Lie K-HH et al. (JAN 2012)
Methods in molecular biology (Clifton,N.J.) 873 237--246
Derivation, propagation, and characterization of neuroprogenitors from pluripotent stem cells (hESCs and hiPSCs).
The differentiation of human embryonic stem cells (hESCs) and human-induced pluripotent stem cells (hiPSCs) towards functional neurons particularly hold great potential for the cell-based replacement therapy in neurodegenerative diseases. Here,we describe a stepwise differentiation protocol that mimics the early stage of neural development in human to promote the generation of neuroprogenitors at a high yield. Both the hESCs and hiPSCs are initially cultured in an optimized feeder-free condition,which offer an efficient formation of aggregates. To specify the neuroectodermal specification,these aggregates are differentiated in a defined neural induction medium to develop into neural rosettes-like structures. The rosettes are expanded into free-floating sphere and can be further propagated or developed into variety of neuronal subtypes.
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产品类型:
产品号#:
05850
05857
05870
05875
07913
85850
85857
85870
85875
产品名:
Dispase(5 U/mL)
mTeSR™1
mTeSR™1
Won K-JJ et al. (SEP 2012)
Nucleic Acids Research 40 17 8199--8209
Global identification of transcriptional regulators of pluripotency and differentiation in embryonic stem cells.
Human embryonic stem cells (hESCs) hold great promise for regenerative medicine because they can undergo unlimited self-renewal and retain the capability to differentiate into all cell types in the body. Although numerous genes/proteins such as Oct4 and Gata6 have been identified to play critical regulatory roles in self-renewal and differentiation of hESC,the majority of the regulators in these cellular processes and more importantly how these regulators co-operate with each other and/or with epigenetic modifications are still largely unknown. We propose here a systematic approach to integrate genomic and epigenomic data for identification of direct regulatory interactions. This approach allows reconstruction of cell-type-specific transcription networks in embryonic stem cells (ESCs) and fibroblasts at an unprecedented scale. Many links in the reconstructed networks coincide with known regulatory interactions or literature evidence. Systems-level analyses of these networks not only uncover novel regulators for pluripotency and differentiation,but also reveal extensive interplays between transcription factor binding and epigenetic modifications. Especially,we observed poised enhancers characterized by both active (H3K4me1) and repressive (H3K27me3) histone marks that contain enriched Oct4- and Suz12-binding sites. The success of such a systems biology approach is further supported by experimental validation of the predicted interactions.
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产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
Ruiz S et al. (NOV 2012)
Journal of Biological Chemistry 287 48 40767--40778
Generation of a drug-inducible reporter system to study cell reprogramming in human cells
BACKGROUND Strategies on the basis of doxycycline-inducible lentiviruses in mouse cells allowed the examination of mechanisms governing somatic cell reprogramming. RESULTS Using a doxycycline-inducible human reprogramming system,we identified unreported miRs enhancing reprogramming efficiency. CONCLUSION We generated a drug-inducible human reprogramming reporter system as an invaluable tool for genetic or chemical screenings. SIGNIFICANCE These cellular systems provide a tool to enable the advancement of reprogramming technologies in human cells. Reprogramming of somatic cells into induced pluripotent stem cells is achieved by the expression of defined transcription factors. In the last few years,reprogramming strategies on the basis of doxycycline-inducible lentiviruses in mouse cells became highly powerful for screening purposes when the expression of a GFP gene,driven by the reactivation of endogenous stem cell specific promoters,was used as a reprogramming reporter signal. However,similar reporter systems in human cells have not been generated. Here,we describe the derivation of drug-inducible human fibroblast-like cell lines that express different subsets of reprogramming factors containing a GFP gene under the expression of the endogenous OCT4 promoter. These cell lines can be used to screen functional substitutes for reprogramming factors or modifiers of reprogramming efficiency. As a proof of principle of this system,we performed a screening of a library of pluripotent-enriched microRNAs and identified hsa-miR-519a as a novel inducer of reprogramming efficiency.
