Morphogenesis of Mouse Mammary Epithelium In Vivo in Response to Biomatrix Prepared from a Stimulatory Fetal Mesenchyme. (Mammary morphogenesis/biomatrix/mesenchyme)

Abstract

Insoluble "biomatrix" of mesenchyme is a stimulator of mammary cell differentiation in vitro, but its effect in the morphogenesis is unknown. Fetal salivary mesenchyme induces intense local duct formation when implanted into adult mammary gland. We have therefore tested whether biomatrix prepared from fetal salivary mesenchyme retains this ability to stimulate duct formation in vivo. Salivary mesenchyme isolated from mouse fetuses at 13.5-14.0 days of gestation, extracted sequentially with water and with 1 M NaCl, then digested with DNAse and RNAse was implanted into mammary glands of female mice and left for periods of 1-35 days. In approximately 40% of recipients, the local epithelium either formed cyst-like structures, or else "spikes" of mammary epithelium penetrated the matrix forming a simplified ductwork inside it. Similar responses were elicited by salivary mesenchyme killed by freezing and also by biomatrix prepared from fetal mammary fat pad precursor tissue, mesenchyme of fetal lung, and fetal heart, liver, and brain. However, when mesenchyme was either fixed with glutaraldehyde or sonicated and embedded in polymer blocks before implantation, no epithelial response was noted. These observations suggest that the biomatrix providing a passive scaffolding that contributes to morphogenesis of mammary ducts is insufficient to support normal morphogenesis.