Kaabinejadian S et al. (MAY 2016)
The Journal of Immunology 196 10 4263--73
Immunodominant West Nile virus T cell epitopes are fewer in number and fashionably late
Class I HLA molecules mark infected cells for immune targeting by presenting pathogen-encoded peptides on the cell surface. Characterization of viral peptides unique to infected cells is important for understanding CD8(+) T cell responses and for the development of T cell-based immunotherapies. Having previously reported a series of West Nile virus (WNV) epitopes that are naturally presented by HLA-A*02:01,in this study we generated TCR mimic (TCRm) mAbs to three of these peptide/HLA complexes-the immunodominant SVG9 (E protein),the subdominant SLF9 (NS4B protein),and the immunorecessive YTM9 (NS3 protein)-and used these TCRm mAbs to stain WNV-infected cell lines and primary APCs. TCRm staining of WNV-infected cells demonstrated that the immunorecessive YTM9 appeared several hours earlier and at 5- to 10-fold greater density than the more immunogenic SLF9 and SVG9 ligands,respectively. Moreover,staining following inhibition of the TAP demonstrated that all three viral ligands were presented in a TAP-dependent manner despite originating from different cellular compartments. To our knowledge,this study represents the first use of TCRm mAbs to define the kinetics and magnitude of HLA presentation for a series of epitopes encoded by one virus,and the results depict a pattern whereby individual epitopes differ considerably in abundance and availability. The observations that immunodominant ligands can be found at lower levels and at later time points after infection suggest that a reevaluation of the factors that combine to shape T cell reactivity may be warranted.
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ClonaCell™-HY杂交瘤试剂盒
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ClonaCell™-HY PEG
Vieillard V et al. (AUG 2005)
Proceedings of the National Academy of Sciences 102 31 10981--86
NK cytotoxicity against CD4+ T cells during HIV-1 infection: A gp41 peptide induces the expression of an NKp44 ligand
HIV infection leads to a state of chronic immune activation and progressive deterioration in immune function,manifested most recognizably by the progressive depletion of CD4+ T cells. A substantial percentage of natural killer (NK) cells from patients with HIV infection are activated and express the natural cytotoxicity receptor (NCR) NKp44. Here we show that a cellular ligand for NKp44 (NKp44L) is expressed during HIV-1 infection and is correlated with both the progression of CD4+ T cell depletion and the increase of viral load. CD4+ T cells expressing this ligand are highly sensitive to the NK lysis activity mediated by NKp44+ NK cells. The expression of NKp44L is induced by the linear motif NH2-SWSNKS-COOH of the HIV-1 envelope gp41 protein. This highly conserved motif appears critical to the sharp increase in NK lysis of CD4+ T cells from HIV-infected patients. These studies strongly suggest that induction of NKp44L plays a key role in the lysis of CD4+ T cells by activated NK cells in HIV infection and consequently provide a framework for considering how HIV-1 may use NK cell immune surveillance to trigger CD4+ T cells. Understanding this mechanism may help to develop future therapeutic strategies and vaccines against HIV-1 infection.
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ClonaCell™-HY杂交瘤试剂盒
ClonaCell™-HY培养基A
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ClonaCell™-HY 培养基 C
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ClonaCell™-HY 培养基 E
ClonaCell™-HY PEG
MyeloCult™ H5100
RosetteSep™人T细胞富集抗体混合物
RosetteSep™人T细胞富集抗体混合物
Zimmerman Z et al. (AUG 2005)
Biology of Blood and Marrow Transplantation 11 8 576--86
Effector cells derived from host CD8 memory T cells mediate rapid resistance against minor histocompatibility antigen-mismatched allogeneic marrow grafts without participation of perforin, Fas ligand, and the simultaneous inhibition of 3 tumor necrosis Fa
Reduced-intensity conditioning regimens for transplant recipients have heightened awareness of immunologic resistance to allogeneic bone marrow transplants (BMT). Although T cell-mediated cytotoxicity has been assumed to play a role in the resistance against donor allogeneic hematopoietic stem and progenitor cell grafts,several studies have reported relatively unimpaired resistance by recipients who lack perforin,Fas ligand (FasL),and other cytotoxic mediators. This study compared the early kinetics of T cell-mediated resistance in B6 (H2b) cytotoxically normal versus deficient recipients after transplantation with major histocompatibility complex-matched,minor histocompatibility antigen (MiHA)-mismatched allogeneic marrow grafts. Wild-type B6 or cytotoxic double-deficient perforin-/-/ gld+/+ (B6-cdd) mice were sensitized against major histocompatibility complex-matched BALB.B or C3H.SW (H2b) MiHA and transplanted with a high dose (1 ?? 