101. Morphological and biochemical differentiation of limb bud cells cultured in chemically defined medium
- Author
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Sakaru Suzuki, Yukinobu Kato, Kenichiro Ito, Koji Kimata, and Kenichiro Karasawa
- Subjects
Cartilage ,Cell ,Cell Differentiation ,Embryo ,Chick Embryo ,DNA ,Cell Biology ,Biology ,Chondrogenesis ,Hindlimb ,Cell biology ,Limb bud ,Chemically defined medium ,medicine.anatomical_structure ,Biochemistry ,Proteoglycan ,medicine ,biology.protein ,Animals ,Proteoglycans ,Molecular Biology ,Cells, Cultured ,Developmental Biology ,Explant culture - Abstract
When chick limb buds were isolated from stage 22–23 embryos and cultured in chemically defined medium “BGJb,” the explants grew and, after about 9 days, showed good chondrogenesis of recognizable cartilage segments. Cartilage-type proteoglycan (termed PCS-H) was not synthesized during early days of culture, but by Day 9, it became a major proteoglycan constituent of the tissue. Freshly dissociated limb bud cells, when plated as monodispersed cultures at a density of 7 × 10 6 cells/ml of BGJb, did not undergo chondrogenic differentiation and, instead, assumed the appearance of unhealthy or degenerated cells. During 9 days of culture, even though proteoglycans were synthesized, they were nevertheless of much smaller molecular size than PCS-H. When limb bud cells were cultured as a pellet containing 7 × 10 6 cells in 1 ml of BGJb, a more tightly packed aggregate of about 2 × 10 6 cells appeared in an inner region of the pullet during the first 24 hr of culture, and by Day 12 the aggregate had differentiated into a cartilage nodule surrounded by a thin layer of what appear to be ectodermal cells. As the conversion of aggregate into cartilage nodule progressed, newly formed proteoglycans gradually became more like cartilage-type proteoglycans, and by Day 12 they had many chemical and physical characteristics similar to those of the proteoglycans isolated from fully differentiated cartilages. The results indicate that the initial association of limb bud cells is an important factor for the chondrogenesis in BGJb and further suggest that the tight binding of the cell surfaces to one another may directly or indirectly stimulate the mechanism of synthesis of cartilage-type proteoglycans.
- Published
- 1979