Deletion of Vhlh in chondrocytes reduces cell proliferation and increases matrix deposition during growth plate development

D Pfander, T Kobayashi, MC Knight, E Zelzer, DA Chan… - 2004 - journals.biologists.com
D Pfander, T Kobayashi, MC Knight, E Zelzer, DA Chan, BR Olsen, AJ Giaccia, RS Johnson
2004journals.biologists.com
The von Hippel Lindau tumor suppressor protein (pVHL) is a component of a ubiquitin ligase
that promotes proteolysis of the transcription factor hypoxia-inducible-factor 1α (HIF1α), the
key molecule in the hypoxic response. We have used conditional inactivation of murine VHL
(Vhlh) in all cartilaginous elements to investigate its role in endochondral bone
development. Mice lacking Vhlh in cartilage are viable, but grow slower than control
littermates and develop a severe dwarfism. Morphologically, Vhlh null growth plates display …
The von Hippel Lindau tumor suppressor protein (pVHL) is a component of a ubiquitin ligase that promotes proteolysis of the transcription factor hypoxia-inducible-factor 1α (HIF1α), the key molecule in the hypoxic response. We have used conditional inactivation of murine VHL(Vhlh) in all cartilaginous elements to investigate its role in endochondral bone development. Mice lacking Vhlh in cartilage are viable, but grow slower than control littermates and develop a severe dwarfism. Morphologically, Vhlh null growth plates display a significantly reduced chondrocyte proliferation rate, increased extracellular matrix, and presence of atypical large cells within the resting zone. Furthermore, stabilization of the transcription factor HIF1α leads to increased expression levels of HIF1α target genes in Vhlh null growth plates. Lastly, newborns lacking both Vhlh and Hif1agenes in growth plate chondrocytes display essentially the same phenotype as Hif1a null single mutant mice suggesting that the Vhlh null phenotype could result, at least in part, from increased activity of accumulated HIF1α. This is the first study reporting the novel and intriguing findings that pVHL has a crucial role in endochondral bone development and is necessary for normal chondrocyte proliferation in vivo.
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