Journal
BIOTECHNOLOGY AND BIOENGINEERING
Volume 102, Issue 2, Pages 493-507Publisher
WILEY
DOI: 10.1002/bit.22065
Keywords
human embryonic stem cells; embryoid bodies; bioreactor; hypoxia; micropatterning; cardiomyocytes
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Funding
- Heart and Stroke Foundation of Ontario
- CHIR
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The ability to generate human pluripotent stein cell-derived cell types at sufficiently high numbers and in a reproducible manner is fundamental for clinical and biopharmaceutical applications. Current experimental methods for the differentiation of pluripotent cells such as human embryonic stem cells (hESC) rely on the generation of heterogeneous aggregates of cells, also called embryoid bodies (EBs), in small scale static culture. These protocols are typically (1) not scalable, (2) result in a wide range of EB sizes and (3) expose cells to fluctuations in physicochemical parameters, With the goal of establishing a robust bioprocess we first screened different scalable suspension systems for their ability to support the growth and differentiation of hESCs. Next homogeneity of initial cell aggregates was improved by employing a micro-printing strategy to generate large numbers of size-specified hESC aggregates. Finally, these technologies were integrated into a fully controlled bioreactor system and the impact of oxygen concentration was investigated. Our results demonstrate the beneficial effects of stirred bioreactor culture, aggregate size-control and hypoxia (4% oxygen tension) on both cell growth and cell differentiation towards cardiomyocytes. QRT-PCR data for markers such as Brachyury, LIM domain homeobox gene Isl-1, Troponin T and Myosin Light Chain 2v, as well as immunohistochemistry and functional analysis by response to chronotropic agents, documented the impact of these parameters oil cardiac differentiation. This study provides an important foundation towards the robust generation of clinically relevant numbers of hESC derived cells.
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