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产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
K. M. Valentine et al. (JUL 2018)
Journal of immunology (Baltimore,Md. : 1950) 201 1 31--40
CD8 Follicular T Cells Promote B Cell Antibody Class Switch in Autoimmune Disease.
CD8 T cells can play both a protective and pathogenic role in inflammation and autoimmune development. Recent studies have highlighted the ability of CD8 T cells to function as T follicular helper (Tfh) cells in the germinal center in the context of infection. However,whether this phenomenon occurs in autoimmunity and contributes to autoimmune pathogenesis is largely unexplored. In this study,we show that CD8 T cells acquire a CD4 Tfh profile in the absence of functional regulatory T cells in both the IL-2-deficient and scurfy mouse models. Depletion of CD8 T cells mitigates autoimmune pathogenesis in IL-2-deficient mice. CD8 T cells express the B cell follicle-localizing chemokine receptor CXCR5,a principal Tfh transcription factor Bcl6,and the Tfh effector cytokine IL-21. CD8 T cells localize to the B cell follicle,express B cell costimulatory proteins,and promote B cell differentiation and Ab isotype class switching. These data reveal a novel contribution of autoreactive CD8 T cells to autoimmune disease,in part,through CD4 follicular-like differentiation and functionality.
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产品类型:
产品号#:
18554
18554RF
18564
18564RF
产品名:
J. M. Munck et al. (AUG 2012)
Molecular cancer therapeutics 11 8 1789--98
Chemosensitization of cancer cells by KU-0060648, a dual inhibitor of DNA-PK and PI-3K.
DNA double-strand breaks (DSB) are the most cytotoxic lesions induced by topoisomerase II poisons. Nonhomologous end joining (NHEJ) is a major pathway for DSB repair and requires DNA-dependent protein kinase (DNA-PK) activity. DNA-PK catalytic subunit (DNA-PKcs) is structurally similar to PI-3K,which promotes cell survival and proliferation and is upregulated in many cancers. KU-0060648 is a dual inhibitor of DNA-PK and PI-3K in vitro. KU-0060648 was investigated in a panel of human breast and colon cancer cells. The compound inhibited cellular DNA-PK autophosphorylation with IC(50) values of 0.019 $\mu$mol/L (MCF7 cells) and 0.17 $\mu$mol/L (SW620 cells),and PI-3K-mediated AKT phosphorylation with IC(50) values of 0.039 $\mu$mol/L (MCF7 cells) and more than 10 $\mu$mol/L (SW620 cells). Five-day exposure to 1 $\mu$mol/L KU-0060648 inhibited cell proliferation by more than 95{\%} in MCF7 cells but only by 55{\%} in SW620 cells. In clonogenic survival assays,KU-0060648 increased the cytotoxicity of etoposide and doxorubicin across the panel of DNA-PKcs-proficient cells,but not in DNA-PKcs-deficient cells,thus confirming that enhanced cytotoxicity was due to DNA-PK inhibition. In mice bearing SW620 and MCF7 xenografts,concentrations of KU-0060648 that were sufficient for in vitro growth inhibition and chemosensitization were maintained within the tumor for at least 4 hours at nontoxic doses. KU-0060648 alone delayed the growth of MCF7 xenografts and increased etoposide-induced tumor growth delay in both in SW620 and MCF7 xenografts by up to 4.5-fold,without exacerbating etoposide toxicity to unacceptable levels. The proof-of-principle in vitro and in vivo chemosensitization with KU-0060648 justifies further evaluation of dual DNA-PK and PI-3K inhibitors.
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产品名:
D. M. Previte et al. (apr 2019)
Cell reports 27 1 129--141.e4
Lymphocyte Activation Gene-3 Maintains Mitochondrial and Metabolic Quiescence in Naive CD4+ T Cells.
