Cartilage defects have limited capacity for repair and are often replaced by fibrocartilage with inferior mechanical properties. To overcome the limitations of artificial joint replacement, high throughput screens (HTS) could be developed to identify molecules that stimulate differentiation and/or proliferation of articular cartilage for drug therapy or tissue engineering. Currently embryonic stem cells (ESCs) can differentiate into articular cartilage by forming aggregates (embryoid body (EB), pellet, micromass), which are difficult to image. I present a novel, single-step method of generating murine ESC (mESC)-derived chondrocytes in monolayer cultures in chemically defined conditions. Mesoderm induction was achieved in cultures supplemented with BMP4, Activin A or Wnt3a. Prolonged culture with sustained Activin A, TGFβ3 or BMP4 supplementation led to robust chondrogenic induction. A short pulse of Activin A or BMP4 also induced chondrogenesis efficiently while Wnt3a acted as a later inducer. Long-term supplementation with Activin A or with Activin A followed by TGFβ3 may specifically promote articular cartilage formation. Thus, I devised a serum-free (SF) culture system to generate ESC-derived chondrocytes without the establishment of 3D cultures or the aid of cell sorting. Cultures were governed by the same signaling pathways as 3D ESC differentiation systems and limb bud mesenchyme or articular cartilage explant cultures. I am also in the process of creating a Col2a1 promoter-controlled, Cre-inducible reporter cell line to be used in my SF culture system using the Multisite Gateway® cloning technology. ESCs undergoing chondrogenic differentiation can be identified and quantified in HTS via the expression of fluorescent proteins. In addition, this transgenic line can be used to isolate ESC-derived chondrocytes as well as their progeny via cell sorting or antibiotic selection for in-depth characterization. The modular design of my construct system allows transgenic lines to be generated using various promoters of chondrogenic marker genes to perform parallel HTS analyses.
| Identifer | oai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/29902 |
| Date | 31 August 2011 |
| Creators | Waese, Yan Ling Elaine |
| Contributors | Stanford, William L. |
| Source Sets | University of Toronto |
| Language | en_ca |
| Detected Language | English |
| Type | Thesis |
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