The aim of this study was to investigate the developmental characteristics of the mandibular condyle in
sequential phases at the gene level using in situ hybridisation. At d 14.5 of gestation, although no expression
of type II collagen mRNA was observed, aggrecan mRNA was detected with type I collagen mRNA in the
posterior region of the mesenchymal cell aggregation continuous with the ossifying mandibular bone anlage
prior to chondrogenesis. At d 15.0 of gestation, the first cartilaginous tissue appeared at the posterior edge
of the ossifying mandibular bone anlage. The primarily formed chondrocytes in the cartilage matrix had
already shown the appearance of hypertrophy and expressed types I, II and X collagens and aggrecan
mRNAs simultaneously. At d 16.0 of gestation, the condylar cartilage increased in size due to accumulation
of hypertrophic chondrocytes characterised by the expression of type X collagen mRNA, whereas the
expression of type I collagen mRNA had been reduced in the hypertrophic chondrocytes and was confined
to the periosteal osteogenic cells surrounding the cartilaginous tissue. At d 18.0 of gestation before birth,
cartilage-characteristic gene expression had been reduced in the chondrocytes of the lower half of the
hypertrophic cell layer. The present findings demonstrate that the initial chondrogenesis for the mandibular
condyle starts continuous with the posterior edge of the mandibular periosteum and that chondroprogenitor
cells for the condylar cartilage rapidly differentiate into hypertrophic chondrocytes. Further, it is indicated
that sequential rapid changes and reductions of each mRNA might be closely related to the construction of
the temporal mandibular ramus in the fetal stage.