Lymphocyte activation gene-3 (LAG-3) is an inhibitory receptor expressed by CD4+ T cells and tempers their homeostatic expansion. Because CD4+ T cell proliferation is tightly coupled to bioenergetics,we investigate the role of LAG-3 in modulating naive CD4+ T cell metabolism. LAG-3 deficiency enhances the metabolic profile of naive CD4+ T cells by elevating levels of mitochondrial biogenesis. In vivo,LAG-3 blockade partially restores expansion and the metabolic phenotype of wild-type CD4+ T cells to levels of Lag3-/- CD4+ T cells,solidifying that LAG-3 controls these processes. Lag3-/- CD4+ T cells also demonstrate greater signal transducer and activator of transcription 5 (STAT5) activation,enabling resistance to interleukin-7 (IL-7) deprivation. These results implicate this pathway as a target of LAG-3-mediated inhibition. Additionally,enhancement of STAT5 activation,as a result of LAG-3 deficiency,contributes to greater activation potential in these cells. These results identify an additional mode of regulation elicited by LAG-3 in controlling CD4+ T cell responses.
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产品类型:
产品号#:
19852
19852RF
产品名:
EasySep™小鼠CD4+ T细胞分选试剂盒
RoboSep™ 小鼠CD4+ T细胞分选试剂盒
J. Tan et al. (Apr 2024)
The EMBO Journal 43 11
Limited oxygen in standard cell culture alters metabolism and function of differentiated cells
The in vitro oxygen microenvironment profoundly affects the capacity of cell cultures to model physiological and pathophysiological states. Cell culture is often considered to be hyperoxic,but pericellular oxygen levels,which are affected by oxygen diffusivity and consumption,are rarely reported. Here,we provide evidence that several cell types in culture actually experience local hypoxia,with important implications for cell metabolism and function. We focused initially on adipocytes,as adipose tissue hypoxia is frequently observed in obesity and precedes diminished adipocyte function. Under standard conditions,cultured adipocytes are highly glycolytic and exhibit a transcriptional profile indicative of physiological hypoxia. Increasing pericellular oxygen diverted glucose flux toward mitochondria,lowered HIF1α activity,and resulted in widespread transcriptional rewiring. Functionally,adipocytes increased adipokine secretion and sensitivity to insulin and lipolytic stimuli,recapitulating a healthier adipocyte model. The functional benefits of increasing pericellular oxygen were also observed in macrophages,hPSC-derived hepatocytes and cardiac organoids. Our findings demonstrate that oxygen is limiting in many terminally-differentiated cell types,and that considering pericellular oxygen improves the quality,reproducibility and translatability of culture models.
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产品类型:
产品号#:
05790
100-0483
100-0484
产品名:
BrainPhys™神经元培养基
Hausser Scientificᵀᴹ 明线血球计数板
ReLeSR™
K. M. Chen et al. (Apr 2024)
Frontiers in Immunology 15
Targeting PD-L1 in solid cancer with myeloid cells expressing a CAR-like immune receptor
Solid cancers Myeloid cells are prevalent in solid cancers,but they frequently exhibit an anti-inflammatory pro-tumor phenotype that contribute to the immunosuppressive tumor microenvironment (TME),which hinders the effectiveness of cancer immunotherapies. Myeloid cells’ natural ability of tumor trafficking makes engineered myeloid cell therapy an intriguing approach to tackle the challenges posed by solid cancers,including tumor infiltration,tumor cell heterogenicity and the immunosuppressive TME. One such engineering approach is to target the checkpoint molecule PD-L1,which is often upregulated by solid cancers to evade immune responses. Here we devised an adoptive cell therapy strategy based on myeloid cells expressing a Chimeric Antigen Receptor (CAR)-like immune receptor (CARIR). The extracellular domain of CARIR is derived from the natural inhibitory receptor PD-1,while the intracellular domain(s) are derived from CD40 and/or CD3ζ. To assess the efficacy of CARIR-engineered myeloid cells,we conducted proof-of-principle experiments using co-culture and flow cytometry-based phagocytosis assays in vitro. Additionally,we employed a fully immune-competent syngeneic tumor mouse model to evaluate the strategy’s effectiveness in vivo. Co-culturing CARIR-expressing human monocytic THP-1 cells with PD-L1 expressing target cells lead to upregulation of the costimulatory molecule CD86 along with expression of proinflammatory cytokines TNF-1α and IL-1β. Moreover,CARIR expression significantly enhanced phagocytosis of multiple PD-L1 expressing cancer cell lines in vitro. Similar outcomes were observed with CARIR-expressing human primary macrophages. In experiments conducted in syngeneic BALB/c mice bearing 4T1 mammary tumors,infusing murine myeloid cells that express a murine version of CARIR significantly slowed tumor growth and prolonged survival. Taken together,these results demonstrate that adoptive transfer of PD-1 CARIR-engineered myeloid cells represents a promising strategy for treating PD-L1 positive solid cancers.
