搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

Although we previously reported the development of cell-dense thickened cardiac tissue by repeated transplantation-based vascularization of neonatal rat cardiac cell sheets,the cell sources for human cardiac cells sheets and their functions have not been fully elucidated. In this study,we developed a bioreactor to expand and induce cardiac differentiation of human induced pluripotent stem cells (hiPSCs). Bioreactor culture for 14 days produced around 8×10(7) cells/100 ml vessel and about 80% of cells were positive for cardiac troponin T. After cardiac differentiation,cardiomyocytes were cultured on temperature-responsive culture dishes and showed spontaneous and synchronous beating,even after cell sheets were detached from culture dishes. Furthermore,extracellular action potential propagation was observed between cell sheets when two cardiac cell sheets were partially overlaid. These findings suggest that cardiac cell sheets formed by hiPSC-derived cardiomyocytes might have sufficient properties for the creation of thickened cardiac tissue. View Publication

Tumor-initiating cells (TICs) are a sub-population of cells that exhibit a robust ability to self-renew and contribute to the formation of primary tumors,the relapse of previously treated tumors and the development of metastases. TICs have been identified in various tumors including those of the breast,and are particularly enriched in the basal-like and claudin-low subtypes of breast cancer. The signaling pathways that contribute to the function and maintenance of TICs are under intense study. We explored the potential involvement of the nuclear factor-$$B (NF-$$B) family of transcription factors in TICs in cell lines that are representative of basal-like and claudin-low breast cancer. NF-$$B was found to be activated in breast cancer cells that form tumorspheres efficiently. Moreover,both canonical and non-canonical NF-$$B signaling is required for these cells to self-renew in vitro and to form xenograft tumors efficiently in vivo using limiting dilutions of cells. Consistent with this fact,canonical and non-canonical NF-$$B signaling is activated in TICs isolated from breast cancer cell lines. Experimental results indicate that NF-$$B promotes the function of TICs by stimulating epithelial-to-mesenchymal transition and by upregulating the expression of the inflammatory cytokines interleukin-1$$ and interleukin-6. The results suggest the use of NF-$$B inhibitors for clinical therapy of certain breast cancers. View Publication

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. View Publication

Tumor cells have the ability to invade and form small clusters that protrude into adjacent tissues,a phenomenon that is frequently observed at the periphery of a tumor as it expands into healthy tissues. The presence of these clusters is linked to poor prognosis and has proven challenging to treat using conventional therapies. We previously reported that p60AmotL2 expression is localized to invasive colon and breast cancer cells. In vitro,p60AmotL2 promotes epithelial cell invasion by negatively impacting E-cadherin/AmotL2-related mechanotransduction. Using epithelial cells transfected with inducible p60AmotL2,we employed a phenotypic drug screening approach to find compounds that specifically target invasive cells. The phenotypic screen was performed by treating cells for 72 h with a library of compounds with known antitumor activities in a dose-dependent manner. After assessing cell viability using CellTiter-Glo,drug sensitivity scores for each compound were calculated. Candidate hit compounds with a higher drug sensitivity score for p60AmotL2-expressing cells were then validated on lung and colon cell models,both in 2D and in 3D,and on colon cancer patient-derived organoids. Nascent RNA sequencing was performed after BET inhibition to analyse BET-dependent pathways in p60AmotL2-expressing cells. We identified 60 compounds that selectively targeted p60AmotL2-expressing cells. Intriguingly,these compounds were classified into two major categories: Epidermal Growth Factor Receptor (EGFR) inhibitors and Bromodomain and Extra-Terminal motif (BET) inhibitors. The latter consistently demonstrated antitumor activity in human cancer cell models,as well as in organoids derived from colon cancer patients. BET inhibition led to a shift towards the upregulation of pro-apoptotic pathways specifically in p60AmotL2-expressing cells. BET inhibitors specifically target p60AmotL2-expressing invasive cancer cells,likely by exploiting differences in chromatin accessibility,leading to cell death. Additionally,our findings support the use of this phenotypic strategy to discover novel compounds that can exploit vulnerabilities and specifically target invasive cancer cells. The online version contains supplementary material available at 10.1186/s13046-024-03031-w. View Publication

As autologous induced pluripotent stem cell (iPSC) therapy requires a custom-made small-lot cell production line,and the cell production method differs significantly from the existing processes for producing allogeneic iPSC stocks for clinical use. Specifically,mass culture to produce stock is no longer necessary; instead,a series of operations from iPSC production to induction of differentiation of therapeutic cells must be performed continuously. A three-dimensional (3D) culture method using small,closed-cell manufacturing devices is suitable for autologous iPSC therapy. The use of such devices avoids the need to handle many patient-derived specimens in a single clean room; handling of cell cultures in an open system in a cell processing facility increases the risk of infection. In this study,atelocollagen beads were evaluated as a 3D biomaterial to assist 3D culture in the establishment,expansion culture,and induction of differentiation of iPSCs. It was found that iPSCs can be handled in a closed-cell device with the same ease as use of a two-dimensional (2D) culture when laminin-511 is added to the medium. In conclusion,atelocollagen beads enable 3D culture of iPSCs,and the quality of the obtained cells is at the same level as those derived from 2D culture. View Publication