107) of T cell-depleted bone marrow. CD8 T memory cells were shown to be present in recipients before BMT,and anti-CD8 monoclonal antibody infusion abolished resistance,thus demonstrating that CD8 T cells are the host effector population. Donor-committed and high proliferative potential progenitor numbers were markedly diminished by 48 hours after transplantation in both wild-type B6 and B6-cdd anti-donor MiHA-sensitized recipients. These observations indicate that the resistance pathway used in the cytotoxic deficient mice was both potent and rapidly induced - consistent with a CD8 memory T-cell response. To examine the role of Tumor necrosis factor-like weak inducer of apoptosis (TWEAK)- and TL1A-mediated cytotoxicity in this strong resistance,newly generated monoclonal antibodies specific for these ligands were administered to B6-cdd recipients sensitized to donor antigens. Recipients of syngeneic B6-gfp bone marrow exhibited significant donor colony-forming unit numbers after BMT. In contrast,low or absent colony-forming unit levels were detected in allogeneic recipients,including those that lacked perforin and FasL and that received anti-TWEAK,anti-tumor necrosis factor-related apoptosis-inducing ligand,and anti-TL1A monoclonal antibodies. These findings extend previous observations by demonstrating the existence of a rapidly effected resistance pathway mediated by memory CD8 effector T cells independent of the 2 major pathways of cytotoxicity. Together with previous findings,these results support the notion that effector cells derived from memory CD8 T-cell populations can mediate strong resistance against donor allogeneic MiHA-disparate hematopoietic engraftment by using a mechanism that is independent of the contribution of perforin,FasL,and the known death ligand receptor pathways. ?? 2005 American Society for Blood and Marrow Transplantation.
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ClonaCell™-HY杂交瘤试剂盒
ClonaCell™-HY培养基A
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ClonaCell™-HY PEG
van de Sandt CE et al. (FEB 2014)
Journal of Virology 88 3 1684--93
Human cytotoxic T lymphocytes directed to seasonal influenza A viruses cross-react with the newly emerging H7N9 virus
In February 2013,zoonotic transmission of a novel influenza A virus of the H7N9 subtype was reported in China. Although at present no sustained human-to-human transmission has been reported,a pandemic outbreak of this H7N9 virus is feared. Since neutralizing antibodies to the hemagglutinin (HA) globular head domain of the virus are virtually absent in the human population,there is interest in identifying other correlates of protection,such as cross-reactive CD8(+) T cells (cytotoxic T lymphocytes [CTLs]) elicited during seasonal influenza A virus infections. These virus-specific CD8(+) T cells are known to recognize conserved internal proteins of influenza A viruses predominantly,but it is unknown to what extent they cross-react with the newly emerging H7N9 virus. Here,we assessed the cross-reactivity of seasonal H3N2 and H1N1 and pandemic H1N1 influenza A virus-specific polyclonal CD8(+) T cells,obtained from HLA-typed study subjects,with the novel H7N9 virus. The cross-reactivity of CD8(+) T cells to H7N9 variants of known influenza A virus epitopes and H7N9 virus-infected cells was determined by their gamma interferon (IFN-γ) response and lytic activity. It was concluded that,apart from recognition of individual H7N9 variant epitopes,CD8(+) T cells to seasonal influenza viruses display considerable cross-reactivity with the novel H7N9 virus. The presence of these cross-reactive CD8(+) T cells may afford some protection against infection with the new virus.
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ClonaCell™-HY杂交瘤试剂盒
ClonaCell™-HY培养基A
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ClonaCell™-HY PEG
Zhang X et al. ( 2016)
1353 323--342
Mitochondrial Disease-Specific Induced Pluripotent Stem Cell Models: Generation and Characterization.
Mitochondrial disease is a group of disorders caused by dysfunctional mitochondria,of which the mutation in the mitochondrial DNA is one of the primary factors. However,the molecular pathogenesis of mitochondrial diseases remains poorly understood due to lack of cell models. Patient-specific induced pluripotent stem cells (iPS cells or iPSCs) are originated from individuals suffering different diseases but carrying unchanged disease causing gene. Therefore,patient-specific iPS cells can be used as excellent cell models to elucidate the mechanisms underlying mitochondrial diseases. Here we present a detailed protocol for generating iPS cells from urine cells and fibroblasts for instance,as well as a series of characterizations.
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mTeSR™1
mTeSR™1
Young ARJ et al. ( 2013)
965 1 1--13
Cell senescence as both a dynamic and a static phenotype
It has been 50 years since cellular senescence was first described in human diploid fibroblasts (HDFs),yet its mechanism as well as its physiological and clinical implications are still not fully appreciated. Recent progress suggests that cellular senescence is a collective phenotype,composed of complex networks of effector programs. The balance and quality within the effector network varies depending on the cell type,the nature of the stress as well as the context. Therefore,understanding each of these effectors in the context of the whole network will be necessary in order to fully understand senescence as a whole. Furthermore,searching for new effector programs of senescence will help to define this heterogeneous and complex phenotype according to cellular contexts.
