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

Prenatal cannabis exposure (PCE) influences human brain development,but it is challenging to model PCE using animals and current cell culture techniques. Here,we developed a one-stop microfluidic platform to assemble and culture human cerebral organoids from human embryonic stem cells (hESC) to investigate the effect of PCE on early human brain development. By incorporating perfusable culture chambers,air-liquid interface,and one-stop protocol,this microfluidic platform can simplify the fabrication procedure and produce a large number of organoids (169 organoids per 3.5 cm × 3.5 cm device area) without fusion,as compared with conventional fabrication methods. These one-stop microfluidic assembled cerebral organoids not only recapitulate early human brain structure,biology,and electrophysiology but also have minimal size variation and hypoxia. Under on-chip exposure to the psychoactive cannabinoid,$\Delta$-9-tetrahydrocannabinol (THC),cerebral organoids exhibited reduced neuronal maturation,downregulation of cannabinoid receptor type 1 (CB1) receptors,and impaired neurite outgrowth. Moreover,transient on-chip THC treatment also decreased spontaneous firing in these organoids. This one-stop microfluidic technique enables a simple,scalable,and repeatable organoid culture method that can be used not only for human brain organoids but also for many other human organoids including liver,kidney,retina,and tumor organoids. This technology could be widely used in modeling brain and other organ development,developmental disorders,developmental pharmacology and toxicology,and drug screening. View Publication

Human regulatory T (Treg) cells are essential for immune homeostasis. The transcription factor FOXP3 maintains Treg cell identity,yet the complete set of key transcription factors that control Treg cell gene expression remains unknown. Here,we used pooled and arrayed Cas9 ribonucleoprotein screens to identify transcription factors that regulate critical proteins in primary human Treg cells under basal and proinflammatory conditions. We then generated 54,424 single-cell transcriptomes from Treg cells subjected to genetic perturbations and cytokine stimulation,which revealed distinct gene networks individually regulated by FOXP3 and PRDM1,in addition to a network coregulated by FOXO1 and IRF4. We also discovered that HIVEP2,to our knowledge not previously implicated in Treg cell function,coregulates another gene network with SATB1 and is important for Treg cell-mediated immunosuppression. By integrating CRISPR screens and single-cell RNA-sequencing profiling,we have uncovered transcriptional regulators and downstream gene networks in human Treg cells that could be targeted for immunotherapies. View Publication

Differentiation of pluripotent and lineage restricted stem cells such as neural stem cells (NSCs) was studied on conducting substrates of various nature without perturbation of the genome with exogenous genetic material or chemical stimuli. Primary mouse adult neural stem cells (NSCs) and P19 pluripotent embryonal (P19 EC) carcinoma cells were used. Expression levels of neuronal markers β-III-tubulin and neurofilament were evaluated by immunochemistry and flow cytometry. It was shown that the ability of the substrate to induce differentiation directly correlated with its conductivity. Conducting substrates (conducting oxides or doped pi-conjugated organic polymers) with different morphology,structure,and conductivity mechanisms all promoted differentiation of NSC and P19 cells into neuronal lineage to a similar degree without use of additional factors such as poly-L-ornithine coating or retinoic acid,as verified by their morphology and upregulation of the neuronal markers but not astrocyte marker GFAP. However,substrates with low conductance below ca. 10(-4) S cm(-2) did not show this ability. Morphology of differentiating cells was visualized by atomic force microscopy. NSCs cells increased β-III-tubulin expression by 95% and P19 cells by over 30%. Our results suggest that the substrate conductivity is a key factor governing the cell fate. Differentiation of P19 cells into neuronal lineage on conducting substrates was attributed to downregualtion of Akt signaling pathway and increase in expression of dual oxidase 1 (DUOX 1). View Publication

Although Hodgkin and Reed-Sternberg (HRS) cells are B lymphoid cells,they are unlike any normal cells of that lineage. Moreover,the limited proliferative potential of HRS cells belies the clinical aggressiveness of Hodgkin lymphoma (HL). More than 20 years ago,the L428 HL cell line was reported to contain a small population of phenotypic B cells that appeared responsible for the continued generation of HRS cells. This observation,however,has never been corroborated,and such clonotypic B cells have never been documented in HL patients. We found that both the L428 and KM-H2 HL cell lines contained rare B-cell subpopulations responsible for the generation and maintenance of the predominant HRS cell population. The B cells within the HL cell lines expressed immunoglobulin light chain,the memory B-cell antigen CD27,and the stem cell marker aldehyde dehydrogenase (ALDH). Clonal CD27(+)ALDH(high) B cells,sharing immunoglobulin gene rearrangements with lymph node HRS cells,were also detected in the blood of most newly diagnosed HL patients regardless of stage. Although the clinical significance of circulating clonotypic B cells in HL remains unclear,these data suggest they may be the initiating cells for HL. View Publication

