Expression of type I and type V collagen mRNAs in the elasmoid scales of a teleost fish as revealed by in situ hybridization.

The ability of scale-forming cells to produce both type I and type V collagens was investigated by in situ hybridization at the light and electron microscope levels. Biochemical analyses reported that type I collagen, the predominant component, was associated with the minor type V collagen in the collagenous matrix of the teleost scales where, thin and thick collagen fibrils formed distinct layers. Thin collagen fibrils of the external layer were produced by the episquamal scleroblasts scattered on the outer scale surface, while thick collagen fibrils forming the compact basal plate were produced by the hyposquamal scleroblasts lining the inner surface of the scale. We demonstrated that episquamal and hyposquamal scleroblasts contained mRNAs for alpha1(I) and alpha1(V) collagens. Quantification by image analysis of the relative amount of alpha1(I) and alpha1(V) mRNAs in episquamal and hyposquamal scleroblasts suggests that the gene expression of type V collagen was proportionally higher in episquamal scleroblasts. These results support our hypothesis that the diameter of the thin fibrils of the external layer is regulated by the significant amount of type V collagen that interacts with type I collagen.