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产品类型:
产品号#:
09600
09605
09650
09655
产品名:
StemSpan™ SFEM
StemSpan™ SFEM II
StemSpan™ SFEM
StemSpan™ SFEM II
M. A. Teale et al. (Feb 2025)
Applied Microbiology and Biotechnology 109 1
Expansion of induced pluripotent stem cells under consideration of bioengineering aspects: part 2
The manufacturing of allogeneic cell therapeutics based on human-induced pluripotent stem cells (hiPSCs) holds considerable potential to revolutionize the accessibility and affordability of modern healthcare. However,achieving the cell yields necessary to ensure robust production hinges on identifying suitable and scalable single-use (SU) bioreactor systems. While specific stirred SU bioreactor types have demonstrated proficiency in supporting hiPSC expansion at L -scale,others,notably instrumented SU multiplate and fixed-bed bioreactors,remain relatively unexplored. By characterizing these bioreactors using both computational fluid dynamics and experimental bioengineering methods,operating ranges were identified for the Xpansion ® 10 and Ascent™ 1 m 2 bioreactors in which satisfactory hiPSC expansion under serum-free conditions was achieved. These operating ranges were shown not only to effectively limit cell exposure to wall shear stress but also facilitated sufficient oxygen transfer and mixing. Through their application,almost 5 × 10 9 viable cells could be produced within 5 days,achieving expansion factors of up to 35 without discernable impact on cell viability,identity,or differentiation potential. Key Points • Bioengineering characterizations allowed the identification of operating ranges that supported satisfactory hiPSC expansion • Both the Xpansion ® 10 multiplate and Ascent™ 1 m 2 fixed-bed reactor accommodated the production of almost 5 × 10 9 viable cells within 5 days • Exposing the hiPSCs to a median wall shear stress of up to 8.2 × 10 −5 N cm −2 did not impair quality The online version contains supplementary material available at 10.1007/s00253-024-13373-2.
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产品类型:
产品号#:
05230
产品名:
STEMdiff™ 三胚层分化试剂盒
H. Q. Marcarian et al. (May 2025)
PLOS One 20 5
Renal cancer cells acquire immune surface protein through trogocytosis and horizontal gene transfer
Trogocytosis is an underappreciated phenomenon that shapes the immune microenvironment surrounding many types of solid tumors. The consequences of membrane-bound proteins being deposited from a donor immune cell to a recipient cancer cell via trogocytosis are still unclear. Here,we report that human clear cell renal carcinoma tumors stably express the lymphoid markers CD45,CD56,CD14,and CD16. Flow cytometry performed on fresh kidney tumors revealed consistent CD45 expression on tumor cells,as well as varying levels of the other markers mentioned previously. These results were consistent with our immunofluorescent analysis,which also revealed colocalization of lymphoid markers with carbonic anhydrase 9,a standard kidney tumor marker. RNA analysis showed a significant upregulation of genes typically associated with immune cells by tumor cells. Finally,we show evidence of chromosomal DNA being transferred from immune cells to tumor cells through physical contact. This horizontal gene transfer has transcriptional consequences in the recipient tumor cell,resulting in a fusion phenotype that expresses both immune and cancer specific proteins. This work demonstrates a novel mechanism by which tumor cell protein expression is altered through the acquisition of surface membrane fragments and genomic DNA from infiltrating lymphocytes. These results alter the way in which we understand tumor-immune cell interactions and may reveal new insights into the mechanisms by which tumors develop. Additionally,further studies into trogocytosis and other mechanisms of contact-mediated cellular transfer will help push the field towards the next generation of immunotherapies and biomarkers for treating renal cell carcinoma and other cancers.
