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Author Notes:

Correspondence: todd.mcdevitt@bme.gatech.edu

Brachury-T GFP cells were kindly provided by Dr. Gordon Keller. We are grateful for use of core facilities provided by the Parker H. Petit Institute of Bioengineering and Bioscience and to Ms. Melissa Kinney for assistance with statistical analysis.

Subjects:

Research Funding:

Financial support was provided by funding from the National Institutes of Health (GM088291) and the National Science Foundation (CBET 0651739).

ABL was supported by an NIH training grant (GM008433) as well as funding from the Goizueta Foundation.

AN was supported by an NSF Graduate Research Fellowship.

Keywords:

  • Science & Technology
  • Technology
  • Engineering, Biomedical
  • Materials Science, Biomaterials
  • Engineering
  • Materials Science
  • Embryonic stem cells
  • Differentiation
  • Bone morphogenic protein
  • Mesoderm
  • Embryoid body
  • Microparticle
  • Embryoid body differentiation
  • Endothelial growth factor
  • Progenitor cells
  • Heparan sulfate
  • Mesoderm
  • Protein 4
  • VEGF
  • Specification
  • Organization
  • Bodies

A microparticle approach to morphogen delivery within pluripotent stem cell aggregates

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Journal Title:

Biomaterials

Volume:

Volume 34, Number 30

Publisher:

, Pages 7227-7235

Type of Work:

Article | Post-print: After Peer Review

Abstract:

Stem cell fate and specification is largely controlled by extrinsic cues that comprise the 3D microenvironment. Biomaterials can serve to control the spatial and temporal presentation of morphogenic molecules in order to direct stem cell fate decisions. Here we describe a microparticle (MP)-based approach to deliver growth factors within multicellular aggregates to direct pluripotent stem cell differentiation. Compared to conventional soluble delivery methods, gelatin MPs laden with BMP4 or noggin induced efficient gene expression of mesoderm and ectoderm lineages, respectively, despite using nearly 12-fold less total growth factor. BMP4-laden MPs increased the percentage of cells expressing GFP under the control of the Brachyury-T promoter as visualized by whole-mount confocal imaging and quantified by flow cytometry. Furthermore, the ability to localize MPs laden with different morphogens within a particular hemisphere of stem cell aggregates allowed for spatial control of differentiation within 3D cultures. Overall, localized delivery of growth factors within multicellular aggregates from microparticle delivery vehicles is an important step towards scalable differentiation technologies and the study of morphogen gradients in pluripotent stem cell differentiation.

Copyright information:

© 2013 Elsevier Ltd. All rights reserved

This is an Open Access work distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (https://creativecommons.org/licenses/by-nc-nd/4.0/).
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