficient to abrogate viral activity in progenitor-derived astrocytes. These results suggest that Spi-B could regulate JCV gene expression in susceptible cells,and may play an important role in JCV activity in the immune and nervous systems.
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