Title

FGF/FGFR3 signaling and fate of avian Meckel's cartilage

Date of Completion

January 2004

Keywords

Biology, Molecular|Biology, Genetics

Degree

Ph.D.

Abstract

The midportion of avian Meckel's cartilage (MC) is a permanent cartilage that persists into adult life. The overall goal of our studies is to gain insight into the genetic pathway(s) involved in preventing the maturation/hypertrophy in c&barbelow;hondrocytes in the m&barbelow;idportion of M&barbelow;eckel's c&barbelow;artilage (CMMC) in vivo. First, we determined the stage of differentiation of CMMC. We showed that CMMC maintained high levels of expression of aggrecan, sox9, and Fgfr3 but lacked the expression of type-X-collagen, Ihh, Cbfa1, BmpIA, and Fgfr1 . Low but detectable levels of PTH1R and BmprIB were also expressed in CMMC. PTHrP and Fgfr2 were expressed in the perichondrium. Thus, CMMC are maintained/arrested in the late proliferative stage of differentiation and do not enter the prehypertrophic stage of maturation. The sustained expression of Fgfr3 and PTH1R in CMMC suggest that the inability of CMMC to progress into the prehypertrophic stage of maturation is related to the activities of these negative signaling pathways. Our observations also indicate that despite their inability to mature in vivo, CMMC have the ability to mature and express hypertrophy-associated traits in vitro. Both FGF2 (a ligand for FGFR3) and PTHrP modulated the in vitro-induced maturation and hypertrophy of CMMC. ^ We also generated retroviral constructs expressing epitope tagged, dominant-negative forms of murine FGFR3 (RCAS-dn-mFGFR3). Overexpression of RCAS-dn-mFGFR3 in vivo caused numerous abnormalities in mandibular development on the injected side in a stage-specific manner. At early stages of development RCAS-dn-mFGFR3 caused decreases in the length of mandibular processes and Meckel's cartilage, partial or complete absence of mandibular bones. On the other hand, this treatment at later stages of development did not affect the outgrowth of the mandibular process and MC but resulted in localized thickening of MC, increases in the length of MC and partial to complete absence of most mandibular membranous bones. Our results provide evidence for involvement of FGFR3 signaling in several aspects of chick mandibular morphogenesis. ^

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