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High-throughput aggregate culture system to assess the chondrogenic potential of mesenchymal stem cells

Biotechniques. 2005 Nov;39(5):687-91. doi: 10.2144/000112009.

Abstract

We have developed an improved method for preparing cell aggregates for in vitro chondrogenesis studies. This method is a modification of a previously developed conical tube-based culture system that replaces the original 15-mL polypropylene tubes with 96-well plates. These modifications allow a high-throughput approach to chondrogenic cultures, which reduces both the cost and time to produce chondrogenic aggregates, with no detrimental effects on the histological and histochemical qualities of the aggregates. We prepared aggregates in both systems with human bone marrow-derived mesenchymal stem cells (hMSC). The aggregates were harvested after 2 and 3 weeks in chondrogenic culture and analyzed for their ability to differentiate along the chondrogenic pathway in a defined in vitro environment. Chondrogenic differentiation was assessed biochemically by DNA and glycosaminoglycan (GAG) quantification assays and by histological and immunohistologic assessment. The chondrogenic cultures produced in the 96-well plates appear to be slightly larger in size and contain more DNA and GAG than the aggregates made in tubes. When analyzed histologically, both systems demonstrate morphological characteristics that are consistent with chondrogenic differentiation and cartilaginous extracellular matrix production.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Bone Marrow Cells / cytology
  • Bone Marrow Cells / metabolism
  • Cell Biology*
  • Cell Differentiation
  • Cells, Cultured
  • Chondrocytes / cytology*
  • Chondrocytes / metabolism
  • Chondrogenesis*
  • Cloning, Molecular
  • DNA / chemistry
  • Extracellular Matrix / metabolism
  • Genetic Techniques*
  • Glycosaminoglycans / chemistry
  • Humans
  • Immunohistochemistry
  • Mesenchymal Stem Cells / cytology*
  • Polypropylenes / chemistry
  • Time Factors

Substances

  • Glycosaminoglycans
  • Polypropylenes
  • DNA