Ciliogenic components, such as the family of intraflagellar transport (IFT) proteins, are recognized to play key roles in endochondral ossification, a critical process to form most bones. However, it remains unclear how each IFT protein performs its unique function to regulate endochondral ossification. Here, we show that intraflagellar transport 20 (IFT20) is required for early chondrogenesis. Utilizing three osteo-chondrocyte lineage-specific Cre mice (Prx1-Cre, Col2-Cre and Aggrecan-CreERT2), we deleted Ift20 to examine its function. While chondrocyte-specific Ift20 deletion with Col2-Cre or Aggrecan-CreERT2 drivers did not cause overt skeletal defects, mesoderm-specific Ift20 deletion using Prx1-Cre (Ift20:Prx1-Cre) resulted in shortened limb outgrowth. Although primary cilia were not formed in Ift20:Prx1-Cre mice, ciliary Hedgehog signaling was only moderately affected. Interestingly, loss of Ift20 lead to upregulation of Fgf18 expression resulting in ERK1/2 activation and sustained Sox9 expression, thus preventing endochondral ossification. Inhibition of enhanced phospho-ERK1/2 activation partially rescued defective chondrogenesis in Ift20 mutant cells, supporting an important role for FGF signaling. Our findings demonstrate a novel mechanism of IFT20 in early chondrogenesis during endochondral ossification.
IFT20 is critical for early chondrogenesis during endochondral ossification
