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

Utilizing human pluripotent stem cells (hPSCs) in cell-based therapy and drug discovery requires large-scale cell production. However,scaling up conventional adherent cultures presents challenges of maintaining a uniform high quality at low cost. In this regard,suspension cultures are a viable alternative,because they are scalable and do not require adhesion surfaces. 3D culture systems such as bioreactors can be exploited for large-scale production. However,the limitations of current suspension culture methods include spontaneous fusion between cell aggregates and suboptimal passaging methods by dissociation and reaggregation. 3D culture systems that dynamically stir carrier beads or cell aggregates should be refined to reduce shearing forces that damage hPSCs. Here,we report a simple 3D sphere culture system that incorporates mechanical passaging and functional polymers. This setup resolves major problems associated with suspension culture methods and dynamic stirring systems and may be optimal for applications involving large-scale hPSC production. ?? 2014 The Authors. View Publication

Cost-effective,practical,and reproducible culture of human pluripotent stem cells (hPSCs) is required for basic and translational research. Basal 8 (B8) has emerged as a cost-effective solution for weekend-free and chemically-defined hPSC culture. However,the requirement to home-produce some recombinant growth factors for B8 can hinder access and reproducibility. Moreover,we found the published B8 formulation suboptimal in widely-used normoxic hPSC culture. Lastly,the performance of B8 in functional applications such as genome editing or organoid differentiation required systematic evaluation. We formulated B8 with commercially available,growth factors and adjusted its composition to support normoxic culture of WTC11 human induced pluripotent stem cell line. We compared this formulation (B8+) with commercial Essential 8 (cE8) and a home-made,weekend-free E8 formulation (hE8). We measured pluripotency marker expression and cell cycle by flow cytometry,and investigated the transcriptional profiles by bulk and single-cell RNA sequencing. We further assessed genomic stability,genome editing efficiency,single-cell cloning,and differentiation in both monolayer and organoids. Finally,we validated key findings using male (H1) and female (H9) human embryonic stem cells. hE8 performed comparably to cE8 across most functional assays and cell lines. In contrast,cells in B8+ displayed higher NANOG expression and improved genome editing efficiency. At the same time,B8+ led to gene expression changes indicative of marked lineage priming,reflected in altered morphology and differential response to some differentiation protocols. Both weekend-free media resulted in a modest transcriptional shift towards a less metabolically active state,consistent with intermittent media starvation. Homemade weekend-free media can provide a cost-effective alternative to commercial formulations. hE8,integrating some features of B8 while resembling cE8,emerges as a robust and practical option with limited compromises. B8+,though advantageous in some contexts,warrants caution due to lineage priming effects that may impact differentiation outcomes. View Publication

Metabolic studies of human embryonic stem cells (hESCs) can provide important information for stem cell bioprocessing. To this end,we have examined growth and metabolism of hESCs in both traditional 2-dimensional (2D) colony cultures and 3-dimensional microcarrier cultures using a conditioned medium and 3 serum-free media. The 2D colony cultures plateaued at cell densities of 1.1-1.5 × 10�?� cells/mL at day 6 due to surface limitation. Microcarrier cultures achieved 1.5-2 × 10�?� cells/mL on days 8-10 before reaching a plateau; this growth arrest was not due to surface limitation,but probably due to metabolic limitations. Metabolic analysis of the cultures showed that amino acids (including glutamine) and glucose are in excess and are not limiting cell growth; on the other hand,the high levels of waste products (25 mM lactate and 0.8 mM ammonium) and low pH (6.6) obtained at the last stages of cell propagation could be the causes for growth arrest. hESCs cultured in media supplemented with lactate (up to 28 mM) showed reduced cell growth,whereas ammonium (up to 5 mM) had no effect. Lactate and,to a lesser extent,ammonia affected pluripotency as reflected by the decreasing population of cells expressing pluripotent marker TRA-1-60. Feeding hESC cultures with low concentrations of glucose resulted in lower lactate levels (∼10%) and a higher pH level of 6.7,which leads to a 40% increase in cell density. We conclude that the high lactate levels and the low pH during the last stages of high-density hESC culture may limit cell growth and affect pluripotency. To overcome this limitation,a controlled feed of low levels of glucose and online control of pH can be used. View Publication