Indirect stimulation of the prothoracic glands of Manduca sexta by juvenile hormone: Evidence for a fat body stimulatory factor

Abstract

Juvenile hormone or ZR512 applied topically to day-5, fifth-instar, neck-ligated Manduca sexta larvae results in the acceleration of pharate pupal development when compared to neck-ligated, untreated larvae. This occurs as a result of an increase in the haemolymph ecdysteroid titre. Juvenile hormone, therefore, appears to stimulate ecdysone synthesis by the prothoracic glands of these animals, but not directly as shown by in vitro analysis. When ecdysone synthesis by the prothoracic glands of these ZR512- or juvenile hormone-treated animals was analyzed in vitro, increased gland activity was demonstrated but this did not occur until at least 2 days after treatment. This time lag in response supports the concept of an indirect stimulation of the prothoracic glands. Incubation of fat body from these ZR512- or juvenile hormone-treated, neck-ligated, larvae in 19AB culture medium revealed that the resulting pre-conditioned medium was capable of stimulating prothoracic glands in vitro up to 9-fold in a dose-dependent manner. A developmental profile was generated of the amount of this stimulatory factor released into the medium by fat body of untreated larvae representing each day of the last instar, and revealed that maximal release occurred with fat body from day-9 animals. The alterations in the amount of factor release by the fat body during larval-pupal development roughly correlated with the juvenile hormone titre and suggested a possible role for this factor in the regulation of the ecdysteroid titre. In contrast to the prothoracicotropic hormone, the fat body stimulatory factor is heat labile and has an apparent mol. wt in the 30,000 Dalton range. These data, particularly the kinetics of prothoracic gland stimulation, suggest that the factor may be a protein transporting a substrate for ecdysone biosynthesis to the prothoracic glands.