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ClonaCell™-HY杂交瘤试剂盒
ClonaCell™-HY培养基A
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ClonaCell™-HY 培养基 E
ClonaCell™-HY PEG
ClonaCell™-TCS 培养基
ClonaCell™-CHO CD 培养基
Dye BR et al. (MAR 2015)
eLife 4 e05098
In vitro generation of human pluripotent stem cell derived lung organoids.
Recent breakthroughs in 3-dimensional (3D) organoid cultures for many organ systems have led to new physiologically complex in vitro models to study human development and disease. Here,we report the step-wise differentiation of human pluripotent stem cells (hPSCs) (embryonic and induced) into lung organoids. By manipulating developmental signaling pathways hPSCs generate ventral-anterior foregut spheroids,which are then expanded into human lung organoids (HLOs). HLOs consist of epithelial and mesenchymal compartments of the lung,organized with structural features similar to the native lung. HLOs possess upper airway-like epithelium with basal cells and immature ciliated cells surrounded by smooth muscle and myofibroblasts as well as an alveolar-like domain with appropriate cell types. Using RNA-sequencing,we show that HLOs are remarkably similar to human fetal lung based on global transcriptional profiles,suggesting that HLOs are an excellent model to study human lung development,maturation and disease.
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Durruthy-Durruthy J et al. (APR 2014)
PLoS ONE 9 4 e94231
Rapid and efficient conversion of integration-free human induced pluripotent stem cells to GMP-grade culture conditions
Data suggest that clinical applications of human induced pluripotent stem cells (hiPSCs) will be realized. Nonetheless,clinical applications will require hiPSCs that are free of exogenous DNA and that can be manufactured through Good Manufacturing Practice (GMP). Optimally,derivation of hiPSCs should be rapid and efficient in order to minimize manipulations,reduce potential for accumulation of mutations and minimize financial costs. Previous studies reported the use of modified synthetic mRNAs to reprogram fibroblasts to a pluripotent state. Here,we provide an optimized,fully chemically defined and feeder-free protocol for the derivation of hiPSCs using synthetic mRNAs. The protocol results in derivation of fully reprogrammed hiPSC lines from adult dermal fibroblasts in less than two weeks. The hiPSC lines were successfully tested for their identity,purity,stability and safety at a GMP facility and cryopreserved. To our knowledge,as a proof of principle,these are the first integration-free iPSCs lines that were reproducibly generated through synthetic mRNA reprogramming that could be putatively used for clinical purposes.
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Dispase (1 U/mL)
IV型胶原酶(1mg /mL)
mTeSR™1
mTeSR™1
Wu J et al. (JUL 2014)
PLoS ONE 9 7 e102486
Oxygen transport and stem cell aggregation in stirred-suspension bioreactor cultures
Stirred-suspension bioreactors are a promising modality for large-scale culture of 3D aggregates of pluripotent stem cells and their progeny. Yet,cells within these clusters experience limitations in the transfer of factors and particularly O2 which is characterized by low solubility in aqueous media. Cultured stem cells under different O2 levels may exhibit significantly different proliferation,viability and differentiation potential. Here,a transient diffusion-reaction model was built encompassing the size distribution and ultrastructural characteristics of embryonic stem cell (ESC) aggregates. The model was coupled to experimental data from bioreactor and static cultures for extracting the effective diffusivity and kinetics of consumption of O2 within mouse (mESC) and human ESC (hESC) clusters. Under agitation,mESC aggregates exhibited a higher maximum consumption rate than hESC aggregates. Moreover,the reaction-diffusion model was integrated with a population balance equation (PBE) for the temporal distribution of ESC clusters changing due to aggregation and cell proliferation. Hypoxia was found to be negligible for ESCs with a smaller radius than 100 µm but became appreciable for aggregates larger than 300 µm. The integrated model not only captured the O2 profile both in the bioreactor bulk and inside ESC aggregates but also led to the calculation of the duration that fractions of cells experience a certain range of O2 concentrations. The approach described in this study can be employed for gaining a deeper understanding of the effects of O2 on the physiology of stem cells organized in 3D structures. Such frameworks can be extended to encompass the spatial and temporal availability of nutrients and differentiation factors and facilitate the design and control of relevant bioprocesses for the production of stem cell therapeutics.
