Inhibition of palatal epithelial cell death by altered protein synthesis

Abstract

Programmed cell death occurs in a defined region of the secondary palatal epithelium (medial edge) during its development in vivo or in vitro. The purpose of this study was to examine the effects of various inhibitors of macromolecular synthesis, particularly glycoprotein synthesis, on the death of palatal medial-edge epithelial cells in vitro. Rat palatal shelves explanted on gestational Day 15 and cultured singly showed medial-edge cell degeneration after 48 hr, whereas in the presence of 6-diazo-5-oxo- l-norleucine (DON), 2-deoxyglucose (DOG), or cycloheximide, cell death was prevented. This was in contrast to the lack of inhibition of cell death in the presence of actionomycin D or cytosine arabinoside. Selectively adding metabolites which bypass the effect of DON on various synthetic pathways demonstrated that the inhibition of cell death by DON was most likely due to a block in glucosamine formation. The synthesis and activity of various lysosomal enzymes were not affected by DON, whereas a marked decrease was observed with both cycloheximide and DOG. These results suggest that palatal epithelial cell death is not a passive event, but an active process requiring the programmed synthesis of specific proteins.