Abstract

Appearance and distribution of the different collagen types and the noncollagenous glycoprotein laminin was studied during early mouse development from unfertilized ova to 8-day embryos using indirect immunofluorescence techniques. Laminin was first detected intracellularly in the 16-cell compacted morula and appeared also intercellularly along cell contours. Type IV collagen was first seen in the blastocyst mainly in the inner cell mass. After implantation intense fluorescence for both of these proteins was found in all the embryonic and extraembryonic basement membranes. The interstitial collagens type I and III were first detected in the 8-day embryo closely codistributed in tissues of mesodermal origin including the head and heart mesenchymes and in basement membranes bounded by mesodermal structures. The results establish a developmental sequence for the appearance of basement membrane and extracellular matrix glycoproteins in early mouse development. The distribution of laminin suggests the presence of extracellular matrix material already in compacted morulae. The appearance of type IV collagen coincides with differentiation of the primitive endoderm and assembly of the first embryonal basement membrane. The appearance of the interstitial collagens during mesoderm differentiation indicates a stage when mesoderm acquires connective tissue characteristics.