Unresectable metastatic bone sarcoma and soft-tissue sarcomas (STS) are incurable due to the inability to eradicate chemoresistant cancer stem-like cells (sCSC) that are likely responsible for relapses and drug resistance. In this study,we investigated the preclinical activity of patient-derived cytokine-induced killer (CIK) cells against autologous bone sarcoma and STS,including against putative sCSCs. Tumor killing was evaluated both in vitro and within an immunodeficient mouse model of autologous sarcoma. To identify putative sCSCs,autologous bone sarcoma and STS cells were engineered with a CSC detector vector encoding eGFP under the control of the human promoter for OCT4,a stem cell gene activated in putative sCSCs. Using CIK cells expanded from 21 patients,we found that CIK cells efficiently killed allogeneic and autologous sarcoma cells in vitro. Intravenous infusion of CIK cells delayed autologous tumor growth in immunodeficient mice. Further in vivo analyses established that CIK cells could infiltrate tumors and that tumor growth inhibition occurred without an enrichment of sCSCs relative to control-treated animals. These results provide preclinical proof-of-concept for an effective strategy to attack autologous sarcomas,including putative sCSCs,supporting the clinical development of CIK cells as a novel class of immunotherapy for use in settings of untreatable metastatic disease. View Publication

Airway epithelial mucus hypersecretion and mucus plugging are prominent pathologic features of chronic inflammatory conditions of the airway (e.g. asthma and cystic fibrosis) and in most of these conditions,women have worse prognosis compared with male patients. We thus investigated the effects of estradiol on mucus expression in primary normal human bronchial epithelial cells from female donors grown at an air liquid interface (ALI). Treatment with estradiol in physiological ranges for 2 weeks caused a concentration-dependent increase in the number of PAS-positive cells (confirmed to be goblet cells by MUC5AC immunostaining) in ALI cultures,and this action was attenuated by estrogen receptor beta (ER-$$) antagonist. Protein microarray data showed that nuclear factor of activated T-cell (NFAT) in the nuclear fraction of NHBE cells was increased with estradiol treatment. Estradiol increased NFATc1 mRNA and protein in ALI cultures. In a human airway epithelial (1HAE0) cell line,NFATc1 was required for the regulation of MUC5AC mRNA and protein. Estradiol also induced post-translational modification of mucins by increasing total fucose residues and fucosyltransferase (FUT-4,-5,-6) mRNA expression. Together,these data indicate a novel mechanism by which estradiol increases mucus synthesis in the human bronchial epithelium. View Publication

BACKGROUND Tumor cells present high levels of oxidative stress. Cancer therapeutics exploiting such biochemical changes by increasing reactive oxygen species (ROS) production or decreasing intracellular ROS scavengers could provide a powerful treatment strategy. METHODS To test the effect of our compound,obtusaquinone (OBT),we used several cell viability assays on seven different glioblastoma (GBM) cell lines and primary cells and on 12 different cell lines representing various cancer types in culture as well as on subcutaneous (n = 7 mice per group) and two intracranial GBM (n = 6-8 mice per group) and breast cancer (n = 6 mice per group) tumor models in vivo. Immunoblotting,immunostaining,flow cytometry,and biochemical assays were used to investigate the OBT mechanism of action. Histopathological analysis (n = 2 mice per group) and blood chemistry (n = 2 mice per group) were used to test for any compound-related toxicity. Statistical tests were two-sided. RESULTS OBT induced rapid increase in intracellular ROS levels,downregulation of cellular glutathione levels and increase in its oxidized form,and activation of cellular stress pathways and DNA damage,subsequently leading to apoptosis. Oxidative stress is believed to be the main mechanism through which this compounds targets cancer cells. OBT was well tolerated in mice,slowed tumor growth,and statistically prolonged survival in GBM tumor models. The ratio of median survival in U251 intracranial model in OBT vs control was 1.367 (95% confidence interval [CI] of ratio = 1.031 to 1.367,P = .008). Tumor growth inhibition was also observed in a mouse breast cancer model (average tumor volume per mouse,OBT vs control: 36.3 vs 200.4mm(3),difference = 164.1mm(3),95% CI =72.6 to 255.6mm(3),P = .005). CONCLUSIONS Given its properties and efficacy in cancer killing,our results suggest that OBT is a promising cancer therapeutic. View Publication

The role of tumor stem cells in benign tumors such as pituitary adenomas remains unclear. In this study,we investigated whether the cells within pituitary adenomas that spontaneously develop in Rb+/- mice are hierarchically distributed with a subset being responsible for tumor growth. Cells derived directly from such tumors grew as spheres in serum-free culture medium supplemented with epidermal growth factor and basic fibroblast growth factor. Some cells within growing pituitary tumor spheres (PTS) expressed common stem cell markers (Sca1,Sox2,Nestin,and CD133),but were devoid of hormone-positive differentiated cells. Under subsequent differentiating conditions (matrigel-coated growth surface),PTS expressed all six pituitary hormones. We next searched for specific markers of the stem cell population and isolated a Sca1(+) cell population that showed increased sphere formation potential,lower mRNA hormone expression,higher expression of stem cell markers (Notch1,Sox2,and Nestin),and increased proliferation rates. When transplanted into non-obese diabetic-severe combined immunodeficiency gamma mice brains,Sca1(+) pituitary tumor cells exhibited higher rates of tumor formation (brain tumors observed in 11/11 (100%) vs 7/12 (54%) of mice transplanted with Sca1(+) and Sca1(-) cells respectively). Magnetic resonance imaging and histological analysis of brain tumors showed that tumors derived from Sca1(+) pituitary tumor cells were also larger and plurihormonal. Our findings show that Sca1(+) cells derived from benign pituitary tumors exhibit an undifferentiated expression profile and tumor-proliferative advantages,and we propose that they could represent putative pituitary tumor stem/progenitor cells. View Publication