Korean J Orthod.  2004 Apr;34(2):143-152.

Expression of mRNAs characteristic of cartilage and bone in the developing mandibular condyle of mice

Affiliations
  • 1Department of Orthodontics, College of Dentistry, Chosun University, Korea.
  • 2Department of Oral Histology, College of Dentistry, Chosun University, Korea.

Abstract

It has not been elucidated whether the initiation of condylar development of the mandible is related with the periosteum of the mandible, or if it derives from a separate programmed blastema not related with the mandible. Also, although the mandibular condylar cartilage is known to promote growth, few studies have dealt with molecular-biologic mechanisms such as the expression of specific genes according to the differentiation of the mandibular condyle. To elucidate the unique cellular characteristics, development, and differentiation process of the mandibular condyle, an examination of expressions of genes characteristic of cartilage and bone were carried out using RT-PCR and mRNA in situ hybridization. 1. Type?collagen mRNA was detected with type II collagen mRNA in the differentiation and growth process of the cartilage of the mandibular condyle. Type II collagen mRNA was demonstrated in the whole resting and upper part of the proliferative zone, whereas type II collgen mRNA was observed in the resting, proliferative and upper hypertrophic cartilage zone of the mandibular condyle. 2. The condylar cartilage rapidly increased in size due to the accumulation of hypertrophic chondrocytes as characterized by the expression of type II collagen mRNA during postnatal development. 3. BMP-4 mRNA was present in the anlage of the future condylar process and also in the ossifying mandibular body. 4. IHH mRNA was limited exclusively to the lower part of the proliferative zone and the upper part of the hypertrophic cartilage zone during condylar development. These findings were different from those in the growth-plate cartilage of the long bone, indicating a characteristic feature of the differentiation of the chondrocytes in the condylar cartilage present in prenatal and postnatal development. Furthermore, it was also suggested that chondroblasts of condylar cartilage rapidly differentiate into hypertrophic chondrocytes with increased functional Load force such as muscle activity and mastication.

Keyword

Cartilage; Mandibular condyle; Differentiation; Collagen; gene

MeSH Terms

Animals
Cartilage*
Chondrocytes
Collagen
Collagen Type II
In Situ Hybridization
Mandible
Mandibular Condyle*
Mastication
Mice*
Periosteum
RNA, Messenger*
Collagen
Collagen Type II
RNA, Messenger
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