Hyaluronan Disappears Intercellularly and Appears at the Basement Membrane Region during Formation of Embryonic Epithelia: (mouse embryo/hyaluronan/epithelium/basement membrane/development).

The distribution of tissue hyaluronan has been assessed in the neuraxial region of 8.5 to 10.5 day mouse embryos using a fragment of bovine nasal cartilage proteoglycan that binds specifically to hyaluronan. Hyaluronan is abundant in all mesenchymal tissues, predominantly intercellularly, but markedly diminishes when mesenchymal cells organize into epithelia, as in the formation of somites. Hyaluronan reappears in abundance when epithelia (e.g. sclerotome) disperse into mesenchyme. Hyaluronan is present between cells of early epithelia (e.g. neural plate), but is lost during their subsequent development when it becomes abundant at their basement membrane regions. These results show for the first time changes in hyaluronan distribution during the development of embryonic epithelia. The hyaluronan distribution found is consistent with the functions proposed for hyaluronan in embryonic mesenchyme: intercellular hyaluronan would allow the epithelial cells to move and reduced hyaluronan would allow the cells to associate. The absence of intercellular hyaluronan in later epithelia would allow increased membrane contacts that lead to the formation of intercellular junctions. The restriction of hyaluronan to basement membrane regions in later epithelia further substantiates the suggestion that hyaluronan is a bona fide component of the basal lamina and that it is involved in maintaining epithelial morphology.