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产品类型:
产品号#:
100-0785
10970
10990
产品名:
ImmunoCult™ 人CD3/CD28/CD2 T细胞激活剂
ImmunoCult™ 人CD3/CD28/CD2 T细胞激活剂
ImmunoCult™ 人CD3/CD28/CD2 T细胞激活剂
T. Yoshino et al. (Jun 2025)
Engineering in Life Sciences 25 6
Rapid Recovery and Short‐Term Culture of Gastric Circulating Tumor Cells Using Microcavity Array
Circulating tumor cells (CTCs) hold significant promise for cancer diagnosis,prognosis,and treatment monitoring. We previously developed a technique for a single‐cell filtering device known as the microcavity array (MCA),specifically designed for the efficient recovery of CTCs from whole blood samples. Efficient enrichment and release of cells from the MCA remains challenging because of cell adhesion that occurs on the MCA surface during the enrichment phase. This study investigated the effects of surface modification with 2‐methacryloyloxyethyl phosphorylcholine (MPC) on the recovery efficiency of cancer cell lines from MCA. Scanning electron microscope (SEM) demonstrated reduced cell‐substrate interactions,leading to improved recovery efficiency. Comparative analyses showed that the MCA method provided superior recovery efficiency and reduced processing time compared to traditional methods such as density gradient centrifugation (DGC),while maintaining cell viability and proliferative capacity. CTCs were successfully detected in patients with gastric cancer,and short‐term cultures were achieved even when fewer than 20 CTCs per milliliter of blood were isolated. These findings emphasize the importance of surface modification for enhancing CTC isolation and the need for optimized culture conditions. The optimized MCA method offers a promising approach for rapid CTC recovery and potential integration with automated systems. Practical application : The Microcavity array (MCA) is a device specifically designed for efficient recovery of CTCs from whole blood. However cell adhesion on the MCA surface can limit release efficiency. This study demonstrated that surface modification with MPC signigicantly reduces cell‐substrate adhesion,improving recovery efficiency while maintaining cell viability and proliferative capacity. Compared to traditional density gradient centrifugation,the MPC‐modified MCA offers shorter processing time and better performance. CTCs were successfully detected in gastric cancer,and short‐term cultures were achieved even when fewer than 20 CTCs per mL of blood were isolated. The method supports downstearm applications such as cancer cell characterization and treatment monitoring. With potential for integration into automated system,the optimized MCA provides a practical,scalable solution for clinical liquid biopsy and personalized oncology.
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产品类型:
产品号#:
15122
15162
产品名:
RosetteSep™人CD45去除抗体混合物
RosetteSep™人CD45去除抗体混合物
X. Liu et al. ( 2017)
Nature Protocols 12 2 439--451
Conditional reprogramming and long-term expansion of normal and tumor cells from human biospecimens
Historically,it has been difficult to propagate cells in vitro that are derived directly from human tumors or healthy tissue. However,in vitro preclinical models are essential tools for both the study of basic cancer biology and the promotion of translational research,including drug discovery and drug target identification. This protocol describes conditional reprogramming (CR),which involves coculture of irradiated mouse fibroblast feeder cells with normal and tumor human epithelial cells in the presence of a Rho kinase inhibitor (Y-27632). CR cells can be used for various applications,including regenerative medicine,drug sensitivity testing,gene expression profiling and xenograft studies. The method requires a pathologist to differentiate healthy tissue from tumor tissue,and basic tissue culture skills. The protocol can be used with cells derived from both fresh and cryopreserved tissue samples. As approximately 1 million cells can be generated in 7 d,the technique is directly applicable to diagnostic and predictive medicine. Moreover,the epithelial cells can be propagated indefinitely in vitro,yet retain the capacity to become fully differentiated when placed into conditions that mimic their natural environment.
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