Cellular differences in ring glands of flesh fly pupae as a consequence of diapause programming

The ultrastructure of the ring gland (corpus cardiacum (CC), prothoracic gland (PG) and corpus allatum (CA)) was examined in diapausing and nondiapausing flesh fly pupae. The diapause developmental state, which is environmentally regulated and coordinated by the brain-ring gland complex, is associated with differences in the ultrastructure of PG and CA cells but not in the CC. During diapause the PG and CA cells have extensive arrays of rough endoplasmic reticulum and spherical mitochondria. The PG cells also contain lipid droplets surrounded by an electron dense amorphous coat not seen in PG cells from nondiapausing pupae. In nondiapausing pupae, the PG and CA cells contain large amounts of ribosomes throughout the cytoplasm but very little rough endoplasmic reticulum and elongated mitochondria. The fact that ring glands from diapausing pupae readily incorporate 35S-methioninc indicates that the gland is actively synthesizing proteins, thus the contrasts in ring gland ultrastructure are not due to cellular quiescence during diapause but reflect fundamental cellular and physiological differences between the diapause and nondiapause developmental program.