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Research Containing: Cell Adhesion/physiology

Enhanced cardiac differentiation of mouse embryonic stem cells by use of the slow-turning, lateral vessel (STLV) bioreactor

by cfynanon 9 June 2015in Biology & Biotechnology No comment

Embryoid body (EB) formation is a common intermediate during in vitro differentiation of pluripotent stem cells into specialized cell types. We have optimized the slow-turning, lateral vessel (STLV) for large scale and homogenous EB production from mouse embryonic stem cells. The effects of inoculating different cell numbers, time of EB adherence to gelatin-coated dishes, and rotation speed for optimal EB formation and cardiac differentiation were investigated. Using 3 x 10(5) cells/ml, 10 rpm rotary speed and plating of EBs onto gelatin-coated surfaces three days after culture, were the best parameters for optimal size and EB quality on consequent cardiac differentiation. These optimized parameters enrich cardiac differentiation in ES cells when using the STLV method.

Related URLs:
<Go to ISI>://WOS:000293752000009

Shear-controlled single-step mouse embryonic stem cell expansion and embryoid body-based differentiation

by cfynanon 9 June 2015in Biology & Biotechnology No comment

To facilitate the exploitation of embryonic stem cells (ESCs) and ESC-derived cells, scale-up of cell production and optimization of culture conditions are necessary. Conventional ESC culture methods are impractical for large-scale cell production and lack robust microenvironmental control. We developed two stirred-suspension culture systems for the propagation of undifferentiated ESCs – microcarrier and aggregate cultures-and compared them with tissue-culture flask and Petri dish controls. ESCs cultured on glass microcarriers had population doubling times (similar to 14 – 17 hours) comparable to tissue-culture flask controls. ESC growth could be elicited in shear-controlled stirred-suspension culture, with population doubling times ranging between 24 and 39 hours at 100 rpm impeller speed. Upon removal of leukemia inhibitory factor, the size-controlled ESC aggregates developed into embryoid bodies (EBs) capable of multilineage differentiation. A comprehensive analysis of ESC developmental potential, including flow cytometry for Oct-4, SSEA-1, and E-cadherin protein expression, reverse transcription-polymerase chain reaction for Flk-1, HNF3-beta, MHC, and Sox-1 gene expression, and EB differentiation analysis, demonstrated that the suspension-cultured ESCs retained the developmental potential of the starting cell population. Analysis of E-cadherin(-/-) and E-cadherin(+/-) cells using both systems provided insight into the mechanisms behind the role of cell aggregation control, which is fundamental to these observations. These cell-culture tools should prove useful for both the production of ESCs and ESC-derived cells and for investigations into adhesion, survival, and differentiation phenomena during ESC propagation and differentiation.

Related URLs:
<Go to ISI>://WOS:000232672700013

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  • Honeywell/Morehead-DM Payload Processor
  • Growth Rate Dispersion as a Predictive Indicator for Biological Crystal Samples
  • ARISS (Amateur Radio from ISS)
  • Project Meteor
  • Development and Deployment of Charge Injection Device Imagers
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