Metabolic shift from lipogenesis to glycogenesis in the last instar larval fat body of the silkworm, Bombyx mori

Abstract

When [ 14C]glucose was injected into the last instar larvae of the silkworm, Bombyx mori, the label was incorporated into various tissues at varying degrees depending on the developmental stages. Fat body exhibited high incorporation rates throughout the feeding periods. Silk glands became active in incorporation but midgut decreased toward larval maturation. The pulse labeling experiment clearly demonstrated that the metabolic shift from lipogenesis to glycogenesis occurred in fat body at the middle of the last instar; a predominant incorporation was found in lipids when [ 14C]glucose was injected at the early stage, while at the late stage glycogen synthesis became most active. Incorporation into fat body proteins was not a major factor throughout the instar. Extirpation of silk glands enhanced incorporation into glycogen and proteins at the late stage but did not affect lipid synthesis. Long-term chase showed that fat body lipids and proteins synthesized at the early stage were totally carried over into the pupal fat body, while much glycogen produced at the late stage was used during the larval-pupal transformation with the remainder carried over into the pupa. From these results the metabolic shift from lipogenesis to glycogenesis in fat body is discussed in relation to the storage function of the fat body for pupal metamorphosis.