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Wittman VP et al. (SEP 2006)
The Journal of Immunology 177 6 4187--95
Antibody targeting to acClass I MHC-peptide epitope promotes tumor cell death
Therapeutic mAbs that target tumor-associated Ags on the surface of malignant cells have proven to be an effective and specific option for the treatment of certain cancers. However,many of these protein markers of carcinogenesis are not expressed on the cells' surface. Instead these tumor-associated Ags are processed into peptides that are presented at the cell surface,in the context of MHC class I molecules,where they become targets for T cells. To tap this vast source of tumor Ags,we generated a murine IgG2a mAb,3.2G1,endowed with TCR-like binding specificity for peptide-HLA-A*0201 (HLA-A2) complex and designated this class of Ab as TCR mimics (TCRm). The 3.2G1 TCRm recognizes the GVL peptide (GVLPALPQV) from human chorionic gonadotropin beta presented by the peptide-HLA-A*0201 complex. When used in immunofluorescent staining reactions using GVL peptide-loaded T2 cells,the 3.2G1 TCRm specifically stained the cells in a peptide and Ab concentration-dependent manner. Staining intensity correlated with the extent of cell lysis by complement-dependent cytotoxicity (CDC),and a peptide concentration-dependent threshold level existed for the CDC reaction. Staining of human tumor lines demonstrated that 3.2G1 TCRm was able to recognize endogenously processed peptide and that the breast cancer cell line MDA-MB-231 highly expressed the target epitope. The 3.2G1 TCRm-mediated CDC and Ab-dependent cellular cytotoxicity of a human breast carcinoma line in vitro and inhibited in vivo tumor implantation and growth in nude mice. These results provide validation for the development of novel TCRm therapeutic reagents that specifically target and kill tumors via recognition and binding to MHC-peptide epitopes.
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Robust pluripotent stem cell expansion and cardiomyocyte differentiation via geometric patterning
Geometric factors including the size,shape,density,and spacing of pluripotent stem cell colonies play a significant role in the maintenance of pluripotency and in cell fate determination. These factors are impossible to control using standard tissue culture methods. As such,there can be substantial batch-to-batch variability in cell line maintenance and differentiation yield. Here,we demonstrate a simple,robust technique for pluripotent stem cell expansion and cardiomyocyte differentiation by patterning cell colonies with a silicone stencil. We have observed that patterning human induced pluripotent stem cell (hiPSC) colonies improves the uniformity and repeatability of their size,density,and shape. Uniformity of colony geometry leads to improved homogeneity in the expression of pluripotency markers SSEA4 and Nanog as compared with conventional clump passaging. Patterned cell colonies are capable of undergoing directed differentiation into spontaneously beating cardiomyocyte clusters with improved yield and repeatability over unpatterned cultures seeded either as cell clumps or uniform single cell suspensions. Circular patterns result in a highly repeatable 3D ring-shaped band of cardiomyocytes which electrically couple and lead to propagating contraction waves around the ring. Because of these advantages,geometrically patterning stem cells using stencils may offer greater repeatability from batch-to-batch and person-to-person,an increase in differentiation yield,a faster experimental workflow,and a simpler protocol to communicate and follow. Furthermore,the ability to control where cardiomyocytes arise across a culture well during differentiation could greatly aid the design of electrophysiological assays for drug-screening.
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mTeSR™1
mTeSR™1
Du S-HH et al. (AUG 2015)
Journal of bioscience and bioengineering 120 2 210--217
Human iPS cell-derived fibroblast-like cells as feeder layers for iPS cell derivation and expansion
Mouse embryonic fibroblasts (MEFs) are commonly used as feeder cells for the generation of human induced pluripotent stem cells (hiPSCs). However,medical applications of cell derivatives of hiPSCs generated with a MEF feeder system run the risk of having xeno-factor contamination due to long-term cell culturing under an animal factor-containing environment. We developed a new method for the derivation of human fibroblast-like cells (FLCs) from a previously established hiPSC line in an FLC differentiation medium. The method was based on direct differentiation of hiPSCs seeded on Matrigel followed by expansion of differentiating cells on gelatin. Using inactivated FLCs as feeder layers,primary human foreskin fibroblasts were successfully reprogrammed into a state of pluripotency by Oct4,Sox2 Klf4,and c-Myc (OSKM) transcription factor genes,with a reprogramming efficiency under an optimized condition superior to that obtained on MEF feeder layers. Furthermore,the FLCs were more effective in supporting the growth of human pluripotent stem cells. The pluripotency and differentiation capability of the cells cultured on FLC feeder layers were well retained. Our results suggest that FLCs are a safe alternative to MEFs for hiPSC generation and expansion,especially in the clinical settings wherein hiPSC derivatives will be used for medical treatment.
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