Identification of lysine-derived crosslinks in porcine collagen type X from growth plate and newly mineralized bone.

Intact collagen type X cannot readily be extracted from the growth plate. Both the use of pepsin to release this molecule from tissue and the relative solubility of collagen type X following treatment of chick embryos with beta-aminopropionitrile (Chen et al., 1992) suggest that the insolubility may by brought about by the formation of lysine-derived crosslinks. By immunocytochemical labelling using antibodies specific for collagen type X, we have shown that this collagen type persists in the cartilaginous spicules present in metaphyseal bone and appears to be colocalized with collagen type II. The combined concentration of the reducible bifunctional crosslinks, dihydroxylysinonorleucine and monohydroxylysinonorleucine, in collagen type X isolated from the premineralized and newly mineralized growth plate was about 0.6 residues/ molecule, a level which might explain the relative intractability of collagen type X. Pyridinoline and deoxypyridinoline were present in very small amounts in collagen type X; this suggests that, unlike the situation in other types of collagen, few of the bifunctional crosslinks undergo maturation to pyridinium compounds. Although it is clear that collagen type X contains lysinederived crosslinks, work is in progress to establish which molecule also participates in the formation of these crosslinks.