Clinical and genetic investigation of hypochondroplasia and dyschondrosteosis /

Grigelioniene, Giedre,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst., 2001. / Härtill 4 uppsatser.

Achondroplasia: genetics.

The use of a synthetic hedgehog agonist in mouse models of chondrodysplasia /

Morrison, David, 1981-

January 2008

The role of Indian hedgehog (Ihh) signalling in the regulation of endochondral bone formation is well established. Ihh controls the rate of bone growth by negatively regulating differentiation and positively regulating growth plate chondrocyte proliferation. It has been well documented also that mutations resulting in constitutive activation of signalling through FGFR3 in chondrodysplasia, lead to a significant decrease in this important signalling factor accompanied by reduced proliferation of the chondrocytes and a dwarf phenotype. / In an attempt to rescue the chondrodysplasia phenotype hedgehog agonist Hh-Ag 1.4 was injected subcutaneously into mice with achondroplasia (ACH) or with severe achondroplasia with developmental delay and acanthosis negricans (SADDAN) with mixed results. / Administration of a hedgehog agonist in SADDAN mice led to a significant up-regulation of both Ptch and Gli1, as measured by quantitative PCR, indicating that Hh-Ag 1.4 does indeed stimulate hedgehog signalling in vivo. Also, in situ hybridization for Ihh seems to show a down regulation of native Ihh expression in pre-hypertrophic chondrocytes, possibly due to the activation of the negative PTHrP feedback loop. In our study, Hh-Ag 1.4 treatment resulted in an increased growth plate length and reduced size of the hypertrophic zone. The cortical bone flanking the growth plate in mice injected with Hh-Ag 1.4 was 2-3 times thicker than in control mice, which may be attributed to the positive effect of increased Ihh signalling in osteoblastogenesis. Contrary to our expectations, there was also a noticeable reduction in chondrocyte proliferation in mice treated with the agonist. / Overall, the effect on the growth of long bones was not beneficial and the treatment with high doses of Hh-Ag 1.4 did not result in an amelioration of the chondrodysplastic phenotype.

Bone Development -- physiology.

Achondroplasia -- genetics.

Hedgehog Proteins -- agonists.

Mice.

Mice, Mutant Strains.

The use of a synthetic hedgehog agonist in mouse models of chondrodysplasia /

Morrison, David, 1981-

January 2008

No description available.

Bone Development -- physiology.

Mice.

Achondroplasia -- genetics.

Mice, Mutant Strains.

Hedgehog Proteins -- agonists.