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  • Title: Comparative immunolocalisation of perlecan, heparan sulphate, fibroblast growth factor-18, and fibroblast growth factor receptor-3 and their prospective roles in chondrogenic and osteogenic development of the human foetal spine.
    Author: Shu C, Smith SS, Little CB, Melrose J.
    Journal: Eur Spine J; 2013 Aug; 22(8):1774-84. PubMed ID: 23397188.
    Abstract:
    PURPOSE: A comparative immunolocalisation study of perlecan, HS, FGF-18 and FGFR-3 in the 12-20-week gestational age human foetal spine was undertaken to identify spatiotemporal associations between these components to provide insights into prospective roles in spinal development. METHODS: Comparative immunolocalisations of matrix and cell associated components in Histochoice-fixed paraffin-embedded human foetal spinal tissues. RESULTS: The 12-14-week-old human foetal spine was a predominantly cartilaginous structure with the discs displaying a relative paucity of proteoglycan compared to the adjacent cartilaginous vertebral rudiments, notochordal remnants were also observed. HS and perlecan had a widespread distribution throughout the spine at 12 weeks, however, FGF-18 was only localised to the outer AF margins and hypertrophic cell condensations in the vertebral bodies. This contrasted with HS distributions at 14-20 weeks, which were prominent in the developing intervertebral disc (IVD). Ossification centres were also evident centrally within the vertebral rudiments surrounded by small columns of hypertrophic chondrocytes which expressed FGFR-3 and FGF-18 and upregulated levels of perlecan. FGF-18 also had a prominent localisation pattern in the developing IVD and the cartilaginous endplate while FGFR-3 was expressed throughout the disc interspace. This suggested roles for perlecan, FGF-18 and FGFR-3 in chondrogenic and osteogenic events which drive discal development and ossification of the vertebral bodies. CONCLUSIONS: The above data supported a role for FGF-18 in discal development and in the terminal osteogenic differentiation of chondroprogenitor cell populations, which promote vertebral ossification during spinal development.
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