Inhibition of branching morphogenesis and alteration of glycosaminoglycan biosynthesis in salivary glands treated with β-d-xyloside

Abstract The role of glycosaminoglycans (GAGs) in the branching morphogenesis of embryonic mouse salivary glands was investigated by culturing the glands in the presence of xylose derivatives which stimulate synthesis of the xyloselinked classes of GAGs. Branching morphogenesis is inhibited severely, but reversibly, by 0.5–1.0 m M π-nitrophenyl-β- d -xylopyranoside and the inhibition correlates with a stimulation of incorporation of [ 3 H]glucosamine (1.8-fold) and [ 35 S]sulfate (almost 3-fold) into GAGs. The effect of β-xyloside on accumulation of newly synthesized GAG also occurs in the presence of the protein synthesis inhibitor cycloheximide, suggesting that the production of free GAG chains rather than proteoglycan-associated GAGs is being stimulated. The xyloside effects apparently do not result from general cytotoxicity of the derivatives, since similar concentrations of the α-anomer do not alter salivary branching or GAG synthesis, the rudiments resume morphogenesis when returned to control medium, and the effect on GAG synthesis is stimulatory rather than inhibitory. The study suggests that GAG biosynthesis plays an important role in salivary development, and that xylosides provide useful probes for characterizing the molecular events controlling branching morphogenesis.