In Multiple Sclerosis (MS),inflammatory demyelinated lesions in the brain and spinal cord lead to neurodegeneration and progressive disability. Remyelination can restore fast saltatory conduction and neuroprotection but is inefficient in MS especially with increasing age,and is not yet treatable with therapies. Intrinsic and extrinsic inhibition of oligodendrocyte progenitor cell (OPC) function contributes to remyelination failure,and we hypothesised that the transplantation of ‘improved’ OPCs,genetically edited to overcome these obstacles,could improve remyelination. Here,we edit human(h) embryonic stem cell-derived OPCs to be unresponsive to a chemorepellent released from chronic MS lesions,and transplant them into rodent models of chronic lesions. Edited hOPCs display enhanced migration and remyelination compared to controls,regardless of the host age and length of time post-transplant. We show that genetic manipulation and transplantation of hOPCs overcomes the negative environment inhibiting remyelination,with translational implications for therapeutic strategies for people with progressive MS. Subject terms: Multiple sclerosis,Multiple sclerosis,Regeneration View Publication

BACKGROUND: Conventional regulatory T cells (Tregs) can suppress human immunodeficiency virus type 1 (HIV-1)-specific immune responses but cannot control immune activation in primary HIV infection. Here,we characterized Treg subsets,using recently defined phenotypic delineation,and analyzed the relative contribution of cell subsets to the production of immunosuppressive cytokines in primary HIV infection. METHODS: In a longitudinal prospective study,ex vivo phenotyping of fresh peripheral blood mononuclear cells from patients with primary HIV infection was performed at baseline and month 6 of follow-up to characterize Treg subsets,immune activation,and cytokine production in isolated CD4(+) T cells. RESULTS: The frequency of CD4(+)CD25(+)CD127(low) Tregs and the distribution between the naive,memory,and activated/memory Treg subsets was similar in patients and healthy donors. However,Tregs from patients with primary HIV infection showed peculiar phenotypic profiles,such as elevated FoxP3,ICOS,and CTLA-4 expression,with CTLA-4 expression strikingly increased in all Treg subsets both at baseline and month 6 of follow-up. The great majority of interleukin 10 (IL-10)-producing CD4(+) T cells were FoxP3(neg) (ie,Tr1-like cells). In contrast to conventional Tregs,Tr1-like cells were inversely correlated with immune activation and not associated with lower effector T-cell responses. CONCLUSION: FoxP3(neg) Tr1-like cells-major contributors to IL-10 production-may have a beneficial role by controlling immune activation in early HIV infection. View Publication

The larval stage of the helminthic cestode Echinococcus multilocularis can inflict tumor-like hepatic lesions that cause the parasitic disease alveolar echinococcosis in humans,with high mortality in untreated patients. Opportunistic properties of the disease have been established based on the increased incidence in immunocompromised patients and mouse models,indicating that an appropriate adaptive immune response is required for the control of the disease. However,cellular interactions and the kinetics of the local hepatic immune responses during the different stages of infection with E. multilocularis remain unknown. In a mouse model of oral infection that mimics the normal infection route in human patients,the networks of the hepatic immune response were assessed using single-cell RNA sequencing (scRNA-seq) of isolated hepatic CD3+ T cells at different infection stages. We observed an early and sustained significant increase in natural killer T (NKT) cells and regulatory T cells (Tregs). Early tumor necrosis factor (TNF)- and integrin-dependent interactions between these two cell types promote the formation of hepatic lesions. At late time points,downregulation of programmed cell death protein 1 (PD-1) and ectonucleoside triphosphate diphosphohydrolase 1 (ENTPD1)-dependent signaling suppress the resolution of parasite-induced pathology. The obtained data provide fresh insight into the adaptive immune responses and local regulatory pathways at different infection stages of E. multilocularis in mice. View Publication

Identification of agents that target human leukemia stem cells is an important consideration for the development of new therapies. The present study demonstrates that rocaglamide and silvestrol,closely related natural products from the flavagline class of compounds,are able to preferentially kill functionally defined leukemia stem cells,while sparing normal stem and progenitor cells. In addition to efficacy as single agents,flavaglines sensitize leukemia cells to several anticancer compounds,including front-line chemotherapeutic drugs used to treat leukemia patients. Mechanistic studies indicate that flavaglines strongly inhibit protein synthesis,leading to the reduction of short-lived antiapoptotic proteins. Notably though,treatment with flavaglines,alone or in combination with other drugs,yields a much stronger cytotoxic activity toward leukemia cells than the translational inhibitor temsirolimus. These results indicate that the underlying cell death mechanism of flavaglines is more complex than simply inhibiting general protein translation. Global gene expression profiling and cell biological assays identified Myc inhibition and the disruption of mitochondrial integrity to be features of flavaglines,which we propose contribute to their efficacy in targeting leukemia cells. Taken together,these findings indicate that rocaglamide and silvestrol are distinct from clinically available translational inhibitors and represent promising candidates for the treatment of leukemia. View Publication

Schizophrenia has been considered a devastating clinical syndrome rather than a single disease. Nevertheless,the mechanisms behind the onset of schizophrenia have been only partially elucidated. Several studies propose that levels of trace elements are abnormal in schizophrenia; however,conflicting data generated from different biological sources prevent conclusions being drawn. In this work,we used synchrotron radiation X-ray microfluorescence spectroscopy to compare trace element levels in neural progenitor cells (NPCs) derived from two clones of induced pluripotent stem cell lines of a clozapine-resistant schizophrenic patient and two controls. Our data reveal the presence of elevated levels of potassium and zinc in schizophrenic NPCs. Neural cells treated with valproate,an adjunctive medication for schizophrenia,brought potassium and zinc content back to control levels. These results expand the understanding of atomic element imbalance related to schizophrenia and may provide novel insights for the screening of drugs to treat mental disorders. ?? 2014 Elsevier